{"meta":{"query_hash":"0476d62f9741","filters":{"venue":"Cerebral Cortex"},"cohort_total":781,"direct_labels_cover":0,"predictions_cover":781,"exported":781,"export_cap":100000,"truncated":false,"label_status":"direct model label, unvalidated","prediction_status":"machine_predicted_unvalidated (Codex and Gemma teacher distillation)","score_status":"score_only:v0-immature-baseline","snapshot":{"source":"OpenAlex, pinned release, all 482 partitions","release":"2026-06-24","frame_built":"2026-07-12"},"permalink":"https://metacan.xera.ac/q/0476d62f9741","api":"https://metacan.xera.ac/api/v1/cohort?venue=Cerebral+Cortex"},"results":[{"id":"W1762692232","doi":"10.1093/cercor/bhv157","title":"Regulation of Cortical Dynamic Range by Background Synaptic Noise and Feedforward Inhibition","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Hospital for Sick Children","funders":"National Institute of Neurological Disorders and Stroke; Ontario Ministry of Research and Innovation; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; National Institutes of Health","keywords":"Feed forward; Neuroscience; Dynamic range; Neural coding; Population; Noise (video); Coding (social sciences); Automatic gain control; Wide dynamic range; Computer science; Biology; Artificial intelligence; Telecommunications; Mathematics; Engineering; Computer vision; Medicine","score_opus":0.029181107483126786,"score_gpt":0.25468176421623695,"score_spread":0.22550065673311015,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1762692232","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99741685,0.000038480437,0.0009752456,0.0003174094,0.00026992802,0.00021471534,0.000029478197,0.000051981915,0.00068591104],"genre_scores_gemma":[0.99910635,0.000013578527,0.000057443296,0.00024602117,0.000026710146,0.0000061008905,0.000033199605,0.000016700047,0.0004939005],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99886245,0.00009196984,0.00025484993,0.00033077534,0.0002705746,0.00018941257],"domain_scores_gemma":[0.9994248,0.00009232225,0.000118892676,0.00016412801,0.00005849054,0.00014136496],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001455085,0.00012768387,0.00017276894,0.00005151102,0.00007604855,0.000043421227,0.000062115585,0.00008241725,0.0000417627],"category_scores_gemma":[0.00017025274,0.00011598983,0.00004143734,0.00019508535,0.00017803902,0.00029986564,0.000054995002,0.0001321528,0.000031159485],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000150475,0.00006737152,0.0026952084,0.00003225653,0.000004753678,0.000004576509,0.00005682856,0.000014807695,0.9904846,0.0038864522,0.00090285006,0.0016998369],"study_design_scores_gemma":[0.0051610214,0.0019570051,0.574177,0.00012691242,0.00014326666,0.0002918275,0.00033091253,0.33152887,0.06672944,0.017913729,0.0007145163,0.0009254611],"about_ca_topic_score_codex":0.000021257267,"about_ca_topic_score_gemma":0.000012795005,"teacher_disagreement_score":0.92375517,"about_ca_system_score_codex":0.00006394319,"about_ca_system_score_gemma":0.00002475961,"threshold_uncertainty_score":0.4729928},"labels":[],"label_agreement":null},{"id":"W1782792905","doi":"10.1093/cercor/bhv128","title":"Ketamine Alters Outcome-Related Local Field Potentials in Monkey Prefrontal Cortex","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Robarts Clinical Trials; Western University; York University","funders":"Canadian Institutes of Health Research; Ontario Mental Health Foundation","keywords":"Local field potential; Neuroscience; Prefrontal cortex; Antisaccade task; Macaque; Saccade; Psychology; Cognition; Ketamine; Eye movement","score_opus":0.03730138937132643,"score_gpt":0.27128704778398455,"score_spread":0.23398565841265812,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1782792905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9905276,0.000023739945,0.000839465,0.00075109553,0.001848428,0.00035670833,0.00001535468,0.0001258198,0.005511805],"genre_scores_gemma":[0.99386233,0.0000062715258,0.000037381753,0.0018883778,0.00006398813,0.000012230273,0.000021340145,0.000029011668,0.004079085],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99791384,0.0001272316,0.00053493696,0.0005898036,0.00038254747,0.00045164232],"domain_scores_gemma":[0.9991471,0.00011199213,0.0001465912,0.00032140673,0.000038407554,0.00023451367],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018185894,0.00023790299,0.0003113211,0.00014846721,0.00007226908,0.0000651989,0.00029913936,0.0001538845,0.00021160835],"category_scores_gemma":[0.000339207,0.000210674,0.00011244665,0.00035943868,0.00012602117,0.00032502107,0.00014276658,0.00036170578,0.00026225956],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008221496,0.0006715735,0.12053228,0.000066353896,0.00003462784,0.00083778566,0.00054718426,0.0013892372,0.8220278,0.0062463437,0.0077898325,0.0390348],"study_design_scores_gemma":[0.009149762,0.0032460424,0.7083818,0.00011078363,0.00009249623,0.00043933277,0.0006382732,0.20367332,0.059835427,0.008714777,0.003841207,0.0018767967],"about_ca_topic_score_codex":0.00035813125,"about_ca_topic_score_gemma":0.00022577227,"teacher_disagreement_score":0.7621924,"about_ca_system_score_codex":0.00013983087,"about_ca_system_score_gemma":0.000054078613,"threshold_uncertainty_score":0.8591036},"labels":[],"label_agreement":null},{"id":"W1797206668","doi":"10.1093/cercor/bhv177","title":"Spatial Reference Memory is Associated with Modulation of Theta–Gamma Coupling in the Dentate Gyrus","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Université de Strasbourg","keywords":"Dentate gyrus; Hippocampal formation; Neuroscience; Hippocampus; Psychology; Coupling (piping); Spatial memory; Working memory; Cognition","score_opus":0.14329397102193955,"score_gpt":0.30737179201058307,"score_spread":0.1640778209886435,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1797206668","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973161,0.0000071546715,0.0001264978,0.00012682052,0.00017567916,0.00029062104,0.000013980862,0.000032970416,0.0019101262],"genre_scores_gemma":[0.9991406,0.0000034453624,0.000014263276,0.00049703853,0.000029372652,0.000011263488,0.0000067055785,0.00001270847,0.00028457344],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985947,0.00015926104,0.00024713724,0.00030228432,0.00047106767,0.00022552788],"domain_scores_gemma":[0.99924886,0.00015842877,0.00020374308,0.0002689181,0.000057997302,0.00006205037],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00037487363,0.0001356935,0.00018401712,0.000058835547,0.000076562756,0.00003129212,0.00032293264,0.000064065076,0.000071561626],"category_scores_gemma":[0.0002730831,0.00008735989,0.00003081862,0.0003123737,0.00007687808,0.00020001043,0.00004465363,0.00020855015,0.000026466834],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007714636,0.00034821228,0.016484197,0.000033818982,0.00001623122,0.00015363262,0.0058411257,0.004698549,0.9657522,0.0023122092,0.0002157144,0.0033726795],"study_design_scores_gemma":[0.0015110689,0.00054912426,0.0704035,0.000068121604,0.000023422726,0.00003515722,0.0005026155,0.060747765,0.861846,0.004063147,0.000010453868,0.00023956293],"about_ca_topic_score_codex":0.00008899011,"about_ca_topic_score_gemma":0.00021181635,"teacher_disagreement_score":0.10390611,"about_ca_system_score_codex":0.000035359066,"about_ca_system_score_gemma":0.00005582747,"threshold_uncertainty_score":0.35624328},"labels":[],"label_agreement":null},{"id":"W1834196404","doi":"10.1093/cercor/bhv253","title":"Cortical Layer Inversion and Deregulation of Reelin Signaling in the Absence of SOCS6 and SOCS7","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cytokine Signaling Pathways and Interactions","field":"Medicine","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Reelin; DAB1; Cell biology; Signal transduction; SOCS6; Neuroscience; Biology; Gene; Genetics; Gene expression","score_opus":0.058510025410996515,"score_gpt":0.30170749581491163,"score_spread":0.24319747040391512,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1834196404","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985533,0.00013719377,0.00015540789,0.00037521232,0.000037029877,0.00011685994,0.0000026716075,0.000005199114,0.0006171523],"genre_scores_gemma":[0.99935055,0.00000965433,0.0004422596,0.00012896764,0.00003484608,0.0000014367193,0.0000065130243,0.000004380664,0.000021422182],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.999441,0.000039003688,0.0002052079,0.00010034478,0.00014285333,0.00007157237],"domain_scores_gemma":[0.9996128,0.000091140566,0.000071008224,0.00008721195,0.00008834328,0.000049477054],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002299384,0.0000543373,0.00014189766,0.000052831474,0.000022559374,0.000005368303,0.000028357597,0.00004281755,0.00003488851],"category_scores_gemma":[0.000134512,0.0000377701,0.00002395285,0.00009472291,0.00008976509,0.000060891874,0.000022270397,0.00011637034,0.0000011279312],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025696374,0.00011465264,0.1851206,0.000099995144,0.000018835843,0.0000072642565,0.0029066843,0.000018919567,0.80616343,0.0021117292,0.00072189386,0.0024590027],"study_design_scores_gemma":[0.0031567225,0.0011322652,0.84646684,0.00051476323,0.00010909046,0.000119513046,0.0058711465,0.020164285,0.1189564,0.0030025125,0.00033527846,0.0001711841],"about_ca_topic_score_codex":0.0001308245,"about_ca_topic_score_gemma":0.000021695778,"teacher_disagreement_score":0.68720704,"about_ca_system_score_codex":0.000011956549,"about_ca_system_score_gemma":0.000043311942,"threshold_uncertainty_score":0.154022},"labels":[],"label_agreement":null},{"id":"W1897362985","doi":"10.1093/cercor/bhp201","title":"Temporal Dynamics of Selective Attention during Dichotic Listening","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Dichotic listening; Audiology; Stimulus (psychology); Psychology; Magnetoencephalography; Binaural recording; Selective attention; Monaural; Selective auditory attention; Active listening; Acoustics; Communication; Electroencephalography; Cognitive psychology; Medicine; Neuroscience; Cognition; Physics","score_opus":0.013880411932077587,"score_gpt":0.2600295276225482,"score_spread":0.24614911569047063,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1897362985","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971068,0.000005867314,0.00027442907,0.00024137436,0.00013381106,0.00014554574,0.0000034611685,0.00006309979,0.00202563],"genre_scores_gemma":[0.99911225,0.000001652714,0.0002183814,0.000050346174,0.000035752615,0.0000019815493,0.000004971739,0.000008371954,0.0005663005],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991155,0.000058748206,0.00021717175,0.000250544,0.00017552728,0.00018247822],"domain_scores_gemma":[0.99962455,0.000048070728,0.00009929622,0.00013253908,0.000044785593,0.000050747967],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000082116894,0.00008538909,0.00013007253,0.00007978818,0.000119073935,0.00002276508,0.00009184484,0.000051304763,0.000016768669],"category_scores_gemma":[0.00019859316,0.00007788616,0.00007143104,0.00026674685,0.00006130674,0.00017866831,0.00001780666,0.00012725072,0.000011128112],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000042398005,0.000092299924,0.040475916,0.00004660507,0.0000025359768,0.0000057373436,0.0004079825,0.000061730476,0.9509304,0.003973908,0.000009100479,0.003951349],"study_design_scores_gemma":[0.000295321,0.00022354728,0.9751411,0.00004598858,0.0000069059847,0.000011929512,0.00008090909,0.0061064097,0.016115423,0.0018710868,0.0000031993577,0.0000981614],"about_ca_topic_score_codex":0.00003164748,"about_ca_topic_score_gemma":0.000008217857,"teacher_disagreement_score":0.934815,"about_ca_system_score_codex":0.00008545156,"about_ca_system_score_gemma":0.000024776802,"threshold_uncertainty_score":0.31761053},"labels":[],"label_agreement":null},{"id":"W1969880629","doi":"10.1093/cercor/10.5.454","title":"A New Anatomical Landmark for Reliable Identification of Human Area V5/MT: a Quantitative Analysis of Sulcal Patterning","year":2000,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":499,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"","keywords":"Sulcus; Anatomy; Landmark; Cortex (anatomy); Superior temporal sulcus; Geology; Biology; Neuroscience; Computer science; Functional magnetic resonance imaging; Artificial intelligence","score_opus":0.07129634739844613,"score_gpt":0.38371110447618323,"score_spread":0.3124147570777371,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1969880629","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.92158866,0.000027688493,0.07729458,0.00026571535,0.000008066329,0.0003489189,0.00007595523,0.000053225547,0.0003371714],"genre_scores_gemma":[0.98775744,0.000011638067,0.01090807,0.00006528473,0.000020186628,0.000030454077,0.00027723046,0.000014308214,0.0009154059],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991064,0.000010885017,0.0004036759,0.00023845817,0.00011905122,0.00012154477],"domain_scores_gemma":[0.9992812,0.00005835178,0.00018560991,0.00030296264,0.00010687659,0.00006494439],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000088854846,0.00008721043,0.00034183296,0.00016273996,0.000046989528,0.0000061718156,0.00009012781,0.000043117456,0.00029609122],"category_scores_gemma":[0.00003377585,0.00008142705,0.00016923316,0.0004995629,0.000052353822,0.000054370994,0.000013177084,0.000084404644,0.0000024601595],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008196267,0.00049352885,0.3188467,0.00026391336,0.0009257292,0.000005521059,0.0007547143,0.0002470065,0.62827593,0.017853359,0.009541835,0.021972157],"study_design_scores_gemma":[0.0016959519,0.0006196394,0.88571453,0.00014229363,0.0022127,0.000007110038,0.0001285055,0.057331227,0.044003345,0.0060132686,0.0018762146,0.00025520893],"about_ca_topic_score_codex":0.00014815072,"about_ca_topic_score_gemma":0.000016401851,"teacher_disagreement_score":0.58427256,"about_ca_system_score_codex":0.000022675962,"about_ca_system_score_gemma":0.000030284215,"threshold_uncertainty_score":0.33204988},"labels":[],"label_agreement":null},{"id":"W1975385207","doi":"10.1093/cercor/bhv081","title":"Conjunctive Coding of Complex Object Features","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":85,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; Ontario Brain Institute; Western University; University of Toronto","funders":"Canadian Institutes of Health Research; University of Toronto; James S. McDonnell Foundation","keywords":"Perirhinal cortex; Computer science; Artificial intelligence; Coding (social sciences); Object (grammar); Percept; Visual Objects; Cognitive neuroscience of visual object recognition; Pattern recognition (psychology); Communication; Neuroscience; Psychology; Perception; Temporal lobe; Mathematics","score_opus":0.07239921339940794,"score_gpt":0.28549575984939324,"score_spread":0.2130965464499853,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1975385207","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9591297,0.00001844312,0.00025660178,0.0003281027,0.0008957656,0.00021790546,0.000036449466,0.000089198875,0.039027844],"genre_scores_gemma":[0.99738055,0.0000038866847,0.000086072556,0.0008270159,0.00007648283,0.0000034550942,0.000008989154,0.000012931858,0.0016006221],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990382,0.00007464655,0.00016328231,0.00027895378,0.0002542107,0.00019066661],"domain_scores_gemma":[0.9994155,0.00011054825,0.000113952905,0.00018026333,0.000076287295,0.0001034447],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009595031,0.00011552007,0.00017746023,0.00006431729,0.000069296984,0.000029646648,0.0001642819,0.000045964058,0.00008402542],"category_scores_gemma":[0.00034530158,0.00009576838,0.000063859,0.00022449702,0.00012961768,0.00013927395,0.000074766904,0.00013001957,0.000046412533],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017292962,0.00006394717,0.002093943,0.000020503627,0.0000074444138,0.000016711825,0.00025072315,0.000040379735,0.9450274,0.035972774,0.0133308135,0.0030024245],"study_design_scores_gemma":[0.004746228,0.0022772793,0.3289895,0.00010187892,0.00007813267,0.0003061546,0.0010907998,0.023071112,0.59535414,0.027484924,0.01534632,0.0011535125],"about_ca_topic_score_codex":0.000048847553,"about_ca_topic_score_gemma":0.000017758597,"teacher_disagreement_score":0.34967324,"about_ca_system_score_codex":0.000038699854,"about_ca_system_score_gemma":0.000045177203,"threshold_uncertainty_score":0.39053214},"labels":[],"label_agreement":null},{"id":"W1976489423","doi":"10.1093/cercor/bhu176","title":"Augmenting Plasticity Induction in Human Motor Cortex by Disinhibition Stimulation","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University Health Network","funders":"Canadian Institutes of Health Research; Deutscher Akademischer Austauschdienst","keywords":"Disinhibition; Transcranial magnetic stimulation; Neuroscience; Long-term potentiation; Stimulation; Neuroplasticity; Motor cortex; Plasticity; LTP induction; Stimulus (psychology); Primary motor cortex; Psychology; Chemistry; Excitatory postsynaptic potential; Medicine; Inhibitory postsynaptic potential; Physics; Internal medicine","score_opus":0.02711121696777062,"score_gpt":0.27090229043934494,"score_spread":0.2437910734715743,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1976489423","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9910435,0.000007080113,0.0060164556,0.000104783336,0.0003168863,0.00039154393,0.00001912736,0.00015938054,0.0019412135],"genre_scores_gemma":[0.99923235,0.0000017827098,0.00009911572,0.00017999676,0.00014058236,0.000022883045,0.000020531843,0.000023580054,0.0002791998],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99823517,0.00015581305,0.00042335413,0.0005200074,0.00035493626,0.0003107096],"domain_scores_gemma":[0.9993465,0.00024229706,0.0001534334,0.00014383887,0.00004213431,0.00007177684],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013485148,0.00019285986,0.00021595629,0.00014672788,0.00029855093,0.000069401176,0.00011240435,0.00009082363,0.00021756452],"category_scores_gemma":[0.00039783993,0.0002022426,0.000052854764,0.00034002308,0.000121360186,0.00032645217,0.00004234502,0.00019308721,0.0000598207],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000043840115,0.00009215343,0.00963545,0.00001480391,0.0000016354703,9.597687e-7,0.00013516849,0.00020138179,0.9866,0.0014330482,0.00014494371,0.0016966363],"study_design_scores_gemma":[0.0018836106,0.00027245365,0.9493646,0.0000425644,0.000018168339,0.0000032632483,0.000033004966,0.022971427,0.023454607,0.0014166092,0.00026624298,0.00027346806],"about_ca_topic_score_codex":0.00009925532,"about_ca_topic_score_gemma":0.000050477676,"teacher_disagreement_score":0.9631454,"about_ca_system_score_codex":0.00008153402,"about_ca_system_score_gemma":0.000010007349,"threshold_uncertainty_score":0.82472146},"labels":[],"label_agreement":null},{"id":"W1978134039","doi":"10.1093/cercor/bhu255","title":"Identification of Mood-Relevant Brain Connections Using a Continuous, Subject-Driven Rumination Paradigm","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Neurological Disorders and Stroke; National Institutes of Health; Natural Sciences and Engineering Research Council of Canada; Dana Foundation","keywords":"Rumination; Psychology; Mind-wandering; Cognitive psychology; Mood; Cognition; Neuroscience; Social psychology","score_opus":0.027947818827834387,"score_gpt":0.27266733981693847,"score_spread":0.24471952098910407,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1978134039","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9768977,0.000014965101,0.01645103,0.0035175541,0.00077972637,0.00040359003,0.000034864,0.00013776848,0.0017627588],"genre_scores_gemma":[0.99857694,0.000004073625,0.00011568272,0.00052535,0.00013559416,0.000026289834,0.000007361722,0.000026096048,0.0005826133],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980672,0.00028775327,0.00045929704,0.0005577337,0.0003589151,0.0002691028],"domain_scores_gemma":[0.99617636,0.002889607,0.00037868376,0.00036537743,0.00012552057,0.00006442483],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00039842704,0.00018135946,0.0002874776,0.00020168524,0.00035471286,0.000055048007,0.00020401448,0.00008084123,0.00005163305],"category_scores_gemma":[0.0076679746,0.00018779589,0.000116810574,0.00042733463,0.00024685243,0.00034653692,0.00008063162,0.00015418748,0.0000787527],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000033416436,0.00011656826,0.007867783,0.00003421237,0.000018578172,7.4519863e-7,0.0002929897,0.00040595414,0.9291295,0.060266986,0.0009664911,0.00086678454],"study_design_scores_gemma":[0.0022117326,0.00065415504,0.25403923,0.00010800722,0.00013863677,0.00013085738,0.0006250804,0.16200173,0.55087966,0.023901302,0.0044232076,0.0008863852],"about_ca_topic_score_codex":0.000081062266,"about_ca_topic_score_gemma":0.00019528237,"teacher_disagreement_score":0.37824982,"about_ca_system_score_codex":0.00013184376,"about_ca_system_score_gemma":0.0000581978,"threshold_uncertainty_score":0.9179836},"labels":[],"label_agreement":null},{"id":"W1981162500","doi":"10.1093/cercor/bht151","title":"Anxious/Depressed Symptoms are Linked to Right Ventromedial Prefrontal Cortical Thickness Maturation in Healthy Children and Young Adults","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Heart Rate Variability and Autonomic Control","field":"Medicine","cited_by":176,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; Douglas Mental Health University Institute; McGill University","funders":"National Institute of Child Health and Human Development; Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute on Drug Abuse; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; McGill University; Georgetown University; University of California, Los Angeles; National Institutes of Health; Harvard University; McLean Hospital","keywords":"Ventromedial prefrontal cortex; Psychology; Prefrontal cortex; Young adult; Developmental psychology; Neuroscience; Cognition","score_opus":0.004900825965442082,"score_gpt":0.22440274552388512,"score_spread":0.21950191955844303,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1981162500","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.993626,0.00008928322,0.00011918628,0.0035377145,0.0003768929,0.0020343703,0.00002734875,0.00008144317,0.00010774712],"genre_scores_gemma":[0.99799794,0.000008007368,0.00019131429,0.0010399452,0.00039756543,0.00011691936,0.00013426082,0.000021999618,0.00009207136],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983157,0.000108688844,0.00046503998,0.00050747354,0.0001798595,0.00042324985],"domain_scores_gemma":[0.9990672,0.00007012707,0.00007891633,0.00029351423,0.0000832867,0.0004069393],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017852966,0.00020132626,0.00045510224,0.00010760718,0.00009417702,0.0000637937,0.000085249725,0.00021162702,0.00044035507],"category_scores_gemma":[0.00014007266,0.00017189296,0.0000583486,0.00012628139,0.000077517805,0.00021034786,0.00006150716,0.00044797958,0.00016994962],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0039097206,0.0009843197,0.8839294,0.00024855573,0.00014911147,0.000043040574,0.00362698,0.000008661169,0.068936594,0.0005550259,0.0007229533,0.03688565],"study_design_scores_gemma":[0.0040739398,0.0004924478,0.99060434,0.00012447865,0.00003221922,0.00005210669,0.00006445302,0.004072701,0.000056647998,0.00012399767,0.00012414472,0.00017853467],"about_ca_topic_score_codex":0.0011608431,"about_ca_topic_score_gemma":0.0006153834,"teacher_disagreement_score":0.10667494,"about_ca_system_score_codex":0.0001462848,"about_ca_system_score_gemma":0.00013847383,"threshold_uncertainty_score":0.70095915},"labels":[],"label_agreement":null},{"id":"W1982102650","doi":"10.1093/cercor/bhg085","title":"Cortical Specialization for Processing First- and Second-order Motion","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":86,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Neuroscience; Occipital lobe; Motion perception; Stimulus (psychology); Biological motion; Psychophysics; Parietal lobe; Perception; Visual processing; Psychology; Visual perception; Cognitive psychology","score_opus":0.05413004567306547,"score_gpt":0.3092429287439834,"score_spread":0.25511288307091795,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1982102650","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.71171993,0.000044402903,0.27667543,0.00023829643,0.00059921265,0.0005643965,0.000012324213,0.00019900392,0.009946966],"genre_scores_gemma":[0.9956993,0.000006672615,0.0014735272,0.0010606195,0.000090263595,0.000018751083,0.0000062113018,0.000019927873,0.0016247332],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991143,0.00005367252,0.00016698634,0.00033471122,0.00012993078,0.00020040767],"domain_scores_gemma":[0.99966156,0.000045825866,0.00006402459,0.00007937293,0.00006427268,0.000084914005],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012724323,0.000108941254,0.000107132946,0.000048268957,0.00040952308,0.00014024657,0.000056018143,0.0000762016,0.00091485324],"category_scores_gemma":[0.0005215634,0.00010288454,0.000024639665,0.00019369501,0.00006483888,0.00026013196,0.0000122965575,0.00008480712,0.0000305965],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001725279,0.00029610883,0.002195695,0.00076172483,0.0000057726775,0.000006272569,0.0029243052,0.00004155072,0.7140454,0.20429902,0.0021943762,0.07305724],"study_design_scores_gemma":[0.0067093843,0.0013302186,0.031632908,0.0002476941,0.000118501186,0.00032336888,0.0014622808,0.1521627,0.5902278,0.098349474,0.11538387,0.0020518084],"about_ca_topic_score_codex":5.6311166e-7,"about_ca_topic_score_gemma":0.000011471557,"teacher_disagreement_score":0.28397933,"about_ca_system_score_codex":0.000028630277,"about_ca_system_score_gemma":0.00004726086,"threshold_uncertainty_score":0.99999845},"labels":[],"label_agreement":null},{"id":"W1989321573","doi":"10.1093/cercor/bhs281","title":"Delayed Cortical Development in Fetuses with Complex Congenital Heart Disease","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Congenital Heart Disease Studies","field":"Medicine","cited_by":311,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"Canadian Institutes of Health Research","keywords":"Gyrification; Hypoplastic left heart syndrome; Fetus; Medicine; Cardiology; Magnetic resonance imaging; In utero; White matter; Internal medicine; Heart disease; Pregnancy; Cerebral cortex; Radiology; Biology","score_opus":0.03418191065289784,"score_gpt":0.2898702894237078,"score_spread":0.25568837877080997,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1989321573","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959764,0.0008034231,0.000023575385,0.00045343576,0.00010591307,0.0006118207,0.000022897666,0.00010665489,0.0018958807],"genre_scores_gemma":[0.99697065,0.0000027599974,0.0010563815,0.0011525388,0.00014348944,0.00007763396,0.00007071969,0.000037108257,0.0004886978],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99828947,0.000046846366,0.00032738113,0.0002906979,0.00038635335,0.00065923604],"domain_scores_gemma":[0.99869835,0.00007171355,0.000027454938,0.00026005495,0.000104112354,0.0008382881],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009546179,0.00024957836,0.00038397807,0.00010952727,0.0001309435,0.000017408363,0.00006023499,0.000044802815,0.0006492955],"category_scores_gemma":[0.00008454365,0.00019822986,0.000069984315,0.00023343708,0.00020691322,0.00016610409,0.00010260022,0.0002109475,0.0003768437],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015277696,0.0005551576,0.9939206,0.0000642778,0.00011623249,0.000119548284,0.00039511078,1.3240536e-7,0.0004603569,0.000118150936,0.0013145985,0.0014080632],"study_design_scores_gemma":[0.0018447038,0.00018081686,0.991487,0.00005193741,0.00015195456,0.000070204354,0.00028989534,0.00008340903,0.00009146816,0.000011527521,0.0054696193,0.00026743236],"about_ca_topic_score_codex":0.00003419793,"about_ca_topic_score_gemma":0.00022103441,"teacher_disagreement_score":0.0041550207,"about_ca_system_score_codex":0.000150448,"about_ca_system_score_gemma":0.00030881993,"threshold_uncertainty_score":0.8083579},"labels":[],"label_agreement":null},{"id":"W1996320065","doi":"10.1093/cercor/bhp199","title":"A Role for the Intraparietal Sulcus in Transforming Musical Pitch Information","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":171,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; International Laboratory for Brain, Music and Sound Research; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; McGill University","keywords":"Intraparietal sulcus; Semitone; Rhythm; Functional magnetic resonance imaging; Psychology; Stimulus (psychology); Auditory cortex; Neuroscience; Speech recognition; Computer science; Cognitive psychology; Acoustics","score_opus":0.02226547654001159,"score_gpt":0.26572109330768734,"score_spread":0.24345561676767574,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1996320065","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99321026,0.0000031981485,0.0024426735,0.0012612757,0.00026038213,0.00057244423,0.000008270654,0.000054329514,0.0021871729],"genre_scores_gemma":[0.9943316,0.000011703755,0.000032656026,0.0054378756,0.0000897875,0.000034070443,0.000003530061,0.000004027013,0.000054727767],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99902827,0.00002293041,0.00022463396,0.00020663839,0.00020792522,0.0003096234],"domain_scores_gemma":[0.9996414,0.00008836559,0.000045112538,0.00015696941,0.000016615904,0.000051513576],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015831679,0.000102584534,0.000098648336,0.00007951302,0.0002103423,0.000111398076,0.00024802962,0.00005057892,0.000035242105],"category_scores_gemma":[0.00016247421,0.000072758136,0.000067616784,0.0003283832,0.00008748352,0.0010772507,0.000013609939,0.00016203585,0.000033016913],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000072600495,0.000049811388,0.000038682396,0.000004415296,3.2600826e-7,0.0000013738049,0.0019216648,0.00003193088,0.7908694,0.0075404136,0.00024054231,0.19922884],"study_design_scores_gemma":[0.0049331407,0.0018443537,0.5919811,0.00006242971,0.00004783548,0.00019507363,0.0023025377,0.1067248,0.18908612,0.023058128,0.078707665,0.0010567972],"about_ca_topic_score_codex":0.000016505255,"about_ca_topic_score_gemma":0.000033674834,"teacher_disagreement_score":0.6017833,"about_ca_system_score_codex":0.00003137184,"about_ca_system_score_gemma":0.0000448857,"threshold_uncertainty_score":0.29669908},"labels":[],"label_agreement":null},{"id":"W1998524766","doi":"10.1093/cercor/bht324","title":"Functional and Effective Hippocampal–Neocortical Connectivity During Construction and Elaboration of Autobiographical Memory Retrieval","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":191,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Toronto Rehabilitation Institute; University of Toronto; Western University; Ontario Brain Institute; University Health Network","funders":"Canadian Institutes of Health Research; Deutsche Forschungsgemeinschaft; James S. McDonnell Foundation","keywords":"Episodic memory; Autobiographical memory; Elaboration; Psychology; Hippocampus; Hippocampal formation; Neuroscience; Recall; Cognitive psychology; Explicit memory; Cognition; Perception","score_opus":0.020534133468631338,"score_gpt":0.24262094624024466,"score_spread":0.22208681277161332,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W1998524766","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982662,0.000017973078,0.00034236943,0.00017402432,0.00036266632,0.0005967653,0.000010172373,0.00006766839,0.00016216512],"genre_scores_gemma":[0.9996022,0.000013821652,0.0001306326,0.00011530258,0.00006986828,0.00002172404,0.0000021456128,0.000010148969,0.000034149773],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99867815,0.00022611904,0.00023392144,0.00045026335,0.00021463039,0.000196921],"domain_scores_gemma":[0.9991895,0.00035176644,0.000115693205,0.00013242787,0.000071000875,0.00013963453],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013107949,0.00015102228,0.00021795889,0.00011439593,0.0002002867,0.000046254747,0.00004768133,0.00012133522,0.00023767688],"category_scores_gemma":[0.00050434604,0.00013483927,0.000042998843,0.0003089137,0.0004501523,0.0004411815,0.00006630506,0.0002320183,0.000013516832],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016127476,0.00003324141,0.0057036686,0.000045425884,0.000005866428,0.0000039782094,0.0000449507,0.0000010538408,0.9858845,0.0049015456,0.000011261337,0.0032032456],"study_design_scores_gemma":[0.0005445242,0.00020778661,0.3803031,0.000012567406,0.000014383728,0.00013175218,0.00004706194,0.000402663,0.612904,0.0053309654,0.0000011633514,0.00010003089],"about_ca_topic_score_codex":0.0000065658155,"about_ca_topic_score_gemma":0.0000021394612,"teacher_disagreement_score":0.37459946,"about_ca_system_score_codex":0.000017240125,"about_ca_system_score_gemma":0.000020279476,"threshold_uncertainty_score":0.54985857},"labels":[],"label_agreement":null},{"id":"W2005173683","doi":"10.1093/cercor/bhm172","title":"Dopamine Modulation of Hippocampal-Prefrontal Cortical Interaction Drives Memory-Guided Behavior","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":106,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Mental Health; McGill University","keywords":"Prefrontal cortex; Neuroscience; Retrospective memory; Hippocampus; Episodic memory; Psychology; Mechanism (biology); Computer science; Prospective memory; Cognitive psychology; Explicit memory; Cognition","score_opus":0.07997478420710405,"score_gpt":0.34061352716813903,"score_spread":0.26063874296103495,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2005173683","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9943532,0.000004811623,0.0017533728,0.000033137032,0.0012502437,0.0003692592,0.000010056249,0.00009932247,0.0021266108],"genre_scores_gemma":[0.9986313,0.0000026986781,0.0002908545,0.00018883546,0.00014127538,0.000011309155,0.000011355663,0.000022048245,0.000700307],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99825,0.000111901245,0.00051507406,0.0004334902,0.00036196705,0.0003275716],"domain_scores_gemma":[0.99908775,0.00018886628,0.00021655085,0.00029950295,0.000051911153,0.00015540517],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022651702,0.00018549719,0.00023686414,0.00013021396,0.00013125628,0.000022366694,0.0002079109,0.0001029189,0.000647892],"category_scores_gemma":[0.00024921223,0.00016960445,0.00010660901,0.000218138,0.000120627046,0.00039049462,0.00007678699,0.00025955163,0.000088308334],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014138015,0.00014659022,0.0009969431,0.000012563613,0.000002206819,0.00004348495,0.000102541984,0.000009538833,0.9889114,0.00090076454,0.000032447242,0.008700151],"study_design_scores_gemma":[0.0004638591,0.00027991895,0.12750736,0.00001761932,0.000024656747,0.00012476908,0.00014653658,0.0015717298,0.8693631,0.0003223489,0.000017466491,0.0001606282],"about_ca_topic_score_codex":0.000011364344,"about_ca_topic_score_gemma":0.00002333584,"teacher_disagreement_score":0.12651041,"about_ca_system_score_codex":0.000054983633,"about_ca_system_score_gemma":0.000018646559,"threshold_uncertainty_score":0.7093963},"labels":[],"label_agreement":null},{"id":"W2005197503","doi":"10.1093/cercor/bhi106","title":"The Human Parietal Operculum. II. Stereotaxic Maps and Correlation with Functional Imaging Results","year":2005,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":412,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Operculum (bryozoa); Cytoarchitecture; Neuroscience; Somatosensory system; Posterior parietal cortex; Brain mapping; Cortex (anatomy); Anatomy; Parietal lobe; Human brain; Biology; Psychology","score_opus":0.06258318598406351,"score_gpt":0.3076830050158782,"score_spread":0.2450998190318147,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2005197503","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000548987,0.98886,0.00013972018,0.0003166423,0.00064867066,0.0013072535,0.0001669525,0.00016540427,0.007846329],"genre_scores_gemma":[0.03684702,0.955893,0.00008773686,0.00017203864,0.00052814663,0.000111853704,0.000118837466,0.00008983684,0.006151569],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9975737,0.00019596535,0.00064529234,0.0007710861,0.00046238696,0.00035160343],"domain_scores_gemma":[0.9985776,0.0005412019,0.00034209216,0.00038286735,0.00006446489,0.00009179026],"candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.0001848988,0.00044067053,0.0006349855,0.000095954696,0.0015903168,0.00022105336,0.00024552442,0.00010416821,0.00006379681],"category_scores_gemma":[0.00015342812,0.00027042834,0.00014959491,0.00030773785,0.00050634204,0.00020846279,0.00015305285,0.00046253623,0.00007505068],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007184592,0.000039936083,0.000082810075,0.0003367208,0.00003740344,0.000013773416,0.00015509155,0.000019588788,0.000028104805,0.0023918254,0.0014615165,0.9953614],"study_design_scores_gemma":[0.0010847952,0.00014437757,0.005215335,0.0008914053,0.000354041,0.00020498104,0.000028327808,0.00030091873,4.427241e-7,0.000093103394,0.9912611,0.0004211459],"about_ca_topic_score_codex":0.000017988363,"about_ca_topic_score_gemma":0.000052806197,"teacher_disagreement_score":0.9949402,"about_ca_system_score_codex":0.00006819828,"about_ca_system_score_gemma":0.000092160015,"threshold_uncertainty_score":0.9999748},"labels":[],"label_agreement":null},{"id":"W2011115053","doi":"10.1093/cercor/bht205","title":"Effects of Core Auditory Cortex Deactivation on Neuronal Response to Simple and Complex Acoustic Signals in the Contralateral Anterior Auditory Field","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Auditory cortex; Neuroscience; Somatosensory system; Excitatory postsynaptic potential; Sensory system; Receptive field; Psychology; Cerebral cortex; Auditory system; Biology; Inhibitory postsynaptic potential","score_opus":0.019052039726765484,"score_gpt":0.25709499546035275,"score_spread":0.23804295573358727,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2011115053","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99715424,0.0000031751251,0.00012255558,0.000793433,0.00090458017,0.0009078201,0.000010770083,0.000029072913,0.00007433409],"genre_scores_gemma":[0.9926748,0.0000037571817,0.000010663626,0.006914712,0.00018018055,0.00005709863,0.00000433156,0.000016535805,0.00013789356],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983988,0.0003282172,0.00030083116,0.00038547086,0.0003033558,0.00028336968],"domain_scores_gemma":[0.99685955,0.002657709,0.00014835421,0.00020674868,0.000041316933,0.00008633565],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018764714,0.00018442492,0.00023880141,0.00013409517,0.00012237302,0.00006643524,0.00021241665,0.0000734096,0.00010920089],"category_scores_gemma":[0.0008726686,0.00013652959,0.000054739823,0.00020174272,0.00008840591,0.00019358174,0.00005981997,0.00024071283,0.000029377228],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007248363,0.00007718833,0.0010753636,0.000035581426,0.0000025978882,0.000018800702,0.0001398517,0.00006216322,0.9925308,0.00006468908,0.0037669921,0.0015011071],"study_design_scores_gemma":[0.000723576,0.0014935102,0.96348566,0.000055182692,0.000009423932,0.000013842973,0.00003114163,0.009000399,0.024230614,0.00043132552,0.00036329209,0.00016202417],"about_ca_topic_score_codex":0.00006766418,"about_ca_topic_score_gemma":0.000019442057,"teacher_disagreement_score":0.9683002,"about_ca_system_score_codex":0.000037008682,"about_ca_system_score_gemma":0.00002865285,"threshold_uncertainty_score":0.55675155},"labels":[],"label_agreement":null},{"id":"W2016620515","doi":"10.1093/cercor/bhj033","title":"Boundary Cue Invariance in Cortical Orientation Maps","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Orientation (vector space); Boundary (topology); Geometry; Mathematics; Psychology; Mathematical analysis","score_opus":0.04486962079178845,"score_gpt":0.31930897607750197,"score_spread":0.2744393552857135,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2016620515","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9873564,0.000015831285,0.0022545084,0.00084944296,0.0004287101,0.0001509123,0.0000075069943,0.00012084448,0.008815807],"genre_scores_gemma":[0.99257386,0.000010102336,0.0007118591,0.0047473894,0.00015028797,0.000011741992,0.000009071018,0.000014622527,0.0017710977],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99880767,0.000103463106,0.00023590069,0.00036441511,0.00022990334,0.00025867528],"domain_scores_gemma":[0.999636,0.000046198194,0.000053161504,0.00014807425,0.00002011435,0.00009642793],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0001421138,0.00011036227,0.00011454478,0.00007807079,0.00015756232,0.00010507346,0.00015821139,0.00007304384,0.0012015551],"category_scores_gemma":[0.00020458427,0.00010843882,0.000030670024,0.00032435395,0.000089711495,0.00041628713,0.00003889982,0.00024655683,0.001132059],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000118504766,0.00025070205,0.0025684107,0.00002918245,0.0000011894973,0.000028554641,0.0014412474,0.000041193638,0.905583,0.039410017,0.001842648,0.048685297],"study_design_scores_gemma":[0.006178834,0.0009072607,0.35425392,0.00022287866,0.00003076774,0.0003028187,0.00091854006,0.04211248,0.45786157,0.05011103,0.085289314,0.0018105785],"about_ca_topic_score_codex":0.000009779048,"about_ca_topic_score_gemma":0.000052941654,"teacher_disagreement_score":0.44772148,"about_ca_system_score_codex":0.000073887015,"about_ca_system_score_gemma":0.00007389389,"threshold_uncertainty_score":0.99971145},"labels":[],"label_agreement":null},{"id":"W2018241116","doi":"10.1093/cercor/12.5.515","title":"Similar Perisynaptic Glial Localization for the Na+,K+-ATPase alpha2 Subunit and the Glutamate Transporters GLAST and GLT-1 in the Rat Somatosensory Cortex","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":193,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Centre National de la Recherche Scientifique; McGill University","keywords":"Glutamatergic; GABAergic; Biology; Glutamate receptor; Neuroscience; Dendritic spine; Protein subunit; Immunocytochemistry; Cell biology; Biochemistry; Inhibitory postsynaptic potential; Hippocampal formation; Receptor; Endocrinology","score_opus":0.04432203919845343,"score_gpt":0.28166062494871186,"score_spread":0.23733858575025843,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2018241116","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9921945,0.00022030012,0.00013167798,0.0054080263,0.00038273734,0.001506463,0.000031966294,0.000043775533,0.00008057361],"genre_scores_gemma":[0.9904033,0.0009486808,0.0000020588573,0.008054154,0.00007392493,0.00012576455,0.0000011962765,0.000028539473,0.00036237325],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.99748075,0.00060804887,0.00032732653,0.0006041388,0.0004135412,0.00056622305],"domain_scores_gemma":[0.9977185,0.00167866,0.00010171229,0.00036001913,0.00003661269,0.00010446499],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00058709114,0.00024624055,0.00024676925,0.000095087584,0.0010642054,0.00022658172,0.00063466566,0.00007427074,0.00008641588],"category_scores_gemma":[0.00030835532,0.00012844884,0.000084595275,0.0005166026,0.002184579,0.00028692101,0.000081326114,0.00041556035,0.000016116313],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0031979752,0.0005237529,0.012817372,0.00025406494,0.00003947658,0.0009594773,0.015017498,0.00031457093,0.94728607,0.006400318,0.004442414,0.008746983],"study_design_scores_gemma":[0.02246018,0.001683178,0.052557636,0.000073256415,0.00039087303,0.0018078509,0.003611932,0.813463,0.088022225,0.0014088333,0.013272845,0.0012482052],"about_ca_topic_score_codex":0.000015408152,"about_ca_topic_score_gemma":0.00004376916,"teacher_disagreement_score":0.8592639,"about_ca_system_score_codex":0.000015012713,"about_ca_system_score_gemma":0.000030152009,"threshold_uncertainty_score":0.81851155},"labels":[],"label_agreement":null},{"id":"W2020369475","doi":"10.1093/cercor/bhj130","title":"Electrophysiological Markers of Visuocortical Development","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Centre Hospitalier Universitaire Sainte-Justine","funders":"","keywords":"Electrophysiology; Synaptogenesis; Neuroscience; Electroencephalography; Biology; Stimulation; Audiology; Brain development; Psychology; Medicine","score_opus":0.015311670042323764,"score_gpt":0.23099008862675238,"score_spread":0.21567841858442863,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2020369475","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9940739,0.0000044855533,0.00028044663,0.00007078728,0.00014304809,0.0001161633,0.0000019981037,0.000054061453,0.0052550896],"genre_scores_gemma":[0.9986393,0.0000020459643,0.0002765702,0.00025629526,0.00005388241,0.000007127404,0.0000067452615,0.0000088504175,0.0007491695],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9989951,0.000044667242,0.0002427912,0.00028445543,0.00018899763,0.00024393432],"domain_scores_gemma":[0.99967784,0.000070242,0.00006979008,0.00011712418,0.000020992506,0.00004402118],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00004344985,0.000104064566,0.00013818943,0.00004049015,0.00007525644,0.000014292313,0.00012619625,0.00005002283,0.00020896042],"category_scores_gemma":[0.000063465384,0.00008056503,0.000058935904,0.00018243863,0.00009796565,0.00005702106,0.0000500409,0.00010485017,0.00005870609],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001154378,0.000080561374,0.0007816966,0.0000067567903,0.0000014733396,0.000007679681,0.000002081266,0.000011022561,0.9826557,0.012429535,0.00034295232,0.0035651056],"study_design_scores_gemma":[0.00035255772,0.000515599,0.5357791,0.000008806395,0.000006774772,0.000018853922,0.000004375554,0.0030547304,0.45289764,0.004686292,0.0024535533,0.00022171604],"about_ca_topic_score_codex":0.0000112302205,"about_ca_topic_score_gemma":0.00000437185,"teacher_disagreement_score":0.5349974,"about_ca_system_score_codex":0.000031728014,"about_ca_system_score_gemma":0.000034063723,"threshold_uncertainty_score":0.32853463},"labels":[],"label_agreement":null},{"id":"W2026047976","doi":"10.1093/cercor/bhu315","title":"Temporal Cortex Morphology in Mesial Temporal Lobe Epilepsy Patients and Their Asymptomatic Siblings","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Epilepsy research and treatment","field":"Medicine","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Science Foundation Ireland","keywords":"Temporal lobe; Temporal cortex; Hippocampal sclerosis; Asymptomatic; Entorhinal cortex; Cortex (anatomy); Parahippocampal gyrus; Hippocampal formation; Hippocampus; Neuroscience; Epilepsy; Pathology; Psychology; Medicine","score_opus":0.026930615338599948,"score_gpt":0.2865011365649673,"score_spread":0.2595705212263673,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2026047976","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9955711,0.000316875,0.000022746952,0.00070428743,0.00020893231,0.0009200041,0.00003341513,0.00008546302,0.0021371888],"genre_scores_gemma":[0.9978598,0.000025269379,0.0004582471,0.0004986601,0.0001237644,0.000056752204,0.00037131752,0.000043155065,0.0005630684],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9977578,0.00014019379,0.00050839334,0.00053515367,0.00041033627,0.00064814417],"domain_scores_gemma":[0.9985016,0.00007960332,0.0001353153,0.00037118085,0.00018779194,0.0007245395],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003432426,0.00033257343,0.000657842,0.00032961514,0.00006409199,0.00004056481,0.00014383176,0.00018861076,0.00018225294],"category_scores_gemma":[0.00020660537,0.00024238626,0.00010266089,0.00037685284,0.0002349298,0.00018616233,0.00014476808,0.0003637089,0.00016208539],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005684303,0.00062208547,0.9911029,0.000054489406,0.00007460977,0.0002457175,0.00045878268,3.867179e-7,0.0002071874,0.00007223157,0.0030012014,0.0035920118],"study_design_scores_gemma":[0.0101126665,0.0027749569,0.98367304,0.00008979571,0.00004000962,0.00011973205,0.0004347236,0.00070304866,0.00020834635,0.00104825,0.0005502919,0.0002451657],"about_ca_topic_score_codex":0.00067297113,"about_ca_topic_score_gemma":0.00025875308,"teacher_disagreement_score":0.009544237,"about_ca_system_score_codex":0.00020828695,"about_ca_system_score_gemma":0.00032432078,"threshold_uncertainty_score":0.9884225},"labels":[],"label_agreement":null},{"id":"W2030026410","doi":"10.1093/cercor/bhu240","title":"Voice Recognition in Face-Blind Patients","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Vancouver General Hospital; University of British Columbia","funders":"Canadian Institutes of Health Research","keywords":"Psychology; Fusiform face area; Perception; Face perception; Facial recognition system; Audiology; Cognitive psychology; Neuroscience; Medicine; Pattern recognition (psychology)","score_opus":0.05452586599058829,"score_gpt":0.2763072734630564,"score_spread":0.2217814074724681,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2030026410","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98235977,0.0000013679916,0.00013365719,0.0001390125,0.00037587175,0.00022981793,0.000021727838,0.00007172134,0.016667042],"genre_scores_gemma":[0.99775016,0.000013188436,0.000058652986,0.0014505439,0.000066753346,0.000016540773,0.00006824055,0.0000134835755,0.0005624117],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9989185,0.00016097313,0.00019394832,0.00032024342,0.00018734863,0.00021898703],"domain_scores_gemma":[0.9996177,0.00008022692,0.00006262633,0.00012475297,0.0000362715,0.0000784438],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00011035678,0.00010810878,0.000106936226,0.00012392353,0.00007065054,0.000042928823,0.00010128634,0.000082285536,0.0009871827],"category_scores_gemma":[0.0003722664,0.000106500556,0.000041345724,0.0002453901,0.00004181727,0.00026519765,0.000026390493,0.00016494356,0.00471793],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003647345,0.00071768474,0.06337672,0.000066958855,0.0000029607045,0.0000042046076,0.0012403256,0.000016182083,0.10592055,0.00024928883,0.0026515052,0.8253889],"study_design_scores_gemma":[0.0065978784,0.00044883793,0.9361121,0.0001032516,0.000013041291,0.000009085602,0.00018405914,0.005307856,0.033407804,0.004621965,0.012529824,0.00066431024],"about_ca_topic_score_codex":0.000030387748,"about_ca_topic_score_gemma":0.00009907642,"teacher_disagreement_score":0.8727354,"about_ca_system_score_codex":0.000039010836,"about_ca_system_score_gemma":0.000010839862,"threshold_uncertainty_score":0.99992603},"labels":[],"label_agreement":null},{"id":"W2030900065","doi":"10.1093/cercor/bhs119","title":"The Early Spatio-Temporal Correlates and Task Independence of Cerebral Voice Processing Studied with MEG","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":87,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University; International Laboratory for Brain, Music and Sound Research","funders":"Economic and Social Research Council; Medical Research Council","keywords":"Magnetoencephalography; Stimulus (psychology); Psychology; Functional magnetic resonance imaging; Audiology; Brain activity and meditation; Neuroscience; Cognitive psychology; Electroencephalography; Medicine","score_opus":0.029609632917488936,"score_gpt":0.26519070183379495,"score_spread":0.235581068916306,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2030900065","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975316,0.00021125756,0.0002141113,0.00015622209,0.00016453037,0.00026564085,0.000012017612,0.000054071206,0.001390575],"genre_scores_gemma":[0.9990706,0.00004334296,0.000083203166,0.00015742106,0.0000646253,0.000014794248,0.0000052705705,0.000017446422,0.000543341],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9987232,0.00011087409,0.00022294141,0.0002548368,0.00035929278,0.0003288269],"domain_scores_gemma":[0.9993154,0.00013488867,0.00019562258,0.00014961336,0.00008752357,0.0001169416],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022316005,0.00015477903,0.00015470458,0.0000459174,0.00038037472,0.00008849417,0.00014547807,0.000076075135,0.000087310575],"category_scores_gemma":[0.00011124076,0.00009962817,0.00002991034,0.00022584322,0.000333798,0.00061215454,0.00006522713,0.00024487535,0.000082546016],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003387405,0.00012958092,0.9321871,0.00007691523,0.000013587684,0.0000030224978,0.0045526,0.000003345475,0.01850362,0.00053813774,0.00026342573,0.04338994],"study_design_scores_gemma":[0.00092566333,0.00039208328,0.98657095,0.00010370426,0.000045849076,0.00007924058,0.0010969193,0.0013375868,0.007880795,0.0002623096,0.0009896156,0.00031529786],"about_ca_topic_score_codex":0.00007410467,"about_ca_topic_score_gemma":0.00017847054,"teacher_disagreement_score":0.05438385,"about_ca_system_score_codex":0.000020660564,"about_ca_system_score_gemma":0.000047562702,"threshold_uncertainty_score":0.40627187},"labels":[],"label_agreement":null},{"id":"W2031366563","doi":"10.1093/cercor/bhu193","title":"Frequency Selectivity of Voxel-by-Voxel Functional Connectivity in Human Auditory Cortex","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University; International Laboratory for Brain, Music and Sound Research; Centre for Research on Brain Language and Music; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Voxel; Auditory cortex; Human brain; Neuroscience; Visual cortex; Functional magnetic resonance imaging; Lateralization of brain function; Cortex (anatomy); Psychology; Computer science; Artificial intelligence","score_opus":0.01770838372763255,"score_gpt":0.23874359597235034,"score_spread":0.22103521224471778,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2031366563","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99087167,0.000009740197,0.0014144552,0.00014542748,0.0013094976,0.00027113382,0.000043861364,0.00010099562,0.0058332486],"genre_scores_gemma":[0.99837375,0.000003570023,0.000019563215,0.00042773312,0.0002564645,0.000021918773,0.00002485215,0.000029843955,0.00084228977],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99768513,0.00032740113,0.00040599142,0.0007418083,0.0004254022,0.00041424428],"domain_scores_gemma":[0.99877757,0.00039461412,0.00026724781,0.00036078735,0.0000817526,0.00011805002],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00037388803,0.00025462196,0.00036717433,0.00016705353,0.00022091428,0.00003613069,0.00024089357,0.0001497461,0.0003140002],"category_scores_gemma":[0.00053037045,0.0002515682,0.0001259719,0.00048914575,0.00023263319,0.00036732177,0.00008250721,0.00043742603,0.000042108546],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000028055352,0.00024285822,0.05318051,0.000026712783,0.000004634676,0.0000033824977,0.000020547068,0.00002440437,0.93227947,0.010919163,0.0020189018,0.0012513896],"study_design_scores_gemma":[0.0011035595,0.00041080458,0.9041175,0.000026460337,0.000013946965,0.000021005211,0.00001014338,0.0057481527,0.07396635,0.013588211,0.0006030324,0.00039079363],"about_ca_topic_score_codex":0.0003001651,"about_ca_topic_score_gemma":0.0003670164,"teacher_disagreement_score":0.8583131,"about_ca_system_score_codex":0.00014242793,"about_ca_system_score_gemma":0.000068660076,"threshold_uncertainty_score":0.9999937},"labels":[],"label_agreement":null},{"id":"W2036685730","doi":"10.1093/cercor/bhl038","title":"Cytochrome Oxidase and Neurofilament Reactivity in Monocularly Deprived Human Primary Visual Cortex","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Dalhousie University","funders":"National Eye Institute; Natural Sciences and Engineering Research Council of Canada","keywords":"Ocular dominance; Ocular dominance column; Visual cortex; Enucleation; Neurofilament; Monocular deprivation; Cytochrome c oxidase; Dominance (genetics); Ophthalmology; Neuroscience; Chemistry; Biology; Pathology; Immunohistochemistry; Medicine; Biochemistry","score_opus":0.028108237752938584,"score_gpt":0.29273707883680794,"score_spread":0.26462884108386936,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2036685730","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99613404,0.000024818006,0.00038844201,0.00009642799,0.00010876877,0.00033625474,0.000007596222,0.0001577549,0.002745872],"genre_scores_gemma":[0.9978724,0.000011417538,0.00012484666,0.0011884557,0.000079843,0.000023927241,0.000020910828,0.00003508909,0.0006430777],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.997971,0.00018822406,0.00034309388,0.0007466932,0.00034278387,0.00040822977],"domain_scores_gemma":[0.9994096,0.000056386,0.00013733846,0.00023650462,0.000025769003,0.00013440143],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001765444,0.00025775982,0.00028729736,0.00016836479,0.00025489274,0.00018309073,0.00018364964,0.00011793092,0.00016420805],"category_scores_gemma":[0.000049079128,0.00025784908,0.00006165762,0.00029228337,0.00015276839,0.00044658937,0.00014049519,0.0003228015,0.00007312724],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000042706033,0.00025547924,0.0032065255,0.000026456475,9.624728e-7,0.00008211249,0.00008732119,0.000001992405,0.99188334,0.0007653765,0.000049902497,0.0035978127],"study_design_scores_gemma":[0.0011300058,0.00030521565,0.85921854,0.00003245165,0.000010219947,0.00006000297,0.000030514182,0.0009472854,0.13531056,0.002376327,0.00023083076,0.00034806557],"about_ca_topic_score_codex":0.0002105239,"about_ca_topic_score_gemma":0.00008714536,"teacher_disagreement_score":0.8565728,"about_ca_system_score_codex":0.00010589088,"about_ca_system_score_gemma":0.00005089489,"threshold_uncertainty_score":0.99998736},"labels":[],"label_agreement":null},{"id":"W2046286339","doi":"10.1093/cercor/bhv062","title":"Cognitive Correlates of Basal Forebrain Atrophy and Associated Cortical Hypometabolism in Mild Cognitive Impairment","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Dementia and Cognitive Impairment Research","field":"Medicine","cited_by":129,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Aging; National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; University of California, San Diego; Genentech; National Institutes of Health; Universität Rostock; Servier; Eisai; Northern California Institute for Research and Education; DoD Alzheimer's Disease Neuroimaging Initiative; Pfizer; Biogen; BioClinica; IXICO; Takeda Pharmaceutical Company; Medpace; F. Hoffmann-La Roche; Synarc; Roche; University of Southern California; Novartis Pharmaceuticals Corporation; U.S. Department of Defense; Eli Lilly and Company; Bristol-Myers Squibb; Alzheimer's Drug Discovery Foundation; Merck; Alzheimer's Association; Foundation for the National Institutes of Health; GE Healthcare; Alzheimer's Disease Neuroimaging Initiative; Meso Scale Diagnostics","keywords":"Basal forebrain; Neuroscience; Atrophy; Cognition; Psychology; Basal (medicine); Cognitive impairment; Basal ganglia; Medicine; Central nervous system; Pathology; Internal medicine","score_opus":0.028063398688502023,"score_gpt":0.3100271893896632,"score_spread":0.2819637907011612,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2046286339","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99329644,0.0006136404,0.0000875118,0.0002236687,0.00012160751,0.0012595444,0.00011114395,0.0000395482,0.004246875],"genre_scores_gemma":[0.998343,0.00005979346,0.00006455559,0.0004562256,0.00006447957,0.00007026936,0.00022197387,0.000036039863,0.0006836676],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99732625,0.00027321393,0.00054714025,0.0004729248,0.0007425109,0.0006379453],"domain_scores_gemma":[0.9980728,0.00041155456,0.00015502374,0.00012074583,0.000698633,0.00054126483],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0007330149,0.00028492443,0.00066817773,0.00036126174,0.000060552917,0.000029962777,0.000080751845,0.00017860773,0.00039238285],"category_scores_gemma":[0.0013136048,0.00024936444,0.0001342518,0.00058092613,0.00047427023,0.00016406916,0.00016837136,0.00053160475,0.000068888454],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0022843906,0.0011005616,0.99116206,0.000060542443,0.00028177857,0.00015589377,0.0008257172,1.3635078e-7,0.0003918032,0.00019285639,0.00040709766,0.0031371673],"study_design_scores_gemma":[0.015976476,0.0031043252,0.9730834,0.0004775535,0.0003419171,0.000031179054,0.0035289067,0.00068649306,0.0015094065,0.0010035544,0.0000141213695,0.00024269838],"about_ca_topic_score_codex":0.00011838965,"about_ca_topic_score_gemma":0.000051436517,"teacher_disagreement_score":0.018078685,"about_ca_system_score_codex":0.00010924035,"about_ca_system_score_gemma":0.00033307628,"threshold_uncertainty_score":0.9999959},"labels":[],"label_agreement":null},{"id":"W2046566443","doi":"10.1093/cercor/bhu321","title":"Prefrontal Cortical Inactivations Decrease Willingness to Expend Cognitive Effort on a Rodent Cost/Benefit Decision-Making Task","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Canadian Institutes of Health Research","keywords":"Impulsivity; Psychology; Prefrontal cortex; Cognition; Task (project management); Cognitive resource theory; Cognitive psychology; Temporal discounting; Iowa gambling task; Neuroscience; Developmental psychology","score_opus":0.12813102693872427,"score_gpt":0.3918520323825961,"score_spread":0.2637210054438718,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2046566443","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949495,0.000015831469,0.0005037883,0.0003198598,0.0009354522,0.0008581562,0.0000781383,0.00012927745,0.0022099928],"genre_scores_gemma":[0.9955781,0.0000029023518,0.00015067669,0.0036106177,0.00013209894,0.00016723847,0.000008696022,0.00003113116,0.00031855702],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9976414,0.000066485634,0.00035999212,0.00087293633,0.00054038834,0.0005188031],"domain_scores_gemma":[0.99841654,0.00047257042,0.00010678329,0.00029524797,0.00014362184,0.00056525075],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00011581522,0.00030732836,0.0003249759,0.000117169824,0.00038819516,0.000081469945,0.00030847176,0.00009758353,0.00013323032],"category_scores_gemma":[0.0013924064,0.00024890865,0.000099329794,0.00037567204,0.00020423895,0.00027060488,0.0002461925,0.00034895155,0.0005408977],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.022683395,0.0077639474,0.36071062,0.0000406294,0.00012760567,0.0027363293,0.0065368414,0.00028823942,0.29422528,0.0066402005,0.017718507,0.2805284],"study_design_scores_gemma":[0.0038421224,0.002979213,0.91606474,0.0005287135,0.00015902924,0.00027154558,0.0020459136,0.0002818054,0.06555547,0.004971268,0.0020385531,0.0012616254],"about_ca_topic_score_codex":0.000032728825,"about_ca_topic_score_gemma":0.00010163728,"teacher_disagreement_score":0.5553541,"about_ca_system_score_codex":0.00015760369,"about_ca_system_score_gemma":0.00006335125,"threshold_uncertainty_score":0.9999963},"labels":[],"label_agreement":null},{"id":"W2063101137","doi":"10.1093/cercor/bhv068","title":"Context Memory Decline in Middle Aged Adults is Related to Changes in Prefrontal Cortex Function","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Douglas Mental Health University Institute; McGill University; Baycrest Hospital; McGill University Health Centre","funders":"Canadian Institutes of Health Research","keywords":"Context (archaeology); Episodic memory; Prefrontal cortex; Psychology; Brain activity and meditation; Functional magnetic resonance imaging; Temporal cortex; Neuroscience; Context-dependent memory; Encoding (memory); Temporal lobe; Cognitive psychology; Cognition; Electroencephalography; Biology; Free recall","score_opus":0.08983764650921033,"score_gpt":0.2889537175729175,"score_spread":0.19911607106370716,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2063101137","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99417895,0.000054554195,0.00001363325,0.00086151133,0.0014197232,0.00086012867,0.000024266774,0.00012217085,0.0024650728],"genre_scores_gemma":[0.9894242,0.000010340756,0.000030166419,0.006540822,0.00006715005,0.00006645885,0.000011412136,0.000035378653,0.0038140328],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974479,0.00027780083,0.0004614822,0.0008080639,0.00048568545,0.00051907194],"domain_scores_gemma":[0.9989967,0.00010080441,0.00013397021,0.00038264538,0.000058118418,0.00032776664],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00045062686,0.0002770107,0.00036090723,0.00028329543,0.000072242256,0.00003950613,0.00034457332,0.00018456827,0.00056653254],"category_scores_gemma":[0.0005881919,0.00026349805,0.000057773115,0.0007005989,0.000057160258,0.0003100967,0.00019586846,0.00041275387,0.0006157576],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.002660684,0.00030580847,0.004688605,0.00004448331,0.000004757714,0.00022126472,0.005125751,0.00001710947,0.9703146,0.0002797008,0.0011971163,0.0151400855],"study_design_scores_gemma":[0.0067878524,0.002197652,0.17825922,0.00028294598,0.000016160277,0.000081566104,0.0021944696,0.0018124218,0.80468345,0.0023805492,0.00062398077,0.0006797129],"about_ca_topic_score_codex":0.00022410137,"about_ca_topic_score_gemma":0.0084496485,"teacher_disagreement_score":0.17357062,"about_ca_system_score_codex":0.00017008651,"about_ca_system_score_gemma":0.00007923411,"threshold_uncertainty_score":0.9999817},"labels":[],"label_agreement":null},{"id":"W2077963750","doi":"10.1093/cercor/bhu302","title":"Planning Ahead: Object-Directed Sequential Actions Decoded from Human Frontoparietal and Occipitotemporal Networks","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":79,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Queen's University","funders":"Canadian Institutes of Health Research","keywords":"Object (grammar); Action (physics); Psychology; Task (project management); Neuroscience; Movement (music); Neural decoding; Brain activity and meditation; Computer science; Posterior parietal cortex; Communication; Artificial intelligence; Cognitive psychology; Decoding methods; Electroencephalography","score_opus":0.08441846397973853,"score_gpt":0.3067471181142914,"score_spread":0.22232865413455288,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2077963750","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9931994,0.000067757835,0.0015890737,0.000109247325,0.001911237,0.00019940402,0.000038705686,0.00036957228,0.0025156185],"genre_scores_gemma":[0.99794614,0.000003327005,0.00018919469,0.00038368607,0.0005443595,0.000011239984,0.000119364784,0.000030210203,0.00077247893],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9983941,0.0001383503,0.0002789729,0.00057951675,0.00024967815,0.00035939988],"domain_scores_gemma":[0.999217,0.00008630948,0.00013889596,0.00023993803,0.000043083193,0.00027481376],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010103281,0.00022033759,0.00023696518,0.00007408958,0.0003847206,0.00020901172,0.00016384841,0.00013921758,0.00009578478],"category_scores_gemma":[0.00011420547,0.00021057682,0.000067997586,0.0001954036,0.00012478967,0.00039562833,0.00012721404,0.00034568715,0.000025039904],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009593628,0.00037610714,0.12088944,0.000024679608,0.000106021296,0.00038833244,0.002236315,0.003353529,0.82483345,0.0042152493,0.034635235,0.007982283],"study_design_scores_gemma":[0.0060035307,0.001120388,0.33083934,0.000108058965,0.00019395733,0.00022675954,0.00076764514,0.617896,0.021832958,0.011752745,0.0074065737,0.0018520539],"about_ca_topic_score_codex":0.00065047096,"about_ca_topic_score_gemma":0.00034027908,"teacher_disagreement_score":0.8030005,"about_ca_system_score_codex":0.000075994285,"about_ca_system_score_gemma":0.000051833274,"threshold_uncertainty_score":0.8587073},"labels":[],"label_agreement":null},{"id":"W2078042008","doi":"10.1093/cercor/bhv059","title":"The Attentional Fields of Visual Search in Simultanagnosia and Healthy Individuals: How Object and Space Attention Interact","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; Université de Montréal","funders":"Agence Nationale de la Recherche","keywords":"Visual search; Object (grammar); Cognitive psychology; Perception; Gaze; Visual field; Psychology; Task (project management); Eye movement; Computer science; Computer vision; Artificial intelligence; Neuroscience","score_opus":0.07251372805065172,"score_gpt":0.35927559309231377,"score_spread":0.28676186504166207,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2078042008","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961247,0.00010387727,0.00031679927,0.0029253806,0.0001666437,0.0001594447,0.0000053014774,0.00001810776,0.00017974092],"genre_scores_gemma":[0.99902844,0.000067170105,0.000054676828,0.00042508077,0.000036459624,0.0000057896696,0.0000031099796,0.0000082521865,0.00037100143],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99886537,0.00021176961,0.00016366101,0.00026469646,0.00029873283,0.00019579958],"domain_scores_gemma":[0.99947774,0.00019651103,0.0000763581,0.00008382261,0.000054817905,0.00011072256],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00048495052,0.0000961985,0.00012417434,0.00009002219,0.00014185041,0.00013979354,0.00010424755,0.00006624462,0.00001763716],"category_scores_gemma":[0.00034398536,0.00007244444,0.000023459152,0.00020649182,0.00014630005,0.00022861728,0.000102198224,0.00020669546,0.000006924603],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014413731,0.0010752013,0.50203365,0.0006375839,0.000037447167,0.00004147127,0.012525522,0.00007833014,0.2777231,0.025803443,0.0034478952,0.17515498],"study_design_scores_gemma":[0.0050669885,0.0036820946,0.9076224,0.00035043032,0.000028130777,0.000120758436,0.01027776,0.04829707,0.014963995,0.007366534,0.001585175,0.0006386639],"about_ca_topic_score_codex":0.00004371785,"about_ca_topic_score_gemma":0.00010196037,"teacher_disagreement_score":0.40558875,"about_ca_system_score_codex":0.000023548488,"about_ca_system_score_gemma":0.000060503487,"threshold_uncertainty_score":0.29541987},"labels":[],"label_agreement":null},{"id":"W2081570266","doi":"10.1093/cercor/bhu145","title":"The Impact of Density and Ratio on Object-Ensemble Representation in Human Anterior-Medial Ventral Visual Cortex","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"The Scarborough Hospital; University of Toronto","funders":"National Eye Institute","keywords":"Object (grammar); Representation (politics); Artificial intelligence; Cognitive neuroscience of visual object recognition; Pattern recognition (psychology); Psychology; Visual cortex; Computer vision; Mathematics; Neuroscience; Computer science","score_opus":0.03448712127367194,"score_gpt":0.3536938148052875,"score_spread":0.31920669353161557,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2081570266","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985751,0.0000047596445,0.00028060432,0.0000407611,0.00019706321,0.00017079512,0.0000024080646,0.000030482179,0.0006980308],"genre_scores_gemma":[0.99957466,0.000012396247,0.000008851232,0.00014844791,0.000089633475,0.000004697111,0.0000049424175,0.000011793039,0.00014457823],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99874365,0.00023216679,0.00026292825,0.0003105645,0.00022072514,0.0002299654],"domain_scores_gemma":[0.99944586,0.00013575512,0.00014407525,0.00016508301,0.0000311071,0.00007814715],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024996971,0.00012762244,0.00018649784,0.000070978786,0.00026412,0.00009820203,0.00012060947,0.0000627174,0.000059316248],"category_scores_gemma":[0.00027231724,0.00009218716,0.00006660312,0.00017537204,0.00014989647,0.00014521032,0.000042489894,0.00016239758,0.000016539116],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016019127,0.00006105181,0.008851831,0.000007368721,0.0000018197383,0.0000028945444,0.00040451714,0.000010145936,0.9847012,0.000807317,0.000066725624,0.0049249223],"study_design_scores_gemma":[0.00094505376,0.0012011841,0.71873116,0.000043161577,0.0000061015257,0.000018473926,0.000112201385,0.009827054,0.2667554,0.0021992633,0.000007706042,0.00015325748],"about_ca_topic_score_codex":0.00010570188,"about_ca_topic_score_gemma":0.00011676087,"teacher_disagreement_score":0.7179458,"about_ca_system_score_codex":0.000039970993,"about_ca_system_score_gemma":0.000037469632,"threshold_uncertainty_score":0.37592834},"labels":[],"label_agreement":null},{"id":"W2084978759","doi":"10.1093/cercor/13.3.225","title":"The Spatial Pattern of Response Magnitude and Selectivity for Orientation and Direction in Cat Visual Cortex","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":80,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Orientation (vector space); Visual cortex; Magnitude (astronomy); Gravitational singularity; Geometry; Preference; Physics; Rotation (mathematics); Orientation column; Mathematics; Optics; Striate cortex; Mathematical analysis; Psychology; Neuroscience; Statistics; Astrophysics","score_opus":0.026304386735084638,"score_gpt":0.3185100010904458,"score_spread":0.2922056143553612,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2084978759","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99485826,0.000011628828,0.0045077046,0.00007926107,0.00019897682,0.0002612622,0.0000059020726,0.000019174213,0.000057809983],"genre_scores_gemma":[0.9995286,0.000022168844,0.00005355119,0.0001432806,0.000016301437,0.000021887025,0.0000015491273,0.000009536587,0.00020315885],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9990598,0.00027110826,0.00015369765,0.00025744256,0.000116189985,0.00014178916],"domain_scores_gemma":[0.99948466,0.00029086246,0.00008174561,0.00006329948,0.00003847054,0.000040966883],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004286879,0.00008429319,0.000098236225,0.00005494416,0.00020583635,0.00005391554,0.00003707719,0.000047106027,0.000015694986],"category_scores_gemma":[0.0005242948,0.00006764599,0.000016884904,0.00014641912,0.00008800009,0.00012174336,0.000014563819,0.000063499036,0.0000015021236],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000638204,0.00006567527,0.012273769,0.000030203779,0.0000013848808,7.7672365e-7,0.0008051038,9.532704e-7,0.92295814,0.00027401245,0.00001661117,0.06293515],"study_design_scores_gemma":[0.0014039787,0.0008228279,0.79042494,0.00002197118,0.000012036884,0.00002805843,0.0003625719,0.007711243,0.19723989,0.0014382807,0.00036594324,0.00016827455],"about_ca_topic_score_codex":0.00009704779,"about_ca_topic_score_gemma":0.0004839123,"teacher_disagreement_score":0.77815115,"about_ca_system_score_codex":0.000024967283,"about_ca_system_score_gemma":0.00003974577,"threshold_uncertainty_score":0.27585232},"labels":[],"label_agreement":null},{"id":"W2085101121","doi":"10.1093/cercor/bht026","title":"Modified Areal Cartography in Auditory Cortex Following Early- and Late-Onset Deafness","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Tactile and Sensory Interactions","field":"Neuroscience","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Cytoarchitecture; Auditory cortex; Somatosensory system; CATS; Sensory system; Neuroscience; Sensory deprivation; Cortex (anatomy); Audiology; Psychology; Auditory system; Secondary somatosensory cortex; Visual cortex; Medicine","score_opus":0.02229983611374631,"score_gpt":0.2543412937111039,"score_spread":0.23204145759735761,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2085101121","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9932038,0.00001012417,0.000014956366,0.000112275244,0.0012757946,0.00032512378,0.000016975044,0.00011152369,0.004929411],"genre_scores_gemma":[0.99832904,0.00001187781,0.00001674187,0.00046547907,0.00010148813,0.000053111988,0.0000051715388,0.000025659749,0.000991455],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984841,0.00010674203,0.00027992565,0.0005007869,0.00021261118,0.00041586978],"domain_scores_gemma":[0.99920046,0.00022678339,0.000084778556,0.00028985026,0.000028158813,0.00016997514],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000033377077,0.00020422977,0.00024277074,0.00023694627,0.00019654456,0.00015332406,0.00018023481,0.00010892422,0.00018978633],"category_scores_gemma":[0.00009955817,0.000195754,0.00012709372,0.0003312817,0.000102715676,0.0006575211,0.000063524865,0.00034818816,0.00021035685],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000099783865,0.00027192946,0.33674356,0.000036065972,0.000040618448,0.00028345358,0.0020934944,0.000058076348,0.65142804,0.0005410707,0.002930142,0.005473751],"study_design_scores_gemma":[0.0006004466,0.000078571844,0.9899973,0.00002961101,0.000016299815,0.000034073102,0.00018804849,0.0014811994,0.005962186,0.000701423,0.00062136917,0.0002894248],"about_ca_topic_score_codex":0.0012088938,"about_ca_topic_score_gemma":0.00026081427,"teacher_disagreement_score":0.6532538,"about_ca_system_score_codex":0.00003394376,"about_ca_system_score_gemma":0.000030001745,"threshold_uncertainty_score":0.79826164},"labels":[],"label_agreement":null},{"id":"W2085170324","doi":"10.1093/cercor/bhm082","title":"Consequences of Variations in Genes that affect Dopamine in Prefrontal Cortex","year":2007,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Attention Deficit Hyperactivity Disorder","field":"Medicine","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"BC Children's Hospital; University of British Columbia","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute on Drug Abuse; National Institute of Mental Health","keywords":"Prefrontal cortex; Dopamine; Psychology; Affect (linguistics); Catechol-O-methyl transferase; Attention deficit hyperactivity disorder; Working memory; Cognition; Neuroscience; Dorsolateral prefrontal cortex; Developmental psychology; Clinical psychology; Psychiatry; Genotype","score_opus":0.11649309574585097,"score_gpt":0.39174786502557657,"score_spread":0.2752547692797256,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2085170324","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.036267415,0.9583858,0.00009983276,0.000038452683,0.00029565443,0.0019084049,0.000085210624,0.00004391314,0.0028752661],"genre_scores_gemma":[0.13454074,0.86346287,0.00022802966,0.00003703279,0.00008071904,0.000096241514,0.00044558322,0.00006689224,0.0010418762],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9973632,0.00022887754,0.0009869381,0.0005783345,0.00042911497,0.00041350318],"domain_scores_gemma":[0.99835867,0.00039020117,0.0005839092,0.00048076396,0.000076900105,0.00010956999],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00042667313,0.00046507383,0.0022999577,0.00084318675,0.000030722993,0.000018239982,0.00019677442,0.00046607372,0.0006333407],"category_scores_gemma":[0.0001777796,0.00039839986,0.0004400593,0.0008337203,0.00022502436,0.0001782446,0.00008414436,0.0006748733,0.00007954969],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009965317,0.0012413583,0.07986785,0.018863056,0.00037276372,0.00054845127,0.0001630481,0.0000016888704,0.00043655778,0.0008429742,0.00007632018,0.89748627],"study_design_scores_gemma":[0.005954166,0.000904053,0.6399357,0.04237581,0.0030487096,0.00191737,0.0011605583,0.0000856658,0.00004954574,0.00013184111,0.30246627,0.001970329],"about_ca_topic_score_codex":0.00057967205,"about_ca_topic_score_gemma":0.0015191834,"teacher_disagreement_score":0.895516,"about_ca_system_score_codex":0.00029179998,"about_ca_system_score_gemma":0.00064788543,"threshold_uncertainty_score":0.9998468},"labels":[],"label_agreement":null},{"id":"W2086090496","doi":"10.1093/cercor/bhm257","title":"Digit Somatotopy within Cortical Areas of the Postcentral Gyrus in Humans","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":155,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Postcentral gyrus; Numerical digit; Neuroscience; Somatosensory system; Functional magnetic resonance imaging; Anatomy; Gyrus; Neuroimaging; Cortex (anatomy); Cytoarchitecture; Psychology; Biology","score_opus":0.03965730922736084,"score_gpt":0.25715803510827523,"score_spread":0.2175007258809144,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2086090496","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949261,0.000021647355,0.000024887573,0.00027524747,0.0003403644,0.0003172974,0.000014972992,0.00004951738,0.0040299874],"genre_scores_gemma":[0.9991921,0.0000079672745,0.000036725494,0.00037526255,0.000030565978,0.000008229641,5.610704e-7,0.000013919704,0.00033465461],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998558,0.00009881682,0.00039754933,0.00029667537,0.00036747343,0.00028148576],"domain_scores_gemma":[0.9993259,0.00020029704,0.00009382406,0.00028583466,0.0000319036,0.00006229737],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00004134123,0.00014155888,0.00021976192,0.0000468899,0.00018076731,0.000012689111,0.00028727733,0.00005189571,0.00015587549],"category_scores_gemma":[0.00040283834,0.00010263815,0.000095074654,0.00034094023,0.0005396759,0.000098104734,0.00007364172,0.00019717452,0.00003479914],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000099506346,0.00019179373,0.8683506,0.000014867376,0.0000045875618,0.00003876868,0.0019351746,0.00011317863,0.11983708,0.0091542965,0.00012818929,0.00013195614],"study_design_scores_gemma":[0.0009302113,0.000075230855,0.9807707,0.000021075613,0.00000818924,0.00003042276,0.000054099262,0.0003311264,0.01691219,0.00067844527,0.000071514274,0.00011679323],"about_ca_topic_score_codex":0.000058778944,"about_ca_topic_score_gemma":0.00006956465,"teacher_disagreement_score":0.112420104,"about_ca_system_score_codex":0.00002677556,"about_ca_system_score_gemma":0.00006487294,"threshold_uncertainty_score":0.41854623},"labels":[],"label_agreement":null},{"id":"W2087328731","doi":"10.1093/cercor/bhh165","title":"A Three-dimensional MRI Atlas of the Mouse Brain with Estimates of the Average and Variability","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Medical Image Segmentation Techniques","field":"Computer Science","cited_by":333,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; University of Toronto; Montreal Neurological Institute and Hospital; Hospital for Sick Children","funders":"","keywords":"Atlas (anatomy); Neuroscience; Brain mapping; Cartography; Biology; Geography; Anatomy","score_opus":0.008078449961300738,"score_gpt":0.23155051971348883,"score_spread":0.22347206975218809,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2087328731","genre_codex":"methods","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":null,"domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.40277514,0.000010861308,0.5949588,0.0017908058,0.000040845698,0.00027745106,0.0000052015894,0.000044774482,0.00009614699],"genre_scores_gemma":[0.892574,4.9460283e-7,0.10687355,0.00049972656,0.0000063970515,0.0000062607915,8.1036956e-7,0.000004704529,0.000034070494],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99906826,0.000056950725,0.0001993869,0.00021296483,0.00034886255,0.00011358593],"domain_scores_gemma":[0.99904436,0.00013934652,0.00014531844,0.00054536096,0.00007862941,0.000046959456],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002805956,0.00009032907,0.00013157574,0.000017650864,0.000071595445,0.000020476919,0.0005455773,0.000035836823,0.000028213019],"category_scores_gemma":[0.00015558267,0.000044765846,0.000041900315,0.0002211725,0.0004878551,0.00015764106,0.00035588743,0.00011805311,9.1568495e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018499365,0.0015721105,0.26936188,0.0006909635,0.0002946671,0.000022779197,0.0053322706,0.0022287935,0.43771735,0.22452544,0.008967289,0.049101457],"study_design_scores_gemma":[0.0010261573,0.00022969232,0.27977416,0.00013890042,0.000017086077,0.000039099912,0.000011015871,0.014490064,0.62377656,0.080302395,0.00001540312,0.00017946395],"about_ca_topic_score_codex":0.00016452327,"about_ca_topic_score_gemma":0.00006308885,"teacher_disagreement_score":0.48979884,"about_ca_system_score_codex":0.000023758874,"about_ca_system_score_gemma":0.00012412951,"threshold_uncertainty_score":0.18254982},"labels":[],"label_agreement":null},{"id":"W2093657864","doi":"10.1093/cercor/bhk040","title":"Decision-Making in Blackjack: An Electrophysiological Analysis","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":157,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria","funders":"","keywords":"Negativity effect; Psychology; Event-related potential; Error-related negativity; Cognitive psychology; Task (project management); Contingent negative variation; Electroencephalography; Cognition; Social psychology; Neuroscience; Anterior cingulate cortex; Economics","score_opus":0.05934894975942166,"score_gpt":0.36357301228308714,"score_spread":0.30422406252366546,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2093657864","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99797606,0.000024069448,0.00007729611,0.00009472071,0.0001364396,0.00010411273,0.000005579466,0.00008822763,0.0014934994],"genre_scores_gemma":[0.99881816,0.0000067139863,0.00016960921,0.0007012326,0.00008353865,0.000009206512,0.0000041194967,0.000008698997,0.00019873519],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998351,0.00011021136,0.0002805894,0.0006692139,0.00018192486,0.00040705677],"domain_scores_gemma":[0.9994661,0.000135536,0.000070991104,0.00026401118,0.000019309582,0.000044041597],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006383606,0.00017064043,0.0003042215,0.00021097611,0.00014119563,0.000037320413,0.00028741002,0.000082281804,0.0003081578],"category_scores_gemma":[0.000059601432,0.00012493152,0.00013879353,0.0012635755,0.00017257199,0.0001716386,0.00007994077,0.00022379567,0.000093769806],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021628263,0.0004895909,0.15518032,0.0000016952197,0.000009602758,0.00025008176,0.00002525978,0.00017017765,0.83159184,0.000993681,0.00060279976,0.010468649],"study_design_scores_gemma":[0.00023484355,0.00029591867,0.9769754,0.0000050769772,0.000054251213,0.000009683044,0.000015053473,0.0004338957,0.009515466,0.012161239,0.000087593784,0.00021160427],"about_ca_topic_score_codex":0.00005593791,"about_ca_topic_score_gemma":0.00042320494,"teacher_disagreement_score":0.8220764,"about_ca_system_score_codex":0.00003100421,"about_ca_system_score_gemma":0.000007483696,"threshold_uncertainty_score":0.509456},"labels":[],"label_agreement":null},{"id":"W2095677861","doi":"10.1093/cercor/bht061","title":"Delineating Prefrontal Cortex Region Contributions to Crossmodal Object Recognition in Rats","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Guelph","funders":"","keywords":"Crossmodal; Neuroscience; Prefrontal cortex; Psychology; Object (grammar); Orbitofrontal cortex; Cognition; Computer science; Visual perception; Perception; Artificial intelligence","score_opus":0.02911363820707932,"score_gpt":0.27505764226563,"score_spread":0.24594400405855069,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2095677861","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994421,0.0000071266654,0.0013730478,0.0008614041,0.0006416542,0.0009355937,0.00006777635,0.00013008679,0.0015623136],"genre_scores_gemma":[0.99675226,0.000006326346,0.00014966574,0.0018351079,0.00017734947,0.00013304428,0.00006731223,0.000024094825,0.0008548546],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998209,0.00012313302,0.00039572595,0.00057860883,0.00022624891,0.00046726022],"domain_scores_gemma":[0.9992014,0.0001365824,0.00011810561,0.00022520185,0.00014921035,0.00016946786],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011106445,0.00019669683,0.00020617146,0.00015324887,0.00025273257,0.00017872204,0.00016966468,0.0001074805,0.00019689166],"category_scores_gemma":[0.0007547881,0.00018637879,0.00008062796,0.00047552594,0.00006277835,0.0005405176,0.00008942684,0.00027798204,0.0006376331],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000079360965,0.000102322905,0.0033718322,0.0000107367605,0.00000270274,0.00002836558,0.00011296753,0.00005879327,0.9695528,0.0004660255,0.0014341305,0.024779929],"study_design_scores_gemma":[0.0025841992,0.0010515834,0.7784203,0.00020340682,0.000026802138,0.00026179026,0.00025925378,0.09291097,0.110956885,0.011256252,0.00092906744,0.0011394629],"about_ca_topic_score_codex":0.00050659344,"about_ca_topic_score_gemma":0.0003294709,"teacher_disagreement_score":0.85859597,"about_ca_system_score_codex":0.00019927074,"about_ca_system_score_gemma":0.000057850062,"threshold_uncertainty_score":0.8195696},"labels":[],"label_agreement":null},{"id":"W2095887679","doi":"10.1093/cercor/bhi039","title":"Attention to Simultaneous Unrelated Auditory and Visual Events: Behavioral and Neural Correlates","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":231,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Sensory system; Stimulus modality; Stimulus (psychology); Sensory gating; Functional magnetic resonance imaging; Psychology; Modality (human–computer interaction); Neuroscience; Cognition; Cognitive psychology; Gating","score_opus":0.022584205430235166,"score_gpt":0.34291174073921277,"score_spread":0.3203275353089776,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2095887679","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972093,0.00007529767,0.00018674982,0.00034064252,0.0010662539,0.00028840793,0.000011710583,0.00011300886,0.0007086033],"genre_scores_gemma":[0.98898613,0.000008588975,0.000097440796,0.0005074318,0.0002917069,0.0000147236515,0.0000549003,0.00002230079,0.010016764],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9989487,0.00009113148,0.0002539816,0.00036070152,0.00011728125,0.00022822624],"domain_scores_gemma":[0.99954146,0.000044613967,0.00006573304,0.000110923094,0.00006244661,0.00017481779],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000065055065,0.00016885115,0.0001538021,0.00010506385,0.00012244459,0.000034356228,0.000048025962,0.00017160524,0.0030729885],"category_scores_gemma":[0.000024778883,0.0001601431,0.00004073679,0.000087274486,0.00006159841,0.00016378029,0.00003181938,0.00021557254,0.0007558047],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00089994515,0.0010320715,0.22290143,0.00002268581,0.00010965941,0.00006846879,0.0074535226,0.00017836037,0.07463578,0.0007545663,0.0234063,0.6685372],"study_design_scores_gemma":[0.001273779,0.0006486279,0.9614047,0.000023009732,0.000058282512,0.000111129535,0.0010710056,0.03110031,0.000025129355,0.00001833329,0.0039616814,0.0003040574],"about_ca_topic_score_codex":0.000084672916,"about_ca_topic_score_gemma":0.0001401154,"teacher_disagreement_score":0.7385032,"about_ca_system_score_codex":0.00004976756,"about_ca_system_score_gemma":0.000006206836,"threshold_uncertainty_score":0.9978383},"labels":[],"label_agreement":null},{"id":"W2095921288","doi":"10.1093/cercor/bhs176","title":"Neurog2 Simultaneously Activates and Represses Alternative Gene Expression Programs in the Developing Neocortex","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurogenesis and neuroplasticity mechanisms","field":"Neuroscience","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Health Sciences Centre; Alberta Children's Hospital; Montreal Clinical Research Institute; University of Calgary","funders":"Canadian Institutes of Health Research","keywords":"Repressor; Biology; Activator (genetics); Cell biology; Gene; Progenitor; Gene expression; Progenitor cell; Molecular biology; Genetics; Stem cell","score_opus":0.07920122375042438,"score_gpt":0.2801094267236127,"score_spread":0.20090820297318834,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2095921288","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99816686,0.000060839287,0.0003427792,0.00015301559,0.00039192298,0.000568967,0.000004691895,0.00008636383,0.00022455606],"genre_scores_gemma":[0.9977769,0.0001026069,0.00033216158,0.0014687483,0.00016616652,0.000060225757,0.0000020161276,0.000038000133,0.00005316398],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977873,0.0003861787,0.0002823393,0.00058977975,0.00037699388,0.00057739986],"domain_scores_gemma":[0.99858767,0.00078184885,0.00015015957,0.0003303623,0.000026547945,0.0001234129],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001765456,0.0002659814,0.00021651565,0.0000857212,0.000247393,0.00014659824,0.00040611668,0.00006097066,0.000019334197],"category_scores_gemma":[0.0005397671,0.00018230619,0.000048203918,0.0003338999,0.00011213207,0.00043128926,0.00023177093,0.0002738591,0.000022875636],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000049661627,0.00013571967,0.0059354138,0.000017167595,0.0000018770072,0.00013415769,0.0008317997,0.000012830423,0.9881784,0.001529819,0.00001884053,0.0031543241],"study_design_scores_gemma":[0.0003112157,0.00013819427,0.015474213,0.000037866583,0.00000921594,0.00036051005,0.00013231741,0.00038539377,0.98189235,0.00025543323,0.0007727189,0.000230591],"about_ca_topic_score_codex":0.000018865772,"about_ca_topic_score_gemma":0.000005705119,"teacher_disagreement_score":0.0095387995,"about_ca_system_score_codex":0.000019058334,"about_ca_system_score_gemma":0.00002434656,"threshold_uncertainty_score":0.74342304},"labels":[],"label_agreement":null},{"id":"W2095921366","doi":"10.1093/cercor/bhl018","title":"Changes in Auditory Cortex Parallel Rapid Perceptual Learning","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":151,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"","keywords":"Perceptual learning; Perception; Psychology; Auditory cortex; Neuroplasticity; Sensory system; Stimulus (psychology); Neuroscience; Superior temporal gyrus; Cognitive psychology; Functional magnetic resonance imaging","score_opus":0.028570877998887894,"score_gpt":0.2570351654040211,"score_spread":0.22846428740513322,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2095921366","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98628247,0.000011716042,0.00006457536,0.00037027465,0.0011378987,0.00023605837,0.0000047920416,0.00019417095,0.011698073],"genre_scores_gemma":[0.9913825,0.000066359265,0.000042866566,0.0017005329,0.0006915496,0.00003089688,0.000009570907,0.00002712245,0.006048631],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977941,0.0001779928,0.00025892167,0.0007499254,0.00041796576,0.00060108973],"domain_scores_gemma":[0.9994354,0.00008251057,0.00010942562,0.00025402973,0.00002129392,0.0000973349],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017312545,0.00022350297,0.00022154496,0.00021545628,0.0002642872,0.00008683558,0.00032969992,0.00010609462,0.00107544],"category_scores_gemma":[0.00014433854,0.0002161427,0.0000727989,0.0004656076,0.00029159125,0.00035932186,0.00010291935,0.00041901067,0.00050443667],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024173123,0.00008746412,0.0032620977,0.000007636269,3.3641848e-7,0.000055223885,0.00028497586,0.00008944075,0.9870368,0.00048827985,0.003372707,0.005290848],"study_design_scores_gemma":[0.0008522542,0.00032253933,0.9601938,0.000027906022,0.000007102357,0.00006234571,0.00039342023,0.0018989997,0.0070297034,0.00037722904,0.028381912,0.000452771],"about_ca_topic_score_codex":0.00015490866,"about_ca_topic_score_gemma":0.0005500754,"teacher_disagreement_score":0.9800071,"about_ca_system_score_codex":0.00008494013,"about_ca_system_score_gemma":0.00005761028,"threshold_uncertainty_score":0.9998377},"labels":[],"label_agreement":null},{"id":"W2095972693","doi":"10.1093/cercor/bhr205","title":"Is the Link between Anatomical Structure and Function Equally Strong at All Cognitive Levels of Processing?","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":84,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; Queen's University; Baycrest Hospital","funders":"Ontario Ministry of Research and Innovation; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Canadian Institutes of Health Research; Ontario Innovation Trust","keywords":"Functional magnetic resonance imaging; Cognition; Perception; Functional imaging; Sensory processing; Sensory system; Psychology; Artificial intelligence; Pattern recognition (psychology); Computer science; Neuroscience","score_opus":0.08156620894568924,"score_gpt":0.3022731571921171,"score_spread":0.2207069482464279,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2095972693","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99851036,0.000097603086,0.000054211512,0.0002867749,0.00009948,0.00018601661,0.00017529349,0.000032315227,0.0005579447],"genre_scores_gemma":[0.9977701,0.0000031109869,0.000030236048,0.0017967884,0.00018270136,0.0000017929054,0.0000075112416,0.00001302903,0.00019473849],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989606,0.00011012348,0.00020341304,0.0003745906,0.00012893333,0.00022232161],"domain_scores_gemma":[0.9994321,0.0001592322,0.00015443227,0.00014291676,0.000049778933,0.00006153133],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000083204824,0.00014106678,0.00017674899,0.000038139875,0.00013633979,0.000016454615,0.00017885843,0.00012182771,0.00034485842],"category_scores_gemma":[0.00011950269,0.00008982593,0.00004710559,0.000095390234,0.00042164218,0.00011006997,0.00013780623,0.00023539443,0.0000083752975],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00043821151,0.000039457038,0.07020891,0.00010290228,0.000072216266,0.00010447483,0.012232374,1.2701192e-7,0.75836086,0.00060029794,0.00022086663,0.15761933],"study_design_scores_gemma":[0.0007547951,0.00045591895,0.32394862,0.00003675601,0.00014892762,0.00012137371,0.0003152755,0.000053517026,0.67077804,0.002861468,0.00028474527,0.0002405846],"about_ca_topic_score_codex":0.000014575179,"about_ca_topic_score_gemma":0.000014755352,"teacher_disagreement_score":0.2537397,"about_ca_system_score_codex":0.00000922411,"about_ca_system_score_gemma":0.000035419962,"threshold_uncertainty_score":0.37759578},"labels":[],"label_agreement":null},{"id":"W2095984111","doi":"10.1093/cercor/bhr361","title":"Axonal Fiber Terminations Concentrate on Gyri","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":143,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Education and Early Childhood Development","funders":"National Institute of Biomedical Imaging and Bioengineering; National Heart, Lung, and Blood Institute; National Institute on Aging","keywords":"Macaque; Neuroscience; Cerebral cortex; Cortex (anatomy); Diffusion MRI; Biology; Anatomy; Magnetic resonance imaging; Medicine","score_opus":0.13788488699399906,"score_gpt":0.3467944257352,"score_spread":0.2089095387412009,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2095984111","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.5428694,0.000038126233,0.0036749952,0.0024654896,0.00013832144,0.0009656038,0.00005287193,0.0008055521,0.44898966],"genre_scores_gemma":[0.9821212,0.000008863174,0.008631586,0.0015413587,0.00006846937,0.00004863989,0.000028247043,0.000018616487,0.0075329673],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.99941385,0.0000076107476,0.00012380951,0.00020383623,0.00009539632,0.00015549012],"domain_scores_gemma":[0.99952406,0.000016649205,0.00004386267,0.00027223217,0.00004805877,0.00009512169],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000022821463,0.00009132681,0.00010475106,0.00003809523,0.000070444825,0.000005921338,0.000071911425,0.000033979995,0.0014463098],"category_scores_gemma":[0.000015386626,0.00007915273,0.000052529598,0.000098428885,0.00007570638,0.000049720424,0.000021954233,0.00014595548,0.00033419457],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006206634,0.0029863769,0.091373906,0.00015365252,0.00014710227,0.00045517282,0.0010576538,0.000003877702,0.035140246,0.4651716,0.13682228,0.26606748],"study_design_scores_gemma":[0.0014067969,0.0007059561,0.7419257,0.00012131271,0.00010816413,0.00022852197,0.00004667719,0.00054115633,0.03454574,0.0153085925,0.20465569,0.00040567812],"about_ca_topic_score_codex":0.0000057624898,"about_ca_topic_score_gemma":6.3287575e-7,"teacher_disagreement_score":0.6505518,"about_ca_system_score_codex":0.000025917541,"about_ca_system_score_gemma":0.000029440813,"threshold_uncertainty_score":0.9994665},"labels":[],"label_agreement":null},{"id":"W2096070762","doi":"10.1093/cercor/bhp009","title":"Selective Depletion of Molecularly Defined Cortical Interneurons in Human Holoprosencephaly with Severe Striatal Hypoplasia","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurogenesis and neuroplasticity mechanisms","field":"Neuroscience","cited_by":105,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institutes of Health; National Institute of Neurological Disorders and Stroke; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Autism Speaks; State Key Laboratory of Automotive Simulation and Control; Canadian Institutes of Health Research","keywords":"Ganglionic eminence; Interneuron; Neuroscience; Biology; Forebrain; Calretinin; GABAergic; Population; Cerebral cortex; Glutamatergic; Inhibitory postsynaptic potential; Central nervous system; Glutamate receptor","score_opus":0.019113257869431684,"score_gpt":0.2487164125055955,"score_spread":0.22960315463616382,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2096070762","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974433,0.0000038132403,0.0011983557,0.00005823586,0.000093367584,0.0003885495,0.000021383725,0.00008147146,0.0007115202],"genre_scores_gemma":[0.99928683,0.0000036680829,0.00014366195,0.0004452448,0.000022157043,0.00001055053,0.000005108033,0.000029706844,0.00005305193],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978054,0.00023644132,0.00040773192,0.00070146535,0.0004248712,0.00042407578],"domain_scores_gemma":[0.9992052,0.00014600683,0.00017707604,0.0002875604,0.00005454592,0.00012964699],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007981695,0.00026183718,0.00034097437,0.00018616811,0.000109691304,0.00004622976,0.0002996064,0.00008378925,0.000034171175],"category_scores_gemma":[0.00028898375,0.00023196361,0.0000828602,0.00060021196,0.00012269133,0.00020867916,0.00006026973,0.00038350944,0.000016011778],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029064209,0.00027438524,0.004632521,0.000008254174,0.000003072522,0.00017753778,0.00007044581,0.000034049986,0.98725045,0.0070523624,0.00001403484,0.0001922252],"study_design_scores_gemma":[0.0011205747,0.0022530525,0.17794041,0.000032080246,0.000016418888,0.00021241161,0.000019178016,0.00032053387,0.81747353,0.00039081526,0.000004439421,0.0002165732],"about_ca_topic_score_codex":0.000017024826,"about_ca_topic_score_gemma":0.00004252475,"teacher_disagreement_score":0.1733079,"about_ca_system_score_codex":0.000040227722,"about_ca_system_score_gemma":0.00006637689,"threshold_uncertainty_score":0.9459201},"labels":[],"label_agreement":null},{"id":"W2096556064","doi":"10.1093/cercor/bhs055","title":"The Modulation of BOLD Variability between Cognitive States Varies by Age and Processing Speed","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":284,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Cognition; Functional magnetic resonance imaging; Brain activity and meditation; Psychology; Fixation (population genetics); Neuroscience; Effects of sleep deprivation on cognitive performance; Human brain; Elementary cognitive task; Audiology; Brain mapping; Cognitive psychology; Electroencephalography; Medicine","score_opus":0.035694485299522474,"score_gpt":0.27558005193661345,"score_spread":0.23988556663709099,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2096556064","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99717015,0.00012946564,0.000796888,0.0005496303,0.00011262233,0.00022551698,0.00007719988,0.000037922404,0.00090058625],"genre_scores_gemma":[0.99948174,0.0000105062345,0.000030038753,0.00021058565,0.00008254095,0.0000064087394,0.000009077257,0.00000961179,0.00015948062],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9989709,0.00016742246,0.00017661793,0.00024344174,0.0002120398,0.00022957259],"domain_scores_gemma":[0.9941602,0.005496234,0.00012354126,0.000102244354,0.00006581073,0.000051991003],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004388304,0.00011078975,0.00015656314,0.000020481239,0.00041147126,0.000054055025,0.00007334708,0.000037068326,0.0000092427545],"category_scores_gemma":[0.004541442,0.00008044953,0.000024888475,0.00015501562,0.0004959932,0.00039128863,0.00010009661,0.000107497115,0.0000031061695],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018248889,0.00019838373,0.8442405,0.00014913798,0.00005571985,0.000001320064,0.003486838,0.00000824077,0.11263877,0.004103987,0.0016724571,0.033262186],"study_design_scores_gemma":[0.00026807413,0.00007916151,0.959736,0.000018795512,0.000032763222,0.000002089717,0.00032849485,0.00078019244,0.02952865,0.00854062,0.00055003754,0.00013511446],"about_ca_topic_score_codex":0.00003129462,"about_ca_topic_score_gemma":0.000006132415,"teacher_disagreement_score":0.11549554,"about_ca_system_score_codex":0.000024016006,"about_ca_system_score_gemma":0.000020152484,"threshold_uncertainty_score":0.5436858},"labels":[],"label_agreement":null},{"id":"W2096648477","doi":"10.1093/cercor/bhq242","title":"Mother and Stranger: An Electrophysiological Study of Voice Processing in Newborns","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Language Development and Disorders","field":"Psychology","cited_by":131,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; International Laboratory for Brain, Music and Sound Research; Université de Montréal; Centre Hospitalier Universitaire Sainte-Justine","funders":"","keywords":"Psychology; Cognition; Electrophysiology; Neuroscience; Audiology; Developmental psychology; Medicine","score_opus":0.014623684568000058,"score_gpt":0.3001161722917876,"score_spread":0.28549248772378755,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2096648477","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952484,0.00006822453,0.000007095745,0.00002824597,0.0000795252,0.00021743447,0.0000010328592,0.000027052769,0.004323037],"genre_scores_gemma":[0.9994465,7.5022547e-7,0.00014098219,0.00007506439,0.00003726551,0.000012812114,0.0000050527656,0.000011218969,0.00027031614],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9992981,0.000047126498,0.000152345,0.00024337284,0.00007059598,0.00018848342],"domain_scores_gemma":[0.9997363,0.000011295562,0.000048486378,0.00014280071,0.000015970914,0.00004513452],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007300683,0.00009519792,0.00014312284,0.000057778456,0.000028829401,0.000013313491,0.000107331274,0.000081710234,0.0008032831],"category_scores_gemma":[0.000009022226,0.00007425264,0.000012639284,0.00012634545,0.000049865655,0.00007865659,0.00001900975,0.00019167393,0.000010785109],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00051975914,0.0026997272,0.73916334,0.000027359067,0.000034859197,0.00005040222,0.03168616,0.0000010506749,0.06380812,0.0010269891,0.0001809089,0.1608013],"study_design_scores_gemma":[0.0010510416,0.00043644308,0.99235547,0.0000024062174,0.0000069912126,0.000002947778,0.005592838,0.000033553715,0.000037923226,0.00030213574,0.00007251543,0.000105763545],"about_ca_topic_score_codex":0.0002463389,"about_ca_topic_score_gemma":0.0024329792,"teacher_disagreement_score":0.2531921,"about_ca_system_score_codex":0.0000034611385,"about_ca_system_score_gemma":0.000017746732,"threshold_uncertainty_score":0.8795387},"labels":[],"label_agreement":null},{"id":"W2096821089","doi":"10.1093/cercor/bhs050","title":"Development of Simultaneous Pitch Encoding: Infants Show a High Voice Superiority Effect","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":86,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Canadian Institutes of Health Research","keywords":"Mismatch negativity; Semitone; Psychology; Perception; Melody; Active listening; Audiology; Echoic memory; Electroencephalography; Context (archaeology); Speech recognition; Auditory perception; Cognitive psychology; Cognition; Communication; Computer science; Musical; Neuroscience","score_opus":0.03171017972931793,"score_gpt":0.28302806898222327,"score_spread":0.2513178892529053,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2096821089","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99721396,0.0000066166863,0.00012921196,0.000019640753,0.0011099332,0.00028691252,0.000008508545,0.00009028787,0.0011349338],"genre_scores_gemma":[0.9987111,0.000006386772,0.0003829026,0.00041492292,0.00014025372,0.000015045204,0.0000028404538,0.00001660463,0.00030995862],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981377,0.00011076503,0.00030725962,0.0004165831,0.0004686715,0.0005589785],"domain_scores_gemma":[0.9991083,0.00025176845,0.00010770688,0.00029746705,0.00003187223,0.00020287624],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002951421,0.00020286,0.00025882843,0.00009468424,0.0002371235,0.000037858765,0.0003309271,0.00008108204,0.00016435317],"category_scores_gemma":[0.0005599085,0.00017236572,0.00006465693,0.00036932185,0.00016312339,0.0004966848,0.00015335607,0.00018250996,0.00023928462],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000037266378,0.000094639945,0.007184221,0.000028855242,0.0000013078429,0.000007861463,0.0013055708,0.0000027271847,0.98016244,0.0001138547,0.000039021448,0.011022216],"study_design_scores_gemma":[0.00046873727,0.00017753051,0.13567345,0.000029486584,0.000014738544,0.000052707343,0.00006736173,0.00033847825,0.858944,0.000019654335,0.003920528,0.00029334213],"about_ca_topic_score_codex":0.000025452,"about_ca_topic_score_gemma":0.000012824332,"teacher_disagreement_score":0.12848923,"about_ca_system_score_codex":0.00006851944,"about_ca_system_score_gemma":0.00008545923,"threshold_uncertainty_score":0.702887},"labels":[],"label_agreement":null},{"id":"W2096866918","doi":"10.1093/cercor/bhq136","title":"Human Auditory Cortex Activity Shows Additive Effects of Spectral and Spatial Cues during Speech Segregation","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":45,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital","funders":"Canadian Institutes of Health Research","keywords":"Magnetoencephalography; Vowel; Auditory cortex; Perception; Auditory scene analysis; Speech recognition; Psychology; Object (grammar); Auditory perception; Computer science; Electroencephalography; Neuroscience; Artificial intelligence","score_opus":0.012728500577042003,"score_gpt":0.2587030990254265,"score_spread":0.24597459844838448,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2096866918","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967849,9.2181835e-7,0.00003389944,0.000027212394,0.001644511,0.0003583037,0.000024834,0.00008509098,0.001040275],"genre_scores_gemma":[0.99879575,0.000006583223,0.000028702452,0.00010111165,0.00051035057,0.000012476869,0.0000030029898,0.000017674323,0.0005243368],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985056,0.000086981374,0.00017629916,0.00057433126,0.00034603645,0.00031074174],"domain_scores_gemma":[0.9993106,0.0000923213,0.00017569518,0.00026391365,0.000034854707,0.00012258318],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008512867,0.00018763062,0.0002125841,0.000116180374,0.00030325737,0.000056016026,0.000183694,0.00010203381,0.00020910145],"category_scores_gemma":[0.00024154471,0.00018006215,0.000066664965,0.00016508253,0.0004623391,0.0005442367,0.00010069788,0.00038891012,0.000020141044],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000025301442,0.000078525496,0.0011107823,0.00004113158,0.0000013987484,0.000025806925,0.00018277427,1.9399188e-7,0.98997414,0.00019030756,0.000079736594,0.0082899155],"study_design_scores_gemma":[0.0002804349,0.00012333327,0.49497762,0.000013669352,0.000008205145,0.000026910016,0.00000880202,0.00010468623,0.50411916,0.00021067263,0.000022626722,0.000103871156],"about_ca_topic_score_codex":0.00018940141,"about_ca_topic_score_gemma":0.0006635519,"teacher_disagreement_score":0.49386683,"about_ca_system_score_codex":0.000030269122,"about_ca_system_score_gemma":0.000042352138,"threshold_uncertainty_score":0.7342721},"labels":[],"label_agreement":null},{"id":"W2096870817","doi":"10.1093/cercor/bhu028","title":"Anterior Cingulate Cortex Cells Identify Process-Specific Errors of Attentional Control Prior to Transient Prefrontal-Cingulate Inhibition","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":65,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; York University","funders":"","keywords":"Anterior cingulate cortex; Prefrontal cortex; Neuroscience; Distraction; Psychology; Attentional control; Disengagement theory; Task (project management); Cognitive psychology; Cognition; Medicine","score_opus":0.014336267647845227,"score_gpt":0.25127738200128863,"score_spread":0.2369411143534434,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2096870817","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9902558,0.00001384306,0.006465508,0.00028272386,0.0013572159,0.0009032257,0.000106620864,0.00011413886,0.0005009299],"genre_scores_gemma":[0.99820656,0.000008635181,0.00008885695,0.0007654687,0.00014684339,0.000032745655,0.000022464563,0.00004884557,0.0006795682],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99716073,0.00014055942,0.0007260132,0.00087232713,0.0006180302,0.0004823209],"domain_scores_gemma":[0.998837,0.00008034548,0.00035487904,0.0003560872,0.0001559431,0.00021576934],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00026776074,0.00031582318,0.00043734274,0.00022517692,0.00023229646,0.00009669663,0.00024269443,0.000114492286,0.00026536218],"category_scores_gemma":[0.00007166077,0.00029455192,0.00023057772,0.00039662566,0.00014805856,0.0003406568,0.00005339398,0.000219176,0.00013881881],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028942327,0.0001309897,0.0006727936,0.000087031185,0.000008752065,0.000010445531,0.00020916077,0.00037373818,0.9950296,0.00038451637,0.00015208666,0.0026514488],"study_design_scores_gemma":[0.003402715,0.0009981248,0.5987104,0.00034609428,0.000057505884,0.00007444362,0.00007367089,0.016764762,0.37655434,0.0013158588,0.0009995161,0.0007025305],"about_ca_topic_score_codex":0.000017009133,"about_ca_topic_score_gemma":0.000032668413,"teacher_disagreement_score":0.61847526,"about_ca_system_score_codex":0.000075405194,"about_ca_system_score_gemma":0.00003744154,"threshold_uncertainty_score":0.99995065},"labels":[],"label_agreement":null},{"id":"W2096921639","doi":"10.1093/cercor/bhq094","title":"Functional MRI Evidence of an Abnormal Neural Network for Pitch Processing in Congenital Amusia","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":231,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University; International Laboratory for Brain, Music and Sound Research; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Auditory cortex; Psychology; Neuroscience; Functional magnetic resonance imaging; White matter; Audiology; Melody; Premotor cortex; Frontal lobe; Magnetic resonance imaging; Anatomy; Medicine; Musical","score_opus":0.053696564461581615,"score_gpt":0.3035977773655029,"score_spread":0.2499012129039213,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2096921639","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974658,0.0000074125956,0.00053950906,0.0001432936,0.0012736087,0.00034972656,0.000009129161,0.000050042487,0.00016148396],"genre_scores_gemma":[0.9979648,0.0000025787301,0.00033438203,0.0010118119,0.00046909772,0.000054082662,0.000004596121,0.000015306407,0.00014334974],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984278,0.000047666566,0.00029622682,0.00051400496,0.00030091623,0.00041335882],"domain_scores_gemma":[0.999376,0.0000936907,0.00013040318,0.0002222608,0.000069161986,0.00010850738],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025405976,0.00014352183,0.00016257576,0.00008517026,0.000193135,0.000078602,0.00029952943,0.00007851348,0.00016123027],"category_scores_gemma":[0.00024559928,0.00013376746,0.00006348907,0.00041133768,0.0002754929,0.0014240546,0.00006128023,0.00028057574,0.000010321357],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001746249,0.00007228097,0.0043514827,0.00002528612,2.803722e-7,0.0000064297496,0.00012669797,0.00023074979,0.9856261,0.0006431571,0.0003016134,0.008441312],"study_design_scores_gemma":[0.00086731446,0.0006129574,0.8760682,0.000055625213,0.000015207102,0.00014817166,0.00006439119,0.08642348,0.033939444,0.0010694049,0.0003870163,0.00034883167],"about_ca_topic_score_codex":0.000034747896,"about_ca_topic_score_gemma":0.00032209748,"teacher_disagreement_score":0.9516866,"about_ca_system_score_codex":0.000016066133,"about_ca_system_score_gemma":0.00012949029,"threshold_uncertainty_score":0.5454879},"labels":[],"label_agreement":null},{"id":"W2097179561","doi":"10.1093/cercor/11.10.924","title":"Neural Activity Profiles of the Neocortex and Superior Colliculus after Bimodal Sensory Stimulation","year":2001,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Neocortex; Stimulation; Neuroscience; Sensory system; Stimulus (psychology); Visual cortex; Inferior colliculus; Sensory stimulation therapy; Superior colliculus; Auditory cortex; Photic Stimulation; Biology; Visual perception; Psychology; Perception; Nucleus","score_opus":0.03141600963046961,"score_gpt":0.3058269693981616,"score_spread":0.27441095976769203,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2097179561","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9958183,0.000030956406,0.00006812327,0.0003399977,0.0005115144,0.00048648272,0.000030025005,0.000042905467,0.0026716914],"genre_scores_gemma":[0.9926984,0.0000052746764,0.000043573018,0.00023920204,0.00012336326,0.00003973053,0.0000075505313,0.00001643861,0.006826477],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9989825,0.0001859557,0.00021459596,0.00027392738,0.00015408182,0.00018897282],"domain_scores_gemma":[0.9994314,0.000036411733,0.00009917254,0.00029194402,0.000078286364,0.00006282953],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00007045622,0.00014869886,0.00017209732,0.000059075846,0.00009554366,0.000025730922,0.00008077348,0.00012787177,0.0043805847],"category_scores_gemma":[0.000023974999,0.00010493664,0.00008784169,0.00014755756,0.00017025281,0.00015911112,0.000035159777,0.00017185508,0.000072695235],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007883148,0.00018476287,0.8256281,0.000020366993,0.000034764464,0.000010572949,0.00213275,0.00002769898,0.13567697,0.00045231648,0.00079312135,0.034250267],"study_design_scores_gemma":[0.0006098678,0.000083648,0.9895922,0.0000100933175,0.000022272508,0.000047837962,0.00035574855,0.007675596,0.0007285522,0.000026796832,0.00072535506,0.00012204436],"about_ca_topic_score_codex":0.0002281785,"about_ca_topic_score_gemma":0.00018257982,"teacher_disagreement_score":0.1639641,"about_ca_system_score_codex":0.00003067896,"about_ca_system_score_gemma":0.000018439885,"threshold_uncertainty_score":0.9965295},"labels":[],"label_agreement":null},{"id":"W2097224904","doi":"10.1093/cercor/bht173","title":"Convergence of Cortical and Sensory Driver Inputs on Single Thalamocortical Cells","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Photoreceptor and optogenetics research","field":"Neuroscience","cited_by":237,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"Wellcome Trust","keywords":"Sensory system; Convergence (economics); Neuroscience; Computer science; Psychology; Economics","score_opus":0.042867910713859675,"score_gpt":0.2773134097163286,"score_spread":0.23444549900246894,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2097224904","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947132,0.000010529264,0.000046157445,0.00009392776,0.0002385317,0.00032275033,0.000014864174,0.000030099052,0.0045299465],"genre_scores_gemma":[0.998744,0.000037165515,0.0001056694,0.00041451154,0.00004183537,0.000012614442,0.0000010091435,0.00001767366,0.00062549755],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99834716,0.00013128541,0.00024954719,0.0004252969,0.0004522927,0.0003944382],"domain_scores_gemma":[0.998991,0.00031986236,0.00005181572,0.00027852168,0.00007491563,0.0002838992],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00006707969,0.00014823736,0.00019969327,0.00007422528,0.00008313699,0.00004349558,0.00022504127,0.00009191381,0.0017862917],"category_scores_gemma":[0.0002538582,0.00012588438,0.00005524412,0.00016145261,0.0005897373,0.00010791929,0.00015579973,0.00025361142,0.0005473042],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000028238477,0.0001403589,0.009972041,0.000016766917,0.0000029171022,0.0000089728255,0.00007887766,0.0000018402278,0.9877653,0.00077485654,0.000353509,0.00085632835],"study_design_scores_gemma":[0.00026704525,0.0003795688,0.096372604,0.000012418411,0.000004945212,0.000008448077,0.000013204109,0.001466965,0.9008017,0.0003815985,0.00015858494,0.0001328842],"about_ca_topic_score_codex":0.000017697083,"about_ca_topic_score_gemma":0.0000020896057,"teacher_disagreement_score":0.08696356,"about_ca_system_score_codex":0.00002555344,"about_ca_system_score_gemma":0.00003669717,"threshold_uncertainty_score":0.9991262},"labels":[],"label_agreement":null},{"id":"W2097460835","doi":"10.1093/cercor/bht050","title":"A Long-Range Fronto-Parietal 5- to 10-Hz Network Predicts \"Top-Down\" Controlled Guidance in a Task-Switch Paradigm","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":114,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University; Robarts Clinical Trials; Western University","funders":"Canadian Institutes of Health Research","keywords":"Prefrontal cortex; Neuroscience; Stimulus (psychology); Posterior parietal cortex; Psychology; Parietal lobe; Cognition; Electroencephalography; Task (project management); Brain activity and meditation; Cognitive psychology","score_opus":0.014088174173816321,"score_gpt":0.23260161301355867,"score_spread":0.21851343883974234,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2097460835","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98791957,0.00016919358,0.0008372293,0.001968074,0.0013424889,0.0022716885,0.00003066026,0.00018845093,0.005272623],"genre_scores_gemma":[0.9879082,0.000012492474,0.000117693024,0.004191944,0.00044714977,0.0004379799,0.00001639123,0.000044798082,0.006823359],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.996909,0.00019528535,0.0006118561,0.0009156904,0.0004629599,0.00090521225],"domain_scores_gemma":[0.9986131,0.00025430787,0.00019501155,0.00054253003,0.000059516384,0.00033553562],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00024951846,0.0003673093,0.0006003379,0.000121600184,0.00019396815,0.00023564379,0.0004866988,0.00015582121,0.0009837137],"category_scores_gemma":[0.0004793092,0.00030994328,0.0001759263,0.0005750976,0.00009682813,0.0004933134,0.00016526926,0.00032826827,0.0012380566],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.009035986,0.0018951528,0.38418725,0.000282535,0.00017637815,0.0011038214,0.0016348843,0.008211721,0.22146058,0.033946127,0.300669,0.03739653],"study_design_scores_gemma":[0.012512173,0.0012615009,0.79688686,0.00019712547,0.00005900645,0.00010517039,0.000030638537,0.1672732,0.0005801215,0.009119512,0.01072672,0.0012480015],"about_ca_topic_score_codex":0.00033276377,"about_ca_topic_score_gemma":0.00058881403,"teacher_disagreement_score":0.41269958,"about_ca_system_score_codex":0.000120932134,"about_ca_system_score_gemma":0.00007078709,"threshold_uncertainty_score":0.99993527},"labels":[],"label_agreement":null},{"id":"W2097799979","doi":"10.1093/cercor/bht163","title":"Long-Chain Omega-3 Fatty Acids Improve Brain Function and Structure in Older Adults","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Fatty Acid Research and Health","field":"Nursing","cited_by":321,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Innovation Cluster (Canada)","funders":"","keywords":"Fish oil; White matter; Brain Structure and Function; Internal medicine; Neuroimaging; Cognition; Polyunsaturated fatty acid; Placebo; Effects of sleep deprivation on cognitive performance; Medicine; Psychology; Endocrinology; Neuroscience; Magnetic resonance imaging; Pathology; Biology; Fatty acid","score_opus":0.008067150907517627,"score_gpt":0.2544862765126573,"score_spread":0.24641912560513968,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2097799979","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9928748,0.00031804945,0.00022949078,0.004611959,0.00067332556,0.0009884855,0.000023819415,0.000075440665,0.00020463699],"genre_scores_gemma":[0.9973207,0.0000091097445,0.00025942313,0.0017928482,0.00024523571,0.00003385137,0.00006097534,0.000033347696,0.00024446758],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981351,0.00012541132,0.00028888427,0.00048014248,0.00028442903,0.0006860191],"domain_scores_gemma":[0.99915665,0.00008110717,0.000073955816,0.00029103443,0.00008797666,0.00030928],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017048676,0.00021374469,0.0002475034,0.00018909601,0.00017937708,0.00011682626,0.00013743581,0.00022257732,0.0008390728],"category_scores_gemma":[0.000109149325,0.00018431043,0.000046644585,0.00022929057,0.00010922094,0.00042806723,0.00007620798,0.0006072296,0.00012525084],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016097277,0.00019686186,0.54044753,0.00078243884,0.000030922576,0.000018833012,0.0023399394,0.0000044643884,0.070507355,0.0003720635,0.012321075,0.37136877],"study_design_scores_gemma":[0.002793913,0.0005173666,0.9894446,0.000090546535,0.0000052866917,0.00001063914,0.0005080108,0.0018390251,0.0023980266,0.0020594657,0.00011774519,0.00021535756],"about_ca_topic_score_codex":0.0014038186,"about_ca_topic_score_gemma":0.0027264804,"teacher_disagreement_score":0.44899708,"about_ca_system_score_codex":0.00012715,"about_ca_system_score_gemma":0.00004420747,"threshold_uncertainty_score":0.9187259},"labels":[],"label_agreement":null},{"id":"W2098237962","doi":"10.1093/cercor/bhk032","title":"Physiological Evidence That Pyramidal Neurons Lack Functional Water Channels","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Ion Transport and Channel Regulation","field":"Biochemistry, Genetics and Molecular Biology","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"National Institute of Mental Health","keywords":"Neuroscience; Axon; Cerebral peduncle; Electrophysiology; Biophysics; Osmotic concentration; Depolarization; Central nervous system; Neuron; Biology; Anatomy; Chemistry; White matter; Endocrinology; Medicine","score_opus":0.04691740540393959,"score_gpt":0.24777674154689883,"score_spread":0.20085933614295923,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2098237962","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967141,0.00010156124,0.001807196,0.0003361498,0.00049905566,0.0001142252,0.000006638163,0.000032515218,0.0003885424],"genre_scores_gemma":[0.99426156,0.000016359878,0.000024235254,0.0003002265,0.0010724448,0.000015264808,0.00071414316,0.000016070024,0.0035796878],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9990522,0.00002678835,0.00014376115,0.00035063425,0.00015095223,0.000275639],"domain_scores_gemma":[0.9996611,0.0000042351508,0.000045123455,0.00018409453,0.00005373796,0.000051700783],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005828738,0.0001522415,0.00011059177,0.000022914752,0.000103834085,0.000024843235,0.000108400214,0.00014742302,0.0004486737],"category_scores_gemma":[0.0000063516527,0.000109564324,0.00011905113,0.000038913644,0.00009525978,0.0000105281315,0.000041293883,0.000080923215,0.00008636599],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011527416,0.000056430265,0.008547506,0.000011247953,0.00001214669,0.0000048098855,0.000010627939,0.0008150183,0.98496276,0.00019032243,0.0050432193,0.00023066245],"study_design_scores_gemma":[0.00041605372,0.000229937,0.55887306,0.000011278335,0.00001977319,0.000016752609,0.000018714622,0.00038871338,0.43049324,0.000863237,0.008383331,0.000285911],"about_ca_topic_score_codex":0.00001864273,"about_ca_topic_score_gemma":0.000011600836,"teacher_disagreement_score":0.55446947,"about_ca_system_score_codex":0.000008737511,"about_ca_system_score_gemma":0.000017627444,"threshold_uncertainty_score":0.49126622},"labels":[],"label_agreement":null},{"id":"W2098637063","doi":"10.1093/cercor/bhm139","title":"Critical Spatial Frequencies for Illusory Contour Processing in Early Visual Cortex","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Spatial frequency; Orientation (vector space); Spatial filter; Visual cortex; Invariant (physics); Grating; Filter (signal processing); Physics; Artificial intelligence; Illusion; Optics; Neuroscience; Computer science; Communication; Psychology; Pattern recognition (psychology); Computer vision; Mathematics; Geometry","score_opus":0.05467269164660292,"score_gpt":0.3532069323272929,"score_spread":0.29853424068068996,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2098637063","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9314181,0.00004526627,0.064228736,0.00020748215,0.00066865276,0.00040787662,0.000017129027,0.00020627589,0.0028004413],"genre_scores_gemma":[0.99601066,0.0000028753466,0.00085208373,0.0020854685,0.00034661114,0.000027309521,0.000006089103,0.000044489272,0.0006244342],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99767184,0.00007290609,0.00048946234,0.0006304555,0.00040226523,0.0007330722],"domain_scores_gemma":[0.9991388,0.00024256602,0.000109335364,0.00014624478,0.00014322984,0.00021987004],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005210404,0.00024899308,0.00029022328,0.00020125537,0.0003245855,0.0002182356,0.0002672274,0.00019433985,0.0002736051],"category_scores_gemma":[0.0011830865,0.00024120143,0.00009634002,0.00032272635,0.00029067224,0.0005449573,0.000053273096,0.00030899319,0.0000968315],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003069336,0.00021788588,0.0017181822,0.00013665894,0.0000012681407,0.000053164866,0.0014387495,0.000001167129,0.9295588,0.0063697593,0.00009127719,0.060106114],"study_design_scores_gemma":[0.006585921,0.0034036317,0.5047579,0.0005557272,0.00007230074,0.0002129977,0.0030546098,0.02844202,0.41228,0.035101794,0.003081825,0.002451308],"about_ca_topic_score_codex":0.000106609186,"about_ca_topic_score_gemma":0.00028950995,"teacher_disagreement_score":0.51727885,"about_ca_system_score_codex":0.00009926076,"about_ca_system_score_gemma":0.00015616955,"threshold_uncertainty_score":0.9835909},"labels":[],"label_agreement":null},{"id":"W2098683471","doi":"10.1093/cercor/bhp207","title":"A Multivariate Analysis of Age-Related Differences in Default Mode and Task-Positive Networks across Multiple Cognitive Domains","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":340,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network; Baycrest Hospital","funders":"Canadian Institutes of Health Research","keywords":"Default mode network; Functional magnetic resonance imaging; Cognition; Psychology; Audiology; Functional connectivity; Perception; Effects of sleep deprivation on cognitive performance; Working memory; Developmental psychology; Neuroscience; Prefrontal cortex; Cognitive psychology; Medicine","score_opus":0.023327492005337028,"score_gpt":0.2871507751381495,"score_spread":0.2638232831328125,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2098683471","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99677783,0.0000809759,0.0016835709,0.00026835976,0.00009972328,0.00035909974,0.00023733846,0.00005599047,0.00043710112],"genre_scores_gemma":[0.99903244,0.000028699806,0.000052210144,0.0007261608,0.00001880637,0.000018455856,0.000025694448,0.0000113223805,0.0000862382],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9979233,0.0002596033,0.00038818957,0.00073224836,0.00026586142,0.00043080843],"domain_scores_gemma":[0.99484134,0.0046034823,0.00021016224,0.00016823038,0.00008937867,0.00008741856],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017369603,0.00025672023,0.0006200507,0.00024673127,0.00023488079,0.000049132697,0.00015221177,0.00012906063,0.000012955385],"category_scores_gemma":[0.002948185,0.00023013423,0.00014854835,0.0015366491,0.00043487753,0.00023017003,0.00012690487,0.0002945609,0.0000031110949],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.002062624,0.001494317,0.80011857,0.00003120495,0.0016690303,0.0003749224,0.024389127,0.010747363,0.1385162,0.0035749907,0.00008501875,0.016936662],"study_design_scores_gemma":[0.0013570071,0.00019944576,0.82857823,0.000045318386,0.00017827481,0.0000041348044,0.00048053413,0.16671416,0.0014566064,0.0007695698,0.0000013599813,0.00021534496],"about_ca_topic_score_codex":0.00063298957,"about_ca_topic_score_gemma":0.0018064184,"teacher_disagreement_score":0.1559668,"about_ca_system_score_codex":0.00005514103,"about_ca_system_score_gemma":0.000019484449,"threshold_uncertainty_score":0.9384602},"labels":[],"label_agreement":null},{"id":"W2098729076","doi":"10.1093/cercor/bhm131","title":"A Larynx Area in the Human Motor Cortex","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":294,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; Simon Fraser University","funders":"","keywords":"Larynx; Phonation; Context (archaeology); Tongue; Glottis; Neuroscience; Motor cortex; Supplementary motor area; Vocal tract; Neuroimaging; Cortex (anatomy); Articulation (sociology); Functional magnetic resonance imaging; Psychology; Anatomy; Audiology; Medicine; Stimulation; Biology; Computer science; Speech recognition; Pathology","score_opus":0.05417905845907481,"score_gpt":0.3052001695593572,"score_spread":0.25102111110028236,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2098729076","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9794679,0.0000035878534,0.00007110671,0.00024442683,0.00038729972,0.000319755,0.0000061419796,0.00007139675,0.019428343],"genre_scores_gemma":[0.9906482,0.0000061177757,0.000011783735,0.007862903,0.00014043618,0.0000128544525,0.0000027683539,0.00001225892,0.001302667],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9982784,0.0000848555,0.0002537551,0.00047998768,0.00041848343,0.00048456233],"domain_scores_gemma":[0.9993194,0.00011176963,0.00007254056,0.00039838132,0.000014911325,0.0000830274],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004817731,0.0001467134,0.00012657483,0.00013877552,0.00027762118,0.000089036264,0.00057483994,0.00006105818,0.0002609755],"category_scores_gemma":[0.00014783221,0.00010452171,0.00007113562,0.0005628942,0.00021732145,0.00029521814,0.00006858899,0.00028550142,0.000171611],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001176972,0.00008877897,0.002624733,0.000003179384,2.2347047e-7,0.00011031043,0.00048497866,1.9004756e-7,0.9921689,0.002297519,0.00084748777,0.0013619309],"study_design_scores_gemma":[0.0004034016,0.00018101252,0.9788255,0.000012996701,0.000004664877,0.000099988436,0.00031605503,0.00011695556,0.012869922,0.0010545718,0.0059258244,0.00018907542],"about_ca_topic_score_codex":0.00006701007,"about_ca_topic_score_gemma":0.00022979836,"teacher_disagreement_score":0.97929895,"about_ca_system_score_codex":0.00004219088,"about_ca_system_score_gemma":0.000028491633,"threshold_uncertainty_score":0.42622715},"labels":[],"label_agreement":null},{"id":"W2098863557","doi":"10.1093/cercor/bhi081","title":"Dynamics of Auditory Plasticity after Cochlear Implantation: A Longitudinal Study","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":82,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital","funders":"Deutsche Forschungsgemeinschaft","keywords":"Auditory cortex; Cochlear implant; Stimulus (psychology); Neuroplasticity; Cochlear implantation; Audiology; Neuroscience; Psychology; Implant; Medicine; Cognitive psychology; Surgery","score_opus":0.02492076624198557,"score_gpt":0.28789732571981475,"score_spread":0.26297655947782916,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2098863557","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982823,0.00000413437,0.0004070079,0.00014661365,0.0002898036,0.00024604995,0.000025424442,0.000042221312,0.0005564047],"genre_scores_gemma":[0.99922615,0.0000013450275,0.00021224252,0.00006921488,0.00019899492,0.00001694239,0.0000021540905,0.000011094416,0.00026188407],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99893695,0.00007947884,0.0002544768,0.00028689168,0.0002651008,0.00017712952],"domain_scores_gemma":[0.99944854,0.00019521143,0.000080735816,0.00014661963,0.00006303436,0.00006585439],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009272275,0.00010144145,0.00015039773,0.00006533373,0.00008278222,0.000023080302,0.000112777394,0.00004573852,0.00022764657],"category_scores_gemma":[0.00020989198,0.000088098,0.000045458168,0.00018291584,0.0001147139,0.00017075587,0.00004733671,0.00012623116,0.0000963248],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006461556,0.0020072418,0.8949691,0.00017639172,0.00002832217,0.000067545574,0.0038612762,0.0005624257,0.07989478,0.004210478,0.00046778776,0.013108468],"study_design_scores_gemma":[0.0004223466,0.00037039266,0.99486554,0.000014433357,0.000014791394,0.00001245915,0.00017123953,0.0028897831,0.0009706403,0.00012464655,0.000041384857,0.00010237299],"about_ca_topic_score_codex":0.000044385524,"about_ca_topic_score_gemma":0.0001479808,"teacher_disagreement_score":0.09989638,"about_ca_system_score_codex":0.00007431293,"about_ca_system_score_gemma":0.00004899342,"threshold_uncertainty_score":0.35925323},"labels":[],"label_agreement":null},{"id":"W2099015791","doi":"10.1093/cercor/bhr311","title":"Occipital Cortical Thickness Predicts Performance on Pitch and Musical Tasks in Blind Individuals","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Tactile and Sensory Interactions","field":"Neuroscience","cited_by":110,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; International Laboratory for Brain, Music and Sound Research; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Psychology; Crossmodal; Neuroscience; Cortex (anatomy); Neuroplasticity; Occipital lobe; Audiology; Sensory system; Visual cortex; Visual perception; Perception; Medicine","score_opus":0.06781214487988477,"score_gpt":0.28031897622605084,"score_spread":0.21250683134616608,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2099015791","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9846494,0.000002156459,0.000008295288,0.000098230164,0.0005079071,0.0002235434,0.000022789585,0.000066462366,0.014421218],"genre_scores_gemma":[0.99853945,0.000013494411,0.000034794353,0.0009020947,0.00009528154,0.000019125398,0.000003338882,0.000017401302,0.0003750089],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985161,0.000102803126,0.00027297038,0.0004761603,0.0002690267,0.00036292739],"domain_scores_gemma":[0.99925935,0.00023015279,0.00006750568,0.0002558025,0.000022159791,0.00016502739],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000065374996,0.00017381414,0.000192459,0.00014802527,0.00016111489,0.000052517134,0.00019013081,0.00012864216,0.0004983399],"category_scores_gemma":[0.00031652648,0.00015139859,0.000041385472,0.00021269925,0.00019374554,0.00039394913,0.000087972665,0.0006425971,0.00025978283],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0020104283,0.0028808524,0.7795519,0.00011078569,0.000041257706,0.0005543072,0.019871868,0.000017370872,0.15565003,0.01988068,0.0021613315,0.017269138],"study_design_scores_gemma":[0.0010374783,0.00057329977,0.964926,0.00004624635,0.0000152548,0.00016825783,0.00023957195,0.0013198783,0.030578766,0.00021937248,0.0006325665,0.00024330115],"about_ca_topic_score_codex":0.000025668724,"about_ca_topic_score_gemma":0.00002766371,"teacher_disagreement_score":0.18537407,"about_ca_system_score_codex":0.000027667971,"about_ca_system_score_gemma":0.000038383598,"threshold_uncertainty_score":0.6173855},"labels":[],"label_agreement":null},{"id":"W2099046443","doi":"10.1093/cercor/bht235","title":"In Vitro Recordings of Human Neocortical Oscillations","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":69,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Krembil Foundation; Toronto General Hospital; Toronto Western Hospital","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Neocortex; Inhibitory postsynaptic potential; Cholinergic; Local field potential; Glutamatergic; Electrophysiology; In vivo; Premovement neuronal activity; Biology; Epilepsy; Cortex (anatomy); Receptor; Glutamate receptor","score_opus":0.024711859176273998,"score_gpt":0.26423475245957745,"score_spread":0.23952289328330345,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2099046443","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9923278,0.000001598624,0.00003982217,0.0006572091,0.00027117078,0.00022094898,0.000004622425,0.000029793338,0.006446996],"genre_scores_gemma":[0.99789375,0.0000015988168,0.00007059177,0.0005997523,0.00004738789,0.0000153737,0.0000031952006,0.000010305926,0.0013580217],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991225,0.00003985808,0.00025354984,0.00024821362,0.00013879729,0.00019707125],"domain_scores_gemma":[0.999593,0.000084318206,0.00007332443,0.00016049382,0.000028942772,0.000059911214],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000046049416,0.000084207735,0.00013574169,0.00010045652,0.00006830928,0.000029933188,0.00012071131,0.000046753146,0.00065476634],"category_scores_gemma":[0.00014805228,0.000075447104,0.000052961674,0.00029179876,0.00008386798,0.00029042296,0.000050838324,0.0001310311,0.00012980038],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00000763033,0.000033809076,0.0022659826,0.0000052271034,5.731534e-7,0.0000021704695,0.000023339479,0.0000025736392,0.9898797,0.005632134,0.00048417077,0.0016626704],"study_design_scores_gemma":[0.0008792495,0.00032485306,0.33042222,0.000024347855,0.00001027066,0.000026709604,0.00005764792,0.021753626,0.60480297,0.040455636,0.00086532417,0.00037712406],"about_ca_topic_score_codex":0.00022890538,"about_ca_topic_score_gemma":0.000018213243,"teacher_disagreement_score":0.38507673,"about_ca_system_score_codex":0.000027281472,"about_ca_system_score_gemma":0.0000124557955,"threshold_uncertainty_score":0.7169232},"labels":[],"label_agreement":null},{"id":"W2099193444","doi":"10.1093/cercor/bhi078","title":"Right Hemispheric Laterality of Human 40 Hz Auditory Steady-state Responses","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":206,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital","funders":"","keywords":"Laterality; Magnetoencephalography; Audiology; Stimulus (psychology); Psychology; Auditory cortex; Sensory system; Lateralization of brain function; Cerebral hemisphere; Neuroscience; Electroencephalography; Cognitive psychology; Medicine","score_opus":0.036115429365336155,"score_gpt":0.2982336747968456,"score_spread":0.2621182454315094,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2099193444","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9922662,0.0000052315363,0.000017825449,0.00020625717,0.00055796123,0.0001599227,0.000025407246,0.000110776695,0.006650441],"genre_scores_gemma":[0.98486835,0.000012537215,0.00004981292,0.0013851864,0.00025311066,0.000008319467,0.0000023487767,0.000016247963,0.013404068],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99820775,0.00017642279,0.00034372316,0.00053047313,0.00037871112,0.00036293012],"domain_scores_gemma":[0.9991702,0.00006921386,0.00016965209,0.00043133128,0.000037886963,0.000121758836],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00019087225,0.00017074947,0.00020620364,0.00006908929,0.0002398465,0.000046101643,0.00037584687,0.000056206653,0.0010550999],"category_scores_gemma":[0.0001096665,0.00014979068,0.00009439555,0.000294872,0.00037598613,0.00048311896,0.00009850882,0.00017719991,0.00029260147],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006367351,0.00008626059,0.0005729971,0.0000136589715,8.415496e-7,0.000011797533,0.00025773118,0.000007953957,0.99485517,0.00015084012,0.002536913,0.0014421787],"study_design_scores_gemma":[0.0005564849,0.00024533752,0.29670227,0.00002845886,0.00001102385,0.000029078908,0.000033610326,0.0002342517,0.6807831,0.00067994255,0.020378612,0.00031782026],"about_ca_topic_score_codex":0.000034708497,"about_ca_topic_score_gemma":0.000039171944,"teacher_disagreement_score":0.31407204,"about_ca_system_score_codex":0.000061223276,"about_ca_system_score_gemma":0.00006292143,"threshold_uncertainty_score":0.9998581},"labels":[],"label_agreement":null},{"id":"W2099527308","doi":"10.1093/cercor/bhm167","title":"Anatomical Connectivity of the Subgenual Cingulate Region Targeted with Deep Brain Stimulation for Treatment-Resistant Depression","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurological disorders and treatments","field":"Medicine","cited_by":564,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Toronto Western Hospital","funders":"Wellcome Trust","keywords":"Neuroscience; Deep brain stimulation; Nucleus accumbens; Cingulate cortex; Orbitofrontal cortex; Anterior cingulate cortex; Treatment-resistant depression; Prefrontal cortex; Amygdala; White matter; Psychology; Tractography; Limbic lobe; Stimulation; Medicine; Magnetic resonance imaging; Major depressive disorder; Central nervous system; Internal medicine; Cognition","score_opus":0.017785636423440325,"score_gpt":0.2759060434706551,"score_spread":0.2581204070472148,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2099527308","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960378,0.000094342795,0.0023229155,0.00033365996,0.000052959847,0.00092839816,0.000009865252,0.000033306856,0.00018676485],"genre_scores_gemma":[0.9992847,0.0000019559911,0.00020286212,0.0002822415,0.000028712819,0.000013061321,0.000035500114,0.000016681366,0.00013428836],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9991482,0.000038569597,0.00018711071,0.0002624001,0.00014851916,0.0002152131],"domain_scores_gemma":[0.9993229,0.0001841391,0.00012351378,0.0002237774,0.000061941326,0.00008375959],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006926071,0.00014414181,0.00025553853,0.00003886212,0.00010472711,0.0000051424654,0.00004564054,0.00008816514,0.000017834554],"category_scores_gemma":[0.00008193703,0.00007410078,0.00011917187,0.00014080481,0.00007765414,0.000038315997,0.000016998656,0.000052207117,8.883976e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0109597985,0.0008439954,0.9420398,0.000040806175,0.00015882905,0.000059797396,0.00017368633,0.000032226046,0.02953272,0.00039269475,0.000104541614,0.01566112],"study_design_scores_gemma":[0.006252189,0.001997459,0.97461396,0.00002855723,0.00015803151,0.000011588212,0.000037355545,0.0014385639,0.014343502,0.0009726336,0.000063213985,0.00008293058],"about_ca_topic_score_codex":0.000069048554,"about_ca_topic_score_gemma":0.00034487186,"teacher_disagreement_score":0.03257419,"about_ca_system_score_codex":0.000064655156,"about_ca_system_score_gemma":0.000033485467,"threshold_uncertainty_score":0.3021742},"labels":[],"label_agreement":null},{"id":"W2099699635","doi":"10.1093/cercor/bhu082","title":"Coordinated Information Generation and Mental Flexibility: Large-Scale Network Disruption in Children with Autism","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":45,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation; Hospital for Sick Children; University of Toronto; Baycrest Hospital","funders":"Canadian Institutes of Health Research; James S. McDonnell Foundation","keywords":"Cognitive flexibility; Autism; Cognition; Autism spectrum disorder; Psychology; Magnetoencephalography; Executive functions; Cognitive psychology; Set (abstract data type); Functional magnetic resonance imaging; Neuroimaging; Flexibility (engineering); Developmental psychology; Neuroscience; Computer science; Electroencephalography","score_opus":0.010666436185508109,"score_gpt":0.2240583739468417,"score_spread":0.21339193776133358,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2099699635","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99497426,0.0000043480964,0.003751128,0.0002901965,0.00020598368,0.0003618299,0.000015471001,0.0000629401,0.00033385333],"genre_scores_gemma":[0.9988771,0.000007843226,0.0001043081,0.0006556669,0.0000711431,0.000012537161,0.00018444296,0.000008063092,0.000078872145],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9991224,0.00008524854,0.00018581242,0.000248588,0.00014078418,0.00021718263],"domain_scores_gemma":[0.9997025,0.000016266451,0.00008479875,0.00012954435,0.0000131454035,0.000053741034],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017491095,0.00011341226,0.00010742617,0.00005816157,0.00017475511,0.00009735233,0.000056631954,0.000057244142,0.000022568202],"category_scores_gemma":[0.000028113192,0.00009383321,0.000016912833,0.00023798164,0.00005048964,0.0007418551,0.00004311558,0.00012093488,0.000015437783],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002201803,0.00015623847,0.87210786,0.00002603698,0.000010697416,0.0000011348125,0.0005562487,0.0025636493,0.048048437,0.023787841,0.0009394136,0.051582288],"study_design_scores_gemma":[0.0008147586,0.00018054301,0.6398265,0.000008680754,0.0000049051855,0.000025596702,0.000011081723,0.35744712,0.00057403895,0.00062962365,0.00034733172,0.00012984758],"about_ca_topic_score_codex":0.000032884574,"about_ca_topic_score_gemma":0.00018079381,"teacher_disagreement_score":0.35488346,"about_ca_system_score_codex":0.00004326618,"about_ca_system_score_gemma":0.000009384352,"threshold_uncertainty_score":0.38264072},"labels":[],"label_agreement":null},{"id":"W2099765045","doi":"10.1093/cercor/bhr350","title":"KCTD8 Gene and Brain Growth in Adverse Intrauterine Environment: A Genome-wide Association Study","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Epigenetics and DNA Methylation","field":"Biochemistry, Genetics and Molecular Biology","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dawson College; Cegep de Trois-Rivieres; Cégep de Jonquière; Hospital for Sick Children; Université du Québec à Chicoutimi; McGill University; Cegep de Thetford; Baycrest Hospital; SickKids Foundation; Montreal Neurological Institute and Hospital; University of Toronto; University of British Columbia","funders":"Canadian Institutes of Health Research; Medical Research Council; University of Bristol; National Institute of General Medical Sciences; Wellcome Trust","keywords":"In utero; Locus (genetics); Biology; Brain development; Cerebral cortex; Human brain; Brain size; Neurogenesis; Apoptosis; Pregnancy; Genotype; Gene; Neuroscience; Fetus; Medicine; Genetics; Magnetic resonance imaging","score_opus":0.010824484664025793,"score_gpt":0.21198064307758177,"score_spread":0.20115615841355597,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2099765045","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99824375,0.00028737396,0.00037524334,0.00006878282,0.000053148127,0.00027260408,0.000008524358,0.000006716737,0.00068385963],"genre_scores_gemma":[0.99855304,0.00036594764,0.00045633537,0.00015650374,0.00006669094,0.00001955049,0.00007031897,0.00001659955,0.00029500862],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99911684,0.00008094301,0.00020441283,0.00030965375,0.00010048004,0.00018768781],"domain_scores_gemma":[0.9996426,0.00001476618,0.0000937163,0.00016338188,0.000020543448,0.00006500147],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025569528,0.00012196732,0.00011975752,0.000048420407,0.00003789221,0.000009243993,0.00008167566,0.000103726,0.0000636404],"category_scores_gemma":[0.00009134016,0.00012715884,0.000030679446,0.000051831048,0.000021432981,0.0000060517236,0.00010591515,0.00007073259,0.000011623398],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004186038,0.00016011148,0.8973367,0.000005564298,0.000034482277,0.000006370481,0.00040838396,0.000003856248,0.101167254,0.000016864118,0.000022881046,0.0007956409],"study_design_scores_gemma":[0.000866673,0.00042006632,0.9706192,0.0000017167279,0.000014329332,4.788283e-7,0.00010369344,0.000018288076,0.026451802,0.0003586201,0.0009923232,0.00015281621],"about_ca_topic_score_codex":0.00008617871,"about_ca_topic_score_gemma":0.00011001808,"teacher_disagreement_score":0.07471546,"about_ca_system_score_codex":0.000038320173,"about_ca_system_score_gemma":0.000014272867,"threshold_uncertainty_score":0.5185387},"labels":[],"label_agreement":null},{"id":"W2100285687","doi":"10.1093/cercor/bhq043","title":"Metabotropic Induction of Persistent Activity in Layers II/III of Anterior Cingulate Cortex","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":72,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Chemistry; Carbachol; Neuroscience; Muscarinic acetylcholine receptor; BAPTA; Cholinergic; Metabotropic glutamate receptor; Acetylcholine; Anterior cingulate cortex; Endocrinology; Internal medicine; Glutamate receptor; Receptor; Biology; Medicine; Biochemistry","score_opus":0.04071072731040723,"score_gpt":0.31966818747201126,"score_spread":0.27895746016160405,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100285687","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980162,0.000014098735,0.000002345169,0.00014658479,0.001066952,0.0003084535,0.00001013591,0.000024543371,0.00041073115],"genre_scores_gemma":[0.9992641,0.000051632902,0.000010006824,0.00013883747,0.00003798,0.000009482873,1.919881e-7,0.000014217168,0.00047353975],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99817896,0.00017007308,0.00033185826,0.00052724016,0.00039825888,0.0003935989],"domain_scores_gemma":[0.9991931,0.00009279401,0.00021929064,0.00032643985,0.000058911737,0.00010949277],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022463546,0.00015381124,0.0003466447,0.00025518794,0.00013628133,0.000014084718,0.0004361322,0.00009051958,0.00024932798],"category_scores_gemma":[0.0002358105,0.00013930364,0.00018100251,0.0007310498,0.0006356073,0.0003284294,0.00022782026,0.00062024023,0.0000076243136],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017386416,0.00022499128,0.0068620807,0.000020393985,0.000004217489,0.00002479112,0.00015984802,0.000008547901,0.9903796,0.00006462484,0.000017703798,0.0020593377],"study_design_scores_gemma":[0.000770569,0.0004074122,0.15995392,0.000010721467,0.000015180545,0.000034763023,0.000030577638,0.0008893051,0.83769256,0.000022639593,0.00007359095,0.000098758916],"about_ca_topic_score_codex":0.000096673444,"about_ca_topic_score_gemma":0.000042178155,"teacher_disagreement_score":0.15309185,"about_ca_system_score_codex":0.000019491285,"about_ca_system_score_gemma":0.00011224024,"threshold_uncertainty_score":0.56806374},"labels":[],"label_agreement":null},{"id":"W2100390488","doi":"10.1093/cercor/bhj162","title":"Functional Cerebral Reorganization for Auditory Spatial Processing and Auditory Substitution of Vision in Early Blind Subjects","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Tactile and Sensory Interactions","field":"Neuroscience","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"","keywords":"Sensory substitution; Transcranial magnetic stimulation; Psychology; Neuroscience; Extrastriate cortex; Sensory system; Sensory processing; Auditory cortex; Visual cortex; Audiology; Stimulation; Medicine","score_opus":0.020918966324621396,"score_gpt":0.25847224521213413,"score_spread":0.23755327888751274,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100390488","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.993734,0.000010441862,0.0037243767,0.00007553542,0.0014796116,0.00031896567,0.000022751756,0.000052127205,0.00058217207],"genre_scores_gemma":[0.9983709,0.0000025608372,0.00009048336,0.000056322602,0.0009507131,0.0000150913975,0.000034384037,0.000019847379,0.00045968575],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99880826,0.00005538064,0.00032607815,0.00037780442,0.00022712385,0.00020532722],"domain_scores_gemma":[0.99938935,0.00013411733,0.0002060686,0.00011587665,0.00011027693,0.00004432737],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000053543827,0.00013629645,0.0001580197,0.00020965883,0.00020667078,0.000057844656,0.00007018893,0.000113154194,0.00006196008],"category_scores_gemma":[0.0001963284,0.00013911548,0.00004499218,0.00027141225,0.00012912015,0.00065934943,0.000024012314,0.00015638105,0.000013841486],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005597912,0.0002326999,0.024533156,0.00008464189,0.0000030127658,0.000005044167,0.00023052741,0.00026395408,0.9691561,0.0016694504,0.0014063171,0.0018553252],"study_design_scores_gemma":[0.0017915042,0.00022778758,0.79902625,0.00006846194,0.00001985367,0.000024148874,0.00005586376,0.0045459666,0.19224505,0.0008469253,0.0009317465,0.00021644206],"about_ca_topic_score_codex":0.0001926229,"about_ca_topic_score_gemma":0.0003564365,"teacher_disagreement_score":0.776911,"about_ca_system_score_codex":0.000084734405,"about_ca_system_score_gemma":0.000106060754,"threshold_uncertainty_score":0.56729645},"labels":[],"label_agreement":null},{"id":"W2100453242","doi":"10.1093/cercor/12.4.349","title":"Abnormalities of SNARE Mechanism Proteins in Anterior Frontal Cortex in Severe Mental Illness","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cellular transport and secretion","field":"Biochemistry, Genetics and Molecular Biology","cited_by":150,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"Syntaxin; Synaptophysin; SNARE complex; Schizophrenia (object-oriented programming); Biology; Psychosis; Psychology; Internal medicine; Neuroscience; Endocrinology; Membrane protein; Medicine; Psychiatry; Immunohistochemistry; Genetics","score_opus":0.008336293952604514,"score_gpt":0.20334478989268853,"score_spread":0.19500849594008401,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100453242","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99749625,0.00049398054,0.00039332232,0.00003215621,0.00014841573,0.0003559769,0.00007097033,0.000008141688,0.0010007881],"genre_scores_gemma":[0.99798846,0.00015070155,0.00009441752,0.000049634124,0.000047914957,0.000025600433,0.00086613564,0.000018465933,0.0007586753],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99899036,0.00003522274,0.00032894884,0.00027671657,0.00013077319,0.00023798236],"domain_scores_gemma":[0.9996574,0.000001875143,0.000078564626,0.00019014333,0.000024267423,0.00004774834],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000807495,0.00015768445,0.00021994708,0.00007570786,0.000032166663,0.0000089583655,0.00013779318,0.00015838501,0.0004990722],"category_scores_gemma":[0.000005100093,0.00016219726,0.00009204372,0.000085417974,0.000058650192,0.00001153792,0.00004288732,0.00010237136,0.0000069713897],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017838055,0.00018898617,0.05488664,0.00009080004,0.00002100467,0.00004466578,0.0012752211,0.0000028654451,0.9409314,0.00026981093,0.00003660427,0.002073617],"study_design_scores_gemma":[0.007773712,0.0015351,0.5453375,0.00043465267,0.00003927299,0.00019173532,0.005539406,0.0021323815,0.42950234,0.0006485437,0.005384882,0.0014805006],"about_ca_topic_score_codex":0.00025896984,"about_ca_topic_score_gemma":0.0019369057,"teacher_disagreement_score":0.5114291,"about_ca_system_score_codex":0.000026649677,"about_ca_system_score_gemma":0.00001984252,"threshold_uncertainty_score":0.66142124},"labels":[],"label_agreement":null},{"id":"W2100527147","doi":"10.1093/cercor/bhj011","title":"Cholinergic Action on Cortical Glial Cells In Vivo","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Neuroscience; Cholinergic; Cholinergic neuron; Depolarization; Nucleus basalis; Pedunculopontine nucleus; Hyperpolarization (physics); Chemistry; Basal forebrain; Acetylcholine; Biology; Biophysics; Endocrinology; Internal medicine; Medicine","score_opus":0.07121555379462699,"score_gpt":0.36184338984177117,"score_spread":0.29062783604714415,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100527147","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9937447,0.0000019894374,0.0000040786376,0.0008935878,0.0008656787,0.0002374095,0.000009695259,0.000081875725,0.0041609863],"genre_scores_gemma":[0.99052143,0.00005135141,0.0000072236676,0.0054195737,0.00034116444,0.000017931428,1.8746086e-7,0.00001916823,0.0036219638],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99782467,0.00025289474,0.00024117948,0.0006586092,0.00043787822,0.00058476307],"domain_scores_gemma":[0.99926966,0.00024170008,0.000047470785,0.0002363296,0.000016307766,0.0001885172],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00015347647,0.00015949873,0.00016017661,0.00021123412,0.00018061633,0.000054833716,0.00038414713,0.00007927273,0.0009655728],"category_scores_gemma":[0.0002085297,0.00014262371,0.00006209209,0.0005460366,0.00025000845,0.00029615965,0.00009381576,0.00069383247,0.0011088374],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017539911,0.00023971674,0.0006121635,0.0000033621561,3.4747413e-7,0.00013271892,0.00002426807,0.00018464793,0.9951181,0.00041686202,0.001830327,0.0012621264],"study_design_scores_gemma":[0.00077811687,0.0003033163,0.006368349,0.0000042691554,0.0000027431768,0.000032370786,0.0000063167454,0.005932075,0.98008645,0.00004293757,0.0062989295,0.00014411988],"about_ca_topic_score_codex":0.00000600182,"about_ca_topic_score_gemma":0.000020145186,"teacher_disagreement_score":0.015031605,"about_ca_system_score_codex":0.000071653165,"about_ca_system_score_gemma":0.000064997286,"threshold_uncertainty_score":0.99994767},"labels":[],"label_agreement":null},{"id":"W2100663166","doi":"10.1093/cercor/bhu016","title":"Social Mimicry Enhances Mu-Suppression During Action Observation","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"Social Sciences and Humanities Research Council of Canada","keywords":"Mimicry; Mirror neuron; Psychology; Action (physics); Imitation; Reciprocal; Neuroscience; Gesture; Social relation; Communication; Developmental psychology; Cognitive psychology; Social psychology; Biology; Computer science; Ecology; Physics","score_opus":0.0548299124868948,"score_gpt":0.33426208716111483,"score_spread":0.27943217467422005,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100663166","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9789927,0.000012815511,0.008177326,0.00072772714,0.0017201866,0.00015640017,0.000002390129,0.00023243917,0.009977997],"genre_scores_gemma":[0.9884168,0.000004373638,0.00017433675,0.0004679667,0.00092620065,0.000028962835,0.00012472486,0.000025601716,0.0098310355],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99880034,0.00016488697,0.0002916954,0.00032069246,0.0001969905,0.0002254107],"domain_scores_gemma":[0.99939394,0.000035609162,0.00022023614,0.00018963084,0.000105140054,0.00005547363],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0001387257,0.00014204183,0.0001481649,0.00008307257,0.00039020463,0.000047307865,0.00011672972,0.00018833663,0.0035887514],"category_scores_gemma":[0.000047361278,0.0001428522,0.00006796766,0.00022609258,0.000039783743,0.00039857833,0.000025311305,0.00016779787,0.0006795732],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00062563247,0.00055731536,0.23580062,0.00020502912,0.00016170964,0.000004664031,0.006800689,0.0000696098,0.4596283,0.03323983,0.09705826,0.16584831],"study_design_scores_gemma":[0.0007591756,0.000037327613,0.9689798,0.000012177332,0.000015530983,0.000004955526,0.00035302917,0.0011424453,0.005967847,0.0004500258,0.02208878,0.00018894784],"about_ca_topic_score_codex":0.000051273804,"about_ca_topic_score_gemma":0.000034476838,"teacher_disagreement_score":0.73317915,"about_ca_system_score_codex":0.000084278734,"about_ca_system_score_gemma":0.000015663096,"threshold_uncertainty_score":0.9973221},"labels":[],"label_agreement":null},{"id":"W2100673126","doi":"10.1093/cercor/bhn196","title":"Neuroanatomical Correlates of Musicianship as Revealed by Cortical Thickness and Voxel-Based Morphometry","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":411,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; International Laboratory for Brain, Music and Sound Research; Hospital for Sick Children; Montreal Neurological Institute and Hospital","funders":"","keywords":"Voxel; Voxel-based morphometry; Psychology; Gyrus; Temporal cortex; Cortex (anatomy); Neuroscience; Dorsum; Frontal cortex; Brain mapping; Superior temporal gyrus; Functional magnetic resonance imaging; Anatomy; Magnetic resonance imaging; Biology; White matter; Artificial intelligence; Medicine; Computer science","score_opus":0.03027056452444959,"score_gpt":0.2612569492824619,"score_spread":0.2309863847580123,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100673126","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977486,0.000022222875,0.00026487047,0.00025492447,0.00046307268,0.00023054799,0.000025586767,0.000090620895,0.00089951383],"genre_scores_gemma":[0.994754,0.0000447945,0.00003876743,0.0046746405,0.000044689834,0.000008542913,0.000005375918,0.000024187662,0.0004049671],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99789006,0.00019672279,0.00036274825,0.00067685393,0.0004756848,0.0003979617],"domain_scores_gemma":[0.9988845,0.0003723193,0.00013210587,0.00033342323,0.00004646533,0.00023119402],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014590197,0.00021233028,0.0003121937,0.00014654778,0.00029294187,0.000031762946,0.00030770694,0.00013512232,0.0002213661],"category_scores_gemma":[0.0009814727,0.00019276411,0.00008628742,0.00062611845,0.0011421803,0.0002431971,0.00009109347,0.0004187041,0.000081577],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009610871,0.0001515658,0.029737154,0.000021205291,9.988979e-7,0.00008357533,0.00012580407,0.0000025002837,0.96670353,0.00062387227,0.0018307386,0.0006229458],"study_design_scores_gemma":[0.0018763581,0.00074705,0.8357852,0.000057359473,0.000044774177,0.00086069404,0.00009035946,0.0065225977,0.15176558,0.00060830574,0.0010599002,0.0005817927],"about_ca_topic_score_codex":0.00003346824,"about_ca_topic_score_gemma":0.000002224267,"teacher_disagreement_score":0.81493795,"about_ca_system_score_codex":0.000023303657,"about_ca_system_score_gemma":0.000113966715,"threshold_uncertainty_score":0.7860693},"labels":[],"label_agreement":null},{"id":"W2100983956","doi":"10.1093/cercor/bhm045","title":"Age-Related Differences in Brain Activity Underlying Working Memory for Spatial and Nonspatial Auditory Information","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"","keywords":"Working memory; Psychology; Neuroscience; Cognitive psychology; Spatial memory; Brain activity and meditation; Auditory perception; Audiology; Cognition; Perception; Electroencephalography; Medicine","score_opus":0.1368390007692043,"score_gpt":0.3515071925652041,"score_spread":0.21466819179599977,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2100983956","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962254,0.000009269851,0.00076163904,0.0005649356,0.0012587617,0.00040073073,0.000005780601,0.00006865485,0.0007048298],"genre_scores_gemma":[0.9992074,0.0000046163927,0.00003862066,0.00047127833,0.00009224572,0.00001689799,0.0000032023427,0.0000073914066,0.00015836311],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99890625,0.000058984988,0.00026823126,0.0002844703,0.00014796523,0.0003341109],"domain_scores_gemma":[0.99930644,0.00038099542,0.0001407628,0.00009699786,0.000015400527,0.000059387145],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022641139,0.00015627709,0.00020427325,0.00014301768,0.0002460516,0.000049646504,0.000116937306,0.00011408827,0.00001546632],"category_scores_gemma":[0.00016181316,0.00013384446,0.000044795823,0.00017841777,0.00024326233,0.00041039937,0.00006965284,0.00024578904,0.000008596445],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005030125,0.00013847707,0.09681043,0.00004227309,0.000009019135,0.000049733142,0.002083592,0.0000022010272,0.45666206,0.00019431004,0.000429052,0.44307587],"study_design_scores_gemma":[0.0011787333,0.00020582433,0.98454297,0.00003311431,0.0000112912485,0.00001122685,0.00022276798,0.00026865085,0.012442881,0.0006960741,0.00016227884,0.00022419282],"about_ca_topic_score_codex":0.00015675522,"about_ca_topic_score_gemma":0.0008046838,"teacher_disagreement_score":0.8877325,"about_ca_system_score_codex":0.000038577826,"about_ca_system_score_gemma":0.000014330707,"threshold_uncertainty_score":0.5458018},"labels":[],"label_agreement":null},{"id":"W2101078485","doi":"10.1093/cercor/bhn094","title":"Increased Impulsivity during Withdrawal from Cocaine Self-Administration: Role for  FosB in the Orbitofrontal Cortex","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurotransmitter Receptor Influence on Behavior","field":"Neuroscience","cited_by":92,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute on Drug Abuse","keywords":"Impulsivity; Self-administration; Orbitofrontal cortex; FOSB; Psychology; Prefrontal cortex; Neuroscience; Medicine; Clinical psychology; Pharmacology; Cognition","score_opus":0.019360051307168762,"score_gpt":0.2589534897363779,"score_spread":0.23959343842920913,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2101078485","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973645,0.000019221941,0.00003896413,0.0002550708,0.00029575638,0.0012960306,0.00018978662,0.0001920845,0.0003485547],"genre_scores_gemma":[0.99795365,0.000007150025,0.00028851166,0.0010617647,0.00025079324,0.00026529894,0.000035524467,0.0000475074,0.00008980734],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.997314,0.00023505634,0.0004984909,0.00082891807,0.0005500494,0.0005735051],"domain_scores_gemma":[0.998744,0.00028999796,0.00017894426,0.000582258,0.00004629872,0.00015849345],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014186144,0.00034426534,0.00033767786,0.00009152563,0.00047396647,0.00010930671,0.0007434137,0.000121592086,0.00018402119],"category_scores_gemma":[0.00011662808,0.00028619438,0.00016331182,0.00036141684,0.0002307586,0.0005129977,0.000061596125,0.00041011197,0.000087156084],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00032557477,0.00048446914,0.12037609,0.000017124354,0.0000054336742,0.00040331148,0.0011982288,0.0000017058752,0.8766908,0.0001065996,0.0001531818,0.00023748203],"study_design_scores_gemma":[0.0020795718,0.00033061273,0.71056473,0.000015921965,0.000027522112,0.00048004655,0.00010243713,0.00020489303,0.28540933,0.0001635916,0.0002769677,0.00034433193],"about_ca_topic_score_codex":0.00030861434,"about_ca_topic_score_gemma":0.00029616596,"teacher_disagreement_score":0.5912815,"about_ca_system_score_codex":0.00010719743,"about_ca_system_score_gemma":0.00018980453,"threshold_uncertainty_score":0.999959},"labels":[],"label_agreement":null},{"id":"W2101288418","doi":"10.1093/cercor/bhp198","title":"Cortical Anatomy in Autism Spectrum Disorder: An In Vivo MRI Study on the Effect of Age","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":180,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute for Health and Care Research","keywords":"Autism spectrum disorder; Magnetic resonance imaging; Psychology; Autism; Audiology; Gyrification; Neuroscience; Neurodevelopmental disorder; Anatomy; Medicine; Developmental psychology; Cerebral cortex","score_opus":0.018352872525437495,"score_gpt":0.31353431729414594,"score_spread":0.29518144476870845,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2101288418","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9889802,0.000019200235,0.000011710253,0.00545766,0.000075407006,0.0017312928,0.000007237054,0.00006360266,0.0036536884],"genre_scores_gemma":[0.99957365,0.000009874893,0.0000028136938,0.00022645376,0.000014120311,0.00004425317,0.0000011180409,0.000026361557,0.0001013454],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9960672,0.0012831994,0.00045324594,0.00073634175,0.00072313985,0.00073685986],"domain_scores_gemma":[0.99839884,0.0006008742,0.00008657394,0.0007854144,0.0000021329463,0.00012614598],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00070418685,0.00027907657,0.00044317066,0.00034717406,0.0001260522,0.000064151456,0.0008310042,0.000089703724,0.0003775631],"category_scores_gemma":[0.00032007426,0.00019682437,0.00008240029,0.0012416027,0.00023398522,0.00019466493,0.0001338706,0.00084240385,0.000060817296],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009436798,0.003750062,0.7705323,0.000026981521,0.000009684885,0.0012770573,0.0025647504,0.0000903572,0.040910333,0.17747408,0.000095781244,0.002324937],"study_design_scores_gemma":[0.0021301906,0.0062958426,0.9536155,0.00002748816,0.0000064141955,0.000008109327,0.00016714867,0.0017790233,0.024918033,0.010790551,0.000034607376,0.00022707653],"about_ca_topic_score_codex":0.00038517048,"about_ca_topic_score_gemma":0.0024284644,"teacher_disagreement_score":0.18308322,"about_ca_system_score_codex":0.00010200407,"about_ca_system_score_gemma":0.0000494288,"threshold_uncertainty_score":0.8026265},"labels":[],"label_agreement":null},{"id":"W2102439446","doi":"10.1093/cercor/bht351","title":"Two Distinct Auditory-Motor Circuits for Monitoring Speech Production as Revealed by Content-Specific Suppression of Auditory Cortex","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"Natural Sciences and Engineering Research Council of Canada; Lundbeckfonden; Medical Research Council; Academy of Finland","keywords":"Speech production; Neurocomputational speech processing; Covert; Psychology; Speech perception; Auditory cortex; Control (management); Speech processing; Lateralization of brain function; Auditory feedback; Speech recognition; Cognitive psychology; Audiology; Neuroscience; Computer science; Perception; Medicine; Artificial intelligence","score_opus":0.053172505709215466,"score_gpt":0.29248685393919055,"score_spread":0.23931434822997508,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2102439446","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.981307,0.000016070175,0.00057382253,0.00014011259,0.015940428,0.0009931227,0.000063058935,0.00015340395,0.0008129498],"genre_scores_gemma":[0.99109554,0.000039713927,0.000085017076,0.00014866881,0.003618974,0.000092744696,0.000018578352,0.000046970985,0.0048538153],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99697614,0.00018934126,0.00052975636,0.0010993073,0.0006677582,0.0005377207],"domain_scores_gemma":[0.9983643,0.00020707925,0.00043175087,0.0006210468,0.0001772847,0.00019850463],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00039162269,0.00029733707,0.00037511418,0.00013412307,0.00041476337,0.00007607336,0.00047855376,0.00014756732,0.000108609805],"category_scores_gemma":[0.00117591,0.00027561342,0.00016268913,0.00029493406,0.0003356705,0.00058494805,0.000093667404,0.0003197271,0.000098020304],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008852607,0.00012972814,0.0014608151,0.00005391023,0.0000018620693,0.000002415397,0.00008661608,0.0000011885979,0.9685525,0.00009215906,0.017441018,0.01208928],"study_design_scores_gemma":[0.0013703114,0.0006974779,0.19076227,0.00016928778,0.000029127532,0.0000462994,0.00011794011,0.000178019,0.77865005,0.00032543633,0.02720644,0.0004473402],"about_ca_topic_score_codex":0.00002818126,"about_ca_topic_score_gemma":0.0000034251993,"teacher_disagreement_score":0.18990242,"about_ca_system_score_codex":0.000116735115,"about_ca_system_score_gemma":0.000063660584,"threshold_uncertainty_score":0.9999696},"labels":[],"label_agreement":null},{"id":"W2102748918","doi":"10.1093/cercor/bhm151","title":"Evidence for Impaired Long-Term Potentiation in Schizophrenia and Its Relationship to Motor Skill Leaning","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":191,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Toronto Western Hospital; University of Toronto; Centre for Addiction and Mental Health","funders":"","keywords":"Long-term potentiation; Transcranial magnetic stimulation; Neuroscience; Psychology; Motor cortex; Motor learning; Interstimulus interval; Schizophrenia (object-oriented programming); Neuroplasticity; Transcranial direct-current stimulation; Synaptic plasticity; Stimulation; Medicine; Internal medicine; Psychiatry","score_opus":0.11204958065304092,"score_gpt":0.34366951146300784,"score_spread":0.2316199308099669,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2102748918","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9896983,0.00018966237,0.008421465,0.0002959809,0.00017203463,0.0009020154,0.0000061482547,0.000088131244,0.00022628016],"genre_scores_gemma":[0.9979643,0.00000840891,0.00088396476,0.00019657599,0.0000678848,0.000019331475,0.0000010922132,0.000025104966,0.000833343],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9988572,0.000037634694,0.0002815381,0.00038570684,0.00017479637,0.00026310395],"domain_scores_gemma":[0.99880844,0.0008588821,0.00007028799,0.000119154305,0.00004541266,0.000097790966],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002357017,0.00012503735,0.00013776535,0.00020825448,0.00015057602,0.000041634776,0.00010359362,0.000054973447,0.000047572805],"category_scores_gemma":[0.0022021001,0.00012966707,0.000036185855,0.00036087664,0.00003256099,0.00024813932,0.000039448503,0.00007998994,0.000045352754],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010863801,0.000058220667,0.49592832,0.00007836626,0.000004458191,0.000014687285,0.001193109,0.000120697536,0.48321086,0.005288098,0.000038506525,0.012978289],"study_design_scores_gemma":[0.0011104083,0.00016883416,0.99511224,0.000106738924,0.000011986228,0.000005697011,0.000018580291,0.00091873744,0.0020920585,0.00030417426,0.000006311331,0.00014421558],"about_ca_topic_score_codex":0.000009050728,"about_ca_topic_score_gemma":0.00015536816,"teacher_disagreement_score":0.49918395,"about_ca_system_score_codex":0.000041166302,"about_ca_system_score_gemma":0.000017206192,"threshold_uncertainty_score":0.52876693},"labels":[],"label_agreement":null},{"id":"W2102857309","doi":"10.1093/cercor/bhh068","title":"Distributed Auditory Cortical Representations Are Modified When Non-musicians Are Trained at Pitch Discrimination with 40 Hz Amplitude Modulated Tones","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":220,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"","keywords":"Auditory cortex; Psychology; Neuroscience; N100; Electroencephalography; Neuroplasticity; Audiology; Lateralization of brain function; Mismatch negativity; Event-related potential; Medicine","score_opus":0.02900486343710335,"score_gpt":0.2560727446157146,"score_spread":0.22706788117861126,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2102857309","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97290343,0.0000038717562,0.021729873,0.0030822884,0.0006869601,0.00061531167,0.00029137783,0.00024090965,0.0004459663],"genre_scores_gemma":[0.99756,0.0000045201386,0.00012093315,0.0006794638,0.00020505661,0.00006718905,0.00033826474,0.00004560561,0.0009789517],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9976828,0.00009580085,0.0003900646,0.0008387451,0.0005206464,0.0004719154],"domain_scores_gemma":[0.99877244,0.00011387062,0.00029391696,0.00047573593,0.00014498548,0.00019906003],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00007335732,0.00030682032,0.00031348085,0.0001098008,0.0006001189,0.00013713629,0.00025693545,0.00013342754,0.00008401883],"category_scores_gemma":[0.00027486318,0.00025599942,0.00011317762,0.0004338841,0.00024131649,0.00039716478,0.00010375988,0.0003004139,0.00005673836],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001199946,0.0009949103,0.008558155,0.000119466706,0.0000635838,0.00037002758,0.0013765286,0.023539254,0.9528477,0.0064868466,0.0036662682,0.00077729445],"study_design_scores_gemma":[0.0023009917,0.00031053927,0.94635445,0.0001105491,0.000094874464,0.00007517222,0.00041672194,0.032325793,0.012692468,0.0046247593,0.00013256962,0.00056111417],"about_ca_topic_score_codex":0.00012846364,"about_ca_topic_score_gemma":0.0006998318,"teacher_disagreement_score":0.94015527,"about_ca_system_score_codex":0.00031700134,"about_ca_system_score_gemma":0.00006031176,"threshold_uncertainty_score":0.9999892},"labels":[],"label_agreement":null},{"id":"W2103359916","doi":"10.1093/cercor/12.8.840","title":"Neurophysiological Evidence of Error-monitoring Deficits in Patients with Schizophrenia","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":193,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Rotman Research Institute, Baycrest; National Alliance for Research on Schizophrenia and Depression","keywords":"Neurophysiology; Schizophrenia (object-oriented programming); Neuroscience; Psychology; Cognitive psychology; Audiology; Medicine; Psychiatry","score_opus":0.18619669282552684,"score_gpt":0.3404152421583407,"score_spread":0.15421854933281384,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2103359916","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99916065,0.000067662324,4.762355e-7,0.000087392575,0.0002649309,0.00018197234,0.000003328371,0.000041886542,0.00019173221],"genre_scores_gemma":[0.9996691,0.000022361273,0.000047002028,0.000114474635,0.000032027798,0.000008643608,2.3817711e-7,0.000010376152,0.00009579534],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9987047,0.00009291505,0.00023230576,0.0004590073,0.00023048518,0.00028062926],"domain_scores_gemma":[0.9994932,0.00010440959,0.0001023547,0.00021229258,0.000035992973,0.00005178955],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00002770443,0.00016205915,0.00023552906,0.00006639434,0.000078739184,0.000010559113,0.00025186647,0.000049256327,0.000072695184],"category_scores_gemma":[0.00012680182,0.000108706605,0.000042716394,0.0003743633,0.0002351974,0.00020775957,0.00009781841,0.00023266934,0.00006890981],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003689672,0.00030306572,0.8096074,0.0000124926855,0.0000013779832,0.000028201743,0.000048134807,0.000006110677,0.18623401,0.000020862337,0.00004176753,0.0033276242],"study_design_scores_gemma":[0.00071400905,0.000946436,0.97786784,0.00008434669,0.0000071985846,0.000002391881,0.0000075916273,0.000012406468,0.020177942,0.00003886814,0.00000531068,0.00013563264],"about_ca_topic_score_codex":0.000007569777,"about_ca_topic_score_gemma":0.00000267021,"teacher_disagreement_score":0.16826048,"about_ca_system_score_codex":0.000013706953,"about_ca_system_score_gemma":0.0000032653202,"threshold_uncertainty_score":0.44329268},"labels":[],"label_agreement":null},{"id":"W2103418189","doi":"10.1093/cercor/bhu213","title":"Midcingulate Motor Map and Feedback Detection: Converging Data from Humans and Monkeys","year":2014,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":133,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Agence Nationale de la Recherche","keywords":"Salience (neuroscience); Neuroscience; Cingulate cortex; Premotor cortex; Psychology; Mirror neuron; Primate; Cognitive psychology; Anterior cingulate cortex; Biology; Cognition; Anatomy","score_opus":0.23601541169161336,"score_gpt":0.3976031536572989,"score_spread":0.16158774196568557,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2103418189","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.039941233,0.95649284,0.000011486367,0.00009860742,0.0019108987,0.0006829662,0.00050323264,0.00015601759,0.00020269689],"genre_scores_gemma":[0.008976839,0.98818105,0.000034347042,0.00033628716,0.0004873223,0.000026010528,0.00007518646,0.000060292637,0.0018226511],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99726564,0.00020181002,0.00046630052,0.0015273187,0.00017472643,0.00036423697],"domain_scores_gemma":[0.99845505,0.00023653705,0.00030307597,0.00084451353,0.000017999419,0.00014283427],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00008613055,0.0005130251,0.0012501201,0.000096750926,0.00038912153,0.00013264662,0.0005846781,0.00024572288,0.00012045032],"category_scores_gemma":[0.00006418912,0.00039066118,0.000114039925,0.00013143863,0.000455197,0.00022157656,0.00091074954,0.0005192215,0.00021485792],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020150415,0.000041966043,0.0003735725,0.0025953394,0.000055428158,0.00008683126,0.00004814929,9.558504e-9,0.0023806742,0.000017090737,0.0018786257,0.99250215],"study_design_scores_gemma":[0.00042443775,0.00014112673,0.0014935256,0.001601852,0.00073461357,0.00010151004,0.000016687854,0.00003193211,0.00016863244,0.00022338788,0.99436706,0.00069525995],"about_ca_topic_score_codex":0.00007651756,"about_ca_topic_score_gemma":0.00007409314,"teacher_disagreement_score":0.9924884,"about_ca_system_score_codex":0.000021485239,"about_ca_system_score_gemma":0.00001580499,"threshold_uncertainty_score":0.9998545},"labels":[],"label_agreement":null},{"id":"W2103461294","doi":"10.1093/cercor/bhu064","title":"The Richness of Task-Evoked Hemodynamic Responses Defines a Pseudohierarchy of Functionally Meaningful Brain Networks","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; Institut Universitaire de Gériatrie de Montréal; Université de Montréal","funders":"","keywords":"Context (archaeology); Neuroscience; Psychology; Functional magnetic resonance imaging; Cognition; Task (project management); Frontal lobe; Brain activity and meditation; Cognitive psychology; Electroencephalography; Biology","score_opus":0.016800310111128675,"score_gpt":0.24112090513936663,"score_spread":0.22432059502823795,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2103461294","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9819328,0.00016380995,0.0063169673,0.0061509362,0.0009544899,0.00031902996,0.0000324732,0.00010276644,0.004026701],"genre_scores_gemma":[0.99600065,0.000018805034,0.0001338469,0.0014772231,0.00014863632,0.000034041073,0.0000039440583,0.000030002397,0.0021528604],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99755925,0.0005565251,0.000452553,0.000515779,0.00054542895,0.00037046234],"domain_scores_gemma":[0.97950685,0.019342842,0.00035028136,0.0005146472,0.00022095388,0.00006442031],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.0008472888,0.0002333953,0.0003656521,0.00013519252,0.00046691124,0.000034205023,0.00046478832,0.00008487026,0.000030069055],"category_scores_gemma":[0.017696477,0.00017295951,0.0001759819,0.00064559066,0.0007163916,0.00015730338,0.000245456,0.00023678485,0.000014214256],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0042675594,0.00043901626,0.050617225,0.00019923004,0.0002136635,0.000010553631,0.00059283676,0.005060769,0.57688314,0.32389927,0.025737902,0.012078813],"study_design_scores_gemma":[0.0034331337,0.0021204243,0.76017696,0.000208217,0.0001385811,0.00017082065,0.00040157652,0.11796259,0.03358138,0.052266836,0.028362343,0.0011771542],"about_ca_topic_score_codex":0.00002707479,"about_ca_topic_score_gemma":0.00009928825,"teacher_disagreement_score":0.70955974,"about_ca_system_score_codex":0.000044608536,"about_ca_system_score_gemma":0.000098228666,"threshold_uncertainty_score":0.9905779},"labels":[],"label_agreement":null},{"id":"W2103592502","doi":"10.1093/cercor/bhr326","title":"Dopamine D4 Receptor Transmission in the Prefrontal Cortex Controls the Salience of Emotional Memory via Modulation of Calcium Calmodulin-Dependent Kinase II","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":29,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Prefrontal cortex; Psychology; Chemistry; Cognition","score_opus":0.06087385296634753,"score_gpt":0.30528953345243653,"score_spread":0.244415680486089,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2103592502","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997088,0.000029081362,0.0005065243,0.00037125553,0.00037252074,0.0008708585,0.00004121725,0.000018392091,0.0007021088],"genre_scores_gemma":[0.99888104,0.000031729018,0.000025713018,0.0005055286,0.000049407518,0.000039500006,0.0000023449545,0.000014966526,0.00044977333],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9969605,0.00069286115,0.0005294486,0.0005414082,0.00086823583,0.00040753634],"domain_scores_gemma":[0.99884576,0.00033278746,0.00023678342,0.00040285932,0.000083435094,0.00009839473],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006020501,0.00019086916,0.00026549914,0.0001311489,0.00028718557,0.0000137365105,0.0010069989,0.00007821871,0.00042155266],"category_scores_gemma":[0.0001876979,0.00011471069,0.00011384779,0.0004969325,0.0008597307,0.00028845426,0.00014770188,0.00043271654,0.000015425774],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037221797,0.00047130737,0.0012999391,0.000018728948,0.0000023970401,0.000029261984,0.0008526114,0.000040152518,0.99363625,0.00027073064,0.00003267685,0.0029737444],"study_design_scores_gemma":[0.001046871,0.00073522213,0.20892602,0.000019382558,0.000014095184,0.000050291652,0.00009960464,0.0076593985,0.7810135,0.00027233872,0.000045149616,0.00011812146],"about_ca_topic_score_codex":0.00012146236,"about_ca_topic_score_gemma":0.000013502314,"teacher_disagreement_score":0.21262273,"about_ca_system_score_codex":0.000032214677,"about_ca_system_score_gemma":0.000115134535,"threshold_uncertainty_score":0.4677766},"labels":[],"label_agreement":null},{"id":"W2103794698","doi":"10.1093/cercor/bhl124","title":"Brain Mechanisms Implicated in the Preattentive Categorization of Speech Sounds Revealed Using fMRI and a Short-Interval Habituation Trial Paradigm","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":127,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Institute on Deafness and Other Communication Disorders; National Institutes of Health; National Science Foundation","keywords":"Habituation; Psychology; Stimulus (psychology); Oddball paradigm; Categorization; Perception; Functional magnetic resonance imaging; Categorical perception; Planum temporale; Neuroscience; Superior temporal gyrus; Speech perception; Audiology; Cognitive psychology; Cognition; Event-related potential; Computer science; Artificial intelligence; Medicine","score_opus":0.047871641387102426,"score_gpt":0.2992055189036793,"score_spread":0.2513338775165769,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2103794698","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9897292,0.0000021982748,0.008426524,0.00044610677,0.00020905763,0.0008401049,0.000010254427,0.000027662703,0.00030884592],"genre_scores_gemma":[0.99927455,0.0000033413266,0.000085604785,0.00040320764,0.00009901395,0.00002313137,0.000016436637,0.0000109431585,0.00008375047],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99843144,0.00024140056,0.0003529399,0.00043314978,0.0003106125,0.00023047792],"domain_scores_gemma":[0.9994928,0.00010288058,0.00013849966,0.00021080356,0.000026583433,0.000028433731],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036398775,0.00013421018,0.00017601799,0.00013359447,0.000136896,0.00008457027,0.00019575763,0.000067970774,0.000016067213],"category_scores_gemma":[0.00013280354,0.000104696584,0.000051992833,0.00054424966,0.0001479231,0.0003572446,0.000043962405,0.000120061166,0.0000027529925],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038552043,0.00008195256,0.00051095465,0.00000766665,6.713397e-7,0.000005488061,0.0003028946,0.000017563614,0.99176025,0.00580503,0.00008556383,0.0010364488],"study_design_scores_gemma":[0.021300536,0.002191612,0.48687232,0.00012196384,0.00012945343,0.00042448167,0.0008326864,0.051416513,0.3193691,0.11625826,0.00015545674,0.00092759926],"about_ca_topic_score_codex":0.0002840888,"about_ca_topic_score_gemma":0.0001545385,"teacher_disagreement_score":0.6723911,"about_ca_system_score_codex":0.00004930592,"about_ca_system_score_gemma":0.00004524684,"threshold_uncertainty_score":0.42694026},"labels":[],"label_agreement":null},{"id":"W2103800256","doi":"10.1093/cercor/bhr305","title":"Effect of Dopamine Transporter Genotype on Intrinsic Functional Connectivity Depends on Cognitive State","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":44,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Center for Research Resources; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"Endophenotype; Neuroscience; Dopamine; Dopaminergic; Cognition; Psychology; Working memory; Dopamine transporter; Impulsivity; Biology; Executive functions; Developmental psychology","score_opus":0.038868564229886056,"score_gpt":0.2517667747912209,"score_spread":0.21289821056133484,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2103800256","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98791224,0.000015327296,0.00034982542,0.000090127745,0.00077999674,0.00045879613,0.00012046013,0.000120218494,0.010153019],"genre_scores_gemma":[0.9983089,0.000009229328,0.000007668735,0.00092024886,0.00008872161,0.000051634168,0.000011418171,0.00003718342,0.00056497444],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9978059,0.0003093459,0.00027317597,0.0007617385,0.0004993421,0.00035048998],"domain_scores_gemma":[0.99443793,0.004926681,0.00016492224,0.0002628928,0.00010604025,0.00010150621],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003342945,0.00032814796,0.00040792962,0.00015642712,0.0001879856,0.000011726357,0.00014608052,0.000076694945,0.00077105756],"category_scores_gemma":[0.0014732428,0.00027083978,0.00016931866,0.00033089894,0.00028509635,0.00018557208,0.00005101481,0.0003461459,0.00035475468],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.08230822,0.004328485,0.19417731,0.00090988964,0.00093956897,0.00070505106,0.0026392136,0.00012839441,0.20582457,0.014833936,0.002386667,0.49081868],"study_design_scores_gemma":[0.0020164899,0.006097717,0.51608706,0.00008093948,0.00006058577,0.000019884563,0.00002366509,0.000028455333,0.47479987,0.00038791134,0.00012369767,0.00027370334],"about_ca_topic_score_codex":0.000066019216,"about_ca_topic_score_gemma":0.00006275502,"teacher_disagreement_score":0.490545,"about_ca_system_score_codex":0.000071246395,"about_ca_system_score_gemma":0.000046887155,"threshold_uncertainty_score":0.99997437},"labels":[],"label_agreement":null},{"id":"W2104196958","doi":"10.1093/cercor/bhr075","title":"Distinct Patterns of Functional and Effective Connectivity between Perirhinal Cortex and Other Cortical Regions in Recognition Memory and Perceptual Discrimination","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto; University Health Network; Toronto Western Hospital; Western University","funders":"Canadian Institutes of Health Research","keywords":"Perirhinal cortex; Functional magnetic resonance imaging; Recognition memory; Psychology; Neuroscience; Perception; Cognitive psychology; Prefrontal cortex; Functional specialization; Temporal lobe; Cognition","score_opus":0.09574268724461078,"score_gpt":0.27933365974736984,"score_spread":0.18359097250275908,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2104196958","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99718463,0.000009007494,0.0008411269,0.000047658345,0.00008373207,0.0003853843,0.00017030026,0.000030712305,0.0012474182],"genre_scores_gemma":[0.9996594,0.000023278375,0.000034493703,0.000111417205,0.0000492644,0.000029926934,0.00003234572,0.000014770147,0.000045081764],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9987144,0.00029951372,0.00022537165,0.0004308823,0.00015768208,0.00017217829],"domain_scores_gemma":[0.99933827,0.00033052202,0.000094072464,0.00008380155,0.000041234176,0.00011212907],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018732646,0.00015674431,0.00022000521,0.00012677826,0.0001318834,0.000024000004,0.000035409597,0.00010252916,0.00053883024],"category_scores_gemma":[0.00025219156,0.0001463854,0.00003339699,0.000094770345,0.00034667546,0.00028240413,0.000051498868,0.00022540621,0.000010913132],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035311282,0.0002169092,0.8797506,0.00013101776,0.000011278235,0.0000073384513,0.005594215,6.896958e-8,0.05494017,0.0008847034,0.00001387217,0.05809668],"study_design_scores_gemma":[0.00092670566,0.00034581736,0.9935851,0.000071132905,0.00004340226,0.00006447704,0.0013265798,0.00027269236,0.0019130907,0.0012640603,0.000008393274,0.0001785249],"about_ca_topic_score_codex":0.00022740822,"about_ca_topic_score_gemma":0.00036508215,"teacher_disagreement_score":0.11383449,"about_ca_system_score_codex":0.000030894582,"about_ca_system_score_gemma":0.000014707374,"threshold_uncertainty_score":0.5969423},"labels":[],"label_agreement":null},{"id":"W2104358003","doi":"10.1093/cercor/bhq221","title":"Rapid Adaptation of Visual Search in Simulated Hemianopia","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Visual search; Hemianopsia; Fixation (population genetics); Eye movement; Visual field; Gaze; Perception; Adaptation (eye); Psychology; Blind spot; Visual perception; Eye tracking; Cognitive psychology; Audiology; Computer science; Artificial intelligence; Neuroscience; Medicine","score_opus":0.032280888122296215,"score_gpt":0.2831489349468864,"score_spread":0.2508680468245902,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2104358003","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980922,0.000008420183,0.00025682632,0.00008019307,0.00022455378,0.00020585554,0.000004926488,0.000033462933,0.0010935991],"genre_scores_gemma":[0.99946755,0.0000037219143,0.00008879311,0.00010865473,0.000049859093,0.0000031406921,0.00000638082,0.000010371773,0.0002615488],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.99905044,0.0000672453,0.00023088911,0.00023384766,0.00023097229,0.0001866296],"domain_scores_gemma":[0.9995717,0.00012809636,0.00006793013,0.00012879986,0.000047042762,0.000056472953],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001314463,0.00008393016,0.00012758779,0.00011816321,0.000039296643,0.000018157805,0.00012626339,0.00007316621,0.0003192134],"category_scores_gemma":[0.0002450919,0.00007879878,0.000039016293,0.0002950764,0.00006490737,0.00017589526,0.000024375484,0.00023130584,0.00004403273],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006693553,0.00007193988,0.0017773368,0.000010089346,9.916124e-7,0.000005595998,0.00025864886,0.00056838215,0.9679883,0.0014498046,0.0000034774912,0.027798468],"study_design_scores_gemma":[0.0018501058,0.0002483358,0.1960779,0.000017353152,0.0000054458783,0.0000051354004,0.000121731355,0.59721327,0.20324737,0.00036747477,0.0006608078,0.00018509195],"about_ca_topic_score_codex":0.0001787958,"about_ca_topic_score_gemma":0.00015526214,"teacher_disagreement_score":0.76474094,"about_ca_system_score_codex":0.000011798645,"about_ca_system_score_gemma":0.00005802327,"threshold_uncertainty_score":0.34951627},"labels":[],"label_agreement":null},{"id":"W2104491852","doi":"10.1093/cercor/bht059","title":"Neural Correlates of Covert Face Processing: fMRI Evidence from a Prosopagnosic Patient","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Key Research and Development Program of China; Fundamental Research Funds for the Central Universities; National Institutes of Health; National Natural Science Foundation of China","keywords":"Fusiform face area; Psychology; Covert; Fusiform gyrus; Neural correlates of consciousness; Neuroscience; Face perception; Contrast (vision); Face (sociological concept); Neural substrate; Cognitive psychology; Audiology; Functional magnetic resonance imaging; Cognition; Perception; Medicine; Artificial intelligence; Computer science","score_opus":0.047164533419697764,"score_gpt":0.26878045692974745,"score_spread":0.2216159235100497,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2104491852","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99764913,0.0001409711,0.00013851219,0.0004033347,0.00030311028,0.00058380445,0.000028536882,0.0000987776,0.00065384054],"genre_scores_gemma":[0.99867016,0.000048445494,0.00008822525,0.0007231002,0.000035421093,0.00006706994,0.000011915511,0.00001737924,0.00033827664],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998614,0.0000983202,0.00030993443,0.0004128872,0.00032275228,0.00024211804],"domain_scores_gemma":[0.99921966,0.00017407721,0.00019312275,0.00019849224,0.0001021731,0.00011249224],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00003485955,0.00016533319,0.00018946607,0.000052513697,0.00010304261,0.00009156073,0.00019832986,0.000081737315,0.0023627281],"category_scores_gemma":[0.00032889406,0.00013935321,0.00007350356,0.00022857236,0.00014310799,0.000770275,0.00006960866,0.00018552926,0.001022369],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006586046,0.00019407166,0.055023275,0.000076459546,0.000003545102,0.0000047563726,0.0022039486,0.0000651948,0.84504044,0.000020047588,0.0028847174,0.09441769],"study_design_scores_gemma":[0.0008362163,0.0008615997,0.5730133,0.0006864935,0.00004151141,0.000033028013,0.0007899859,0.075078145,0.34645185,0.0012462245,0.00032472683,0.00063687924],"about_ca_topic_score_codex":0.00021248053,"about_ca_topic_score_gemma":0.0000116038,"teacher_disagreement_score":0.51799005,"about_ca_system_score_codex":0.000031374526,"about_ca_system_score_gemma":0.000047596302,"threshold_uncertainty_score":0.99975544},"labels":[],"label_agreement":null},{"id":"W2104674917","doi":"10.1093/cercor/bhr096","title":"Altered Bidirectional Plasticity and Reduced Implicit Motor Learning in Concussed Athletes","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Traumatic Brain Injury Research","field":"Medicine","cited_by":133,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre Hospitalier Universitaire Sainte-Justine; Université de Montréal; McGill University; Douglas Mental Health University Institute","funders":"Canadian Institutes of Health Research","keywords":"Long-term potentiation; Neuroscience; Synaptic plasticity; Psychology; Serial reaction time; Primary motor cortex; Motor learning; Neuroplasticity; Motor cortex; Homeostatic plasticity; Metaplasticity; Cognition; Medicine; Stimulation; Internal medicine; Receptor","score_opus":0.0747526176868097,"score_gpt":0.3094751364417727,"score_spread":0.23472251875496303,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2104674917","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919981,0.00004658157,0.00004114643,0.0001630987,0.00013449675,0.00039770227,0.000007852406,0.000106826636,0.0071042283],"genre_scores_gemma":[0.997097,0.000010540918,0.0009252817,0.000120895995,0.00013215413,0.00003811877,0.000012177635,0.000026800839,0.0016370419],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99867785,0.00008472769,0.00029226358,0.0003386238,0.00024659288,0.00035996045],"domain_scores_gemma":[0.999312,0.0002009619,0.000063069674,0.00014001704,0.00007447918,0.00020947472],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00020805014,0.00015075285,0.000307117,0.00019504047,0.000079434576,0.000019032408,0.000081361424,0.00010515824,0.0012157566],"category_scores_gemma":[0.00046177267,0.00013350813,0.000051481715,0.00020707211,0.00014866224,0.0000919324,0.000065907116,0.00046247357,0.00006595098],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015313115,0.0003023838,0.57505053,0.00021064229,0.00012996451,0.00007543879,0.002291983,9.558645e-7,0.39680836,0.0010022969,0.0011435988,0.021452527],"study_design_scores_gemma":[0.0018203917,0.00061017304,0.9911659,0.00011033316,0.00002092404,0.00009042776,0.00020988374,0.0010328951,0.0043202518,0.00026186928,0.00022122721,0.00013572564],"about_ca_topic_score_codex":0.00023835085,"about_ca_topic_score_gemma":0.000033673332,"teacher_disagreement_score":0.41611534,"about_ca_system_score_codex":0.00007593515,"about_ca_system_score_gemma":0.000118785334,"threshold_uncertainty_score":0.99969727},"labels":[],"label_agreement":null},{"id":"W2104909025","doi":"10.1093/cercor/bht051","title":"Functional Networks in Parallel with Cortical Development Associate with Executive Functions in Children","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Douglas Mental Health University Institute; McGill University","funders":"","keywords":"Working memory; Neuroscience; Functional magnetic resonance imaging; Cognition; Psychology; Functional organization; Executive functions; Default mode network; Cognitive psychology","score_opus":0.01760567387442184,"score_gpt":0.21188425439570555,"score_spread":0.19427858052128372,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2104909025","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99252915,0.00002213913,0.0028239696,0.0010803269,0.00014695601,0.0007340528,0.0000050877943,0.000090424095,0.002567874],"genre_scores_gemma":[0.9960814,0.0000027681183,0.00028981693,0.0015710136,0.00007083928,0.00038904083,0.000018964683,0.000028146747,0.0015479715],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99794996,0.00014670067,0.0002986163,0.000630173,0.00041376145,0.00056077144],"domain_scores_gemma":[0.99850774,0.0010129631,0.00010255886,0.00018339766,0.000083452665,0.000109879555],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015251766,0.0002698129,0.00029157827,0.0001711885,0.00027758454,0.00006650047,0.00013595894,0.00009166925,0.00026555994],"category_scores_gemma":[0.00048169424,0.00020748675,0.000035500318,0.00072696764,0.00022128754,0.00039082693,0.000103298975,0.00055322866,0.00021184822],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025153166,0.00027486504,0.98934114,0.000003019458,0.000047821268,0.000013845554,0.00019346343,0.00487925,0.00019897523,0.0007699618,0.0034156071,0.0006105091],"study_design_scores_gemma":[0.0015860709,0.00021409547,0.9957986,0.00003527103,0.0000097427765,0.000051291016,0.00021043967,0.0013499828,0.00013320023,0.00017009562,0.00013117742,0.00031007102],"about_ca_topic_score_codex":0.00021745129,"about_ca_topic_score_gemma":0.0015580838,"teacher_disagreement_score":0.0064574117,"about_ca_system_score_codex":0.00031166102,"about_ca_system_score_gemma":0.00017761918,"threshold_uncertainty_score":0.8461064},"labels":[],"label_agreement":null},{"id":"W2105157234","doi":"10.1093/cercor/bhs313","title":"Strength of Retinotopic Representation of Visual Memories is Modulated by Strategy","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Medical Research Council","keywords":"Functional magnetic resonance imaging; Perception; Visual cortex; Psychology; Coding (social sciences); Stimulus (psychology); Working memory; Cognitive psychology; Visual short-term memory; Visual perception; Visual memory; Neuroscience; Cognition","score_opus":0.054817658395625114,"score_gpt":0.34432262813088815,"score_spread":0.289504969735263,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2105157234","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99735105,0.000029687442,0.00021862304,0.00003617618,0.00020165349,0.000102634556,0.000028190552,0.000040438303,0.0019915234],"genre_scores_gemma":[0.998525,0.000014227514,0.00007119569,0.00015185615,0.000046752713,0.00000285971,0.00001613117,0.000011712645,0.001160223],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989685,0.00008712754,0.000288128,0.00020006757,0.00026468252,0.00019149124],"domain_scores_gemma":[0.99947953,0.0000396527,0.00019965586,0.00015223821,0.000054139462,0.000074781565],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00007950926,0.000102324615,0.00017699157,0.000051758678,0.000056150267,0.000016533744,0.000118829885,0.00007525811,0.0011588683],"category_scores_gemma":[0.00010038764,0.000093854214,0.0000503959,0.00028576973,0.000102169164,0.0002923539,0.000033035758,0.00008083778,0.000024661642],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000027587921,0.00013150461,0.002859321,0.000038554645,0.000002952007,2.0723309e-7,0.00073788443,0.0000023361795,0.9897079,0.00073283777,0.00055484654,0.0052040666],"study_design_scores_gemma":[0.00026241931,0.00018505857,0.018017126,0.000015134278,0.000010694635,0.000002846725,0.00033186591,0.0013238322,0.97910804,0.0005647528,0.00008126401,0.00009696245],"about_ca_topic_score_codex":0.00003076496,"about_ca_topic_score_gemma":0.0000011368688,"teacher_disagreement_score":0.015157806,"about_ca_system_score_codex":0.0000109105185,"about_ca_system_score_gemma":0.000023684168,"threshold_uncertainty_score":0.9997542},"labels":[],"label_agreement":null},{"id":"W2105250545","doi":"10.1093/cercor/bhh057","title":"A Voxel-based Morphometric Study to Determine Individual Differences in Gray Matter Density Associated with Age and Cognitive Change Over Time","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Dementia and Cognitive Impairment Research","field":"Medicine","cited_by":276,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital","funders":"","keywords":"Gray (unit); Voxel-based morphometry; Voxel; Cognition; Psychology; Prefrontal cortex; Cognitive decline; Effects of sleep deprivation on cognitive performance; Magnetic resonance imaging; Temporal lobe; Audiology; Neuroscience; White matter; Medicine; Pathology; Dementia; Nuclear medicine","score_opus":0.03774872766805039,"score_gpt":0.29023693679941154,"score_spread":0.25248820913136116,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2105250545","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974468,0.000028258208,0.000033698638,0.0001793576,0.000018846858,0.0019945551,0.000041355077,0.000033760625,0.00022339857],"genre_scores_gemma":[0.9977151,9.453814e-7,0.000028394288,0.001549515,0.00003396585,0.00013949635,0.00009869079,0.000023129147,0.00041076166],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99817455,0.00011202278,0.000203339,0.00044448348,0.00061720284,0.0004483758],"domain_scores_gemma":[0.999299,0.000120983765,0.000063563624,0.00012337738,0.000140319,0.0002527827],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002761102,0.00023088099,0.0004318079,0.00066833565,0.00007321459,0.00007122614,0.0000844674,0.000057157216,0.0006772042],"category_scores_gemma":[0.00014297021,0.00017257089,0.000039175575,0.0010560633,0.000117123884,0.00010724413,0.000108413726,0.00023937378,0.0001270621],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00046007658,0.0016964851,0.9934854,0.000021593549,0.00014882836,0.0011277116,0.0008593094,2.9191776e-8,0.00023508545,4.2509078e-7,0.000027249114,0.0019377868],"study_design_scores_gemma":[0.009841883,0.004692931,0.98394305,0.00029496299,0.00026245604,0.000013846183,0.00035348057,0.000017911947,0.00034727517,0.00001692294,9.866635e-7,0.00021427033],"about_ca_topic_score_codex":0.00034867792,"about_ca_topic_score_gemma":0.00081538985,"teacher_disagreement_score":0.009542347,"about_ca_system_score_codex":0.00009086764,"about_ca_system_score_gemma":0.00007800619,"threshold_uncertainty_score":0.7414912},"labels":[],"label_agreement":null},{"id":"W2105604325","doi":"10.1093/cercor/bhm007","title":"Wavelength-Dependent Modulation of Brain Responses to a Working Memory Task by Daytime Light Exposure","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Circadian rhythm and melatonin","field":"Neuroscience","cited_by":279,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Wellcome Trust","keywords":"Melanopsin; Neuroscience; Working memory; Photic Stimulation; Functional magnetic resonance imaging; Arousal; Psychology; Brain activity and meditation; Cognition; Retina; Visual perception; Electroencephalography; Perception","score_opus":0.0201135897208127,"score_gpt":0.257001956917004,"score_spread":0.2368883671961913,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2105604325","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99244034,0.00012542415,0.0006305258,0.000744897,0.0004326666,0.00036884903,0.000028986442,0.00009130151,0.0051370147],"genre_scores_gemma":[0.9891513,0.0000049253717,0.00014977297,0.0011518411,0.00015807204,0.0000076370225,0.000005478334,0.000033851316,0.009337135],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99803835,0.00012070174,0.00042289912,0.0005209758,0.00043773509,0.00045931726],"domain_scores_gemma":[0.99880576,0.0003461744,0.00015535188,0.000408106,0.00003851239,0.00024610775],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00052196,0.00018968698,0.00023582765,0.00021484144,0.0001240713,0.000037217676,0.00023801303,0.00013011637,0.00015513327],"category_scores_gemma":[0.0005538759,0.00019028128,0.00008736665,0.00043667076,0.000054264798,0.00015798873,0.00008662912,0.0001938481,0.00013732605],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021974884,0.000056479385,0.0031293593,0.000010756975,0.0000046627915,0.000047105914,0.0010541906,0.000008929846,0.9579225,0.0012513882,0.0023648022,0.033930045],"study_design_scores_gemma":[0.0007091244,0.00020640361,0.1175515,0.00006335834,0.000011170001,0.000064074346,0.00015940674,0.00033242154,0.8682744,0.000121855024,0.0121859545,0.00032033512],"about_ca_topic_score_codex":0.000017545595,"about_ca_topic_score_gemma":0.000018933079,"teacher_disagreement_score":0.114422135,"about_ca_system_score_codex":0.000082440216,"about_ca_system_score_gemma":0.000059326252,"threshold_uncertainty_score":0.7759446},"labels":[],"label_agreement":null},{"id":"W2105992223","doi":"10.1093/cercor/bhj046","title":"Reward Encoding in the Monkey Anterior Cingulate Cortex","year":2005,"lang":"es","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":358,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Centre National de la Recherche Scientifique; Fondation Fyssen; Institut National de la Santé et de la Recherche Médicale; McGill University","keywords":"Stimulus (psychology); Macaque; Anterior cingulate cortex; Psychology; Neuroscience; Cognitive psychology; Cognition","score_opus":0.0828465637416248,"score_gpt":0.35744225488453013,"score_spread":0.27459569114290533,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2105992223","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9838482,0.0006406488,0.0000016148737,0.0077847303,0.001301728,0.0005574988,0.000033246677,0.00009825352,0.005734086],"genre_scores_gemma":[0.99044895,0.00054066174,0.000032219126,0.006388386,0.0005428655,0.00002906353,0.00000250168,0.000036704183,0.0019786214],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99651057,0.00034406758,0.0007153375,0.001038259,0.00046393127,0.0009278193],"domain_scores_gemma":[0.99873775,0.00017913377,0.00026669094,0.00065565377,0.00004454414,0.000116239426],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00035152133,0.00048586013,0.0005447348,0.00018417109,0.00050471973,0.00024679996,0.000989155,0.00018645452,0.0002824982],"category_scores_gemma":[0.000113027745,0.00033293475,0.00023349203,0.0007070626,0.0005817356,0.0004188347,0.00027826385,0.0008116518,0.0007251046],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025324215,0.0007365885,0.26685888,0.00007613994,0.000022303224,0.00092645315,0.003652373,0.000009424541,0.67374825,0.00058830285,0.005796838,0.04733121],"study_design_scores_gemma":[0.0011446328,0.00047944457,0.9688884,0.0002430377,0.000085122905,0.0002851371,0.00060375774,0.00020141675,0.012209201,0.00015288247,0.015079687,0.00062729657],"about_ca_topic_score_codex":0.000112909656,"about_ca_topic_score_gemma":0.00018184299,"teacher_disagreement_score":0.70202947,"about_ca_system_score_codex":0.00007647808,"about_ca_system_score_gemma":0.000032488446,"threshold_uncertainty_score":0.99991226},"labels":[],"label_agreement":null},{"id":"W2106003398","doi":"10.1093/cercor/12.11.1218","title":"Asymmetry of the Uncinate Fasciculus: A Post-mortem Study of Normal Subjects and Patients with Schizophrenia","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":205,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Queen's University; Wellcome Trust","keywords":"Uncinate fasciculus; Fasciculus; Inferior longitudinal fasciculus; Anatomy; Psychology; White matter; Neuroscience; Medicine; Fractional anisotropy; Magnetic resonance imaging; Radiology","score_opus":0.021300954928712566,"score_gpt":0.2541216520114659,"score_spread":0.23282069708275335,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2106003398","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99846923,0.00003634842,0.00003497746,0.00014902983,0.000016646587,0.000740148,0.000014980289,0.000038265847,0.0005003561],"genre_scores_gemma":[0.99908245,0.0000043744035,0.0006402207,0.00011475562,0.00001087235,0.000014584645,0.0000035673843,0.000015503867,0.000113690585],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99925923,0.000019082278,0.00019375878,0.00018954895,0.00021986502,0.00011848425],"domain_scores_gemma":[0.99923617,0.00001886479,0.00014876835,0.00037915754,0.0001641492,0.0000529158],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00003122251,0.000105362014,0.00019904904,0.000052079875,0.000059293725,0.0000038943363,0.00009977792,0.000024685745,0.000019431844],"category_scores_gemma":[0.000026623764,0.000063829786,0.000032980304,0.00028718592,0.00009734896,0.000059099948,0.00008204541,0.00013603785,0.0000010883755],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000184223,0.0010223015,0.99007124,0.000059727543,0.000035235327,0.0000033337312,0.00029457518,0.0000012832784,0.002122612,0.00023031898,0.00013627415,0.0058388505],"study_design_scores_gemma":[0.0022951977,0.001246083,0.9937788,0.000056477136,0.00008691578,0.000010892984,0.00015556594,0.000119263495,0.0021024067,0.000037082224,0.000039184953,0.000072095485],"about_ca_topic_score_codex":0.00003794943,"about_ca_topic_score_gemma":0.000017813385,"teacher_disagreement_score":0.005766755,"about_ca_system_score_codex":0.000012254708,"about_ca_system_score_gemma":0.000013354297,"threshold_uncertainty_score":0.26029032},"labels":[],"label_agreement":null},{"id":"W2106417364","doi":"10.1093/cercor/bht116","title":"The Effects of Focal and Nonfocal Cues on the Neural Correlates of Prospective Memory: Insights From ERPs","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cognitive Functions and Memory","field":"Psychology","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"","keywords":"Task (project management); Neural correlates of consciousness; Process (computing); Psychology; Prospective memory; Perspective (graphical); Cognitive psychology; Computer science; Cognition; Artificial intelligence; Neuroscience","score_opus":0.008247589354606094,"score_gpt":0.23321597219181714,"score_spread":0.22496838283721105,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2106417364","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9826662,0.00092075375,0.000025344929,0.00019518574,0.0011847122,0.0007374705,0.000010063901,0.00002104149,0.014239252],"genre_scores_gemma":[0.9979453,0.000015120713,0.000004853175,0.0001627691,0.00011799928,0.000104383325,0.000004735333,0.000014658855,0.0016301664],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99910337,0.00015617149,0.00020182402,0.00023620091,0.00013196233,0.00017047745],"domain_scores_gemma":[0.9976085,0.0017896574,0.00012601628,0.0002959909,0.00012801126,0.000051870327],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005445819,0.00014433124,0.00021123709,0.000036657595,0.00015663533,0.000021173331,0.000137717,0.000082349965,0.00035697484],"category_scores_gemma":[0.000166729,0.000074146184,0.00007798755,0.000107383974,0.00044746973,0.00006656862,0.000064566695,0.00024667743,0.000094604045],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0027547104,0.0016842231,0.35402337,0.00014260602,0.002191203,0.000050952312,0.024247887,0.0000036215902,0.042557992,0.1775603,0.047342967,0.34744015],"study_design_scores_gemma":[0.00083459326,0.0008851164,0.98416746,0.00004668948,0.00006725887,0.000004563304,0.0019223487,0.00018451696,0.0039903205,0.0075984243,0.00019576862,0.00010297132],"about_ca_topic_score_codex":0.0005593228,"about_ca_topic_score_gemma":0.00011564927,"teacher_disagreement_score":0.63014406,"about_ca_system_score_codex":0.000012140843,"about_ca_system_score_gemma":0.000017494222,"threshold_uncertainty_score":0.39086244},"labels":[],"label_agreement":null},{"id":"W2106575268","doi":"10.1093/cercor/bhr222","title":"Changes in Regional and Temporal Patterns of Activity Associated with Aging during the Performance of a Lexical Set-Shifting Task","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Institut Universitaire de Gériatrie de Montréal","funders":"","keywords":"Set (abstract data type); Psychology; Cognition; Task (project management); Affect (linguistics); Working memory; Prefrontal cortex; Period (music); Brain activity and meditation; Effects of sleep deprivation on cognitive performance; Developmental psychology; Audiology; Cognitive psychology; Neuroscience; Electroencephalography; Communication; Medicine; Computer science","score_opus":0.13187864216023532,"score_gpt":0.3082216121098662,"score_spread":0.1763429699496309,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2106575268","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9995713,0.000009908531,3.8762875e-7,0.00019700616,0.000035382134,0.000108375156,0.000010824568,0.000014518773,0.00005224622],"genre_scores_gemma":[0.9998098,0.000016482005,0.000004368868,0.00007969167,0.000011645059,0.0000066350344,5.1955595e-7,0.0000065092445,0.00006435371],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99926245,0.0000728965,0.00012419307,0.00022274036,0.00013312283,0.0001846247],"domain_scores_gemma":[0.9996463,0.00005499237,0.00015798636,0.00010010255,0.000017552578,0.000023072302],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009678472,0.00010030103,0.00017518795,0.0000454654,0.000094582225,0.000004221177,0.00011695356,0.000034987672,0.0000109457205],"category_scores_gemma":[0.000022186496,0.00006118998,0.00002038977,0.00014923564,0.00026323402,0.0001085574,0.0000857392,0.0001775687,3.7313097e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008048677,0.000057321424,0.8574794,0.000021508515,0.000003397796,0.000008843693,0.0007921786,1.2633816e-7,0.14105467,0.0000064202964,0.0000014221929,0.000494228],"study_design_scores_gemma":[0.00032214436,0.00019830237,0.86603147,0.000077490724,0.0000074304353,0.000013180229,0.00013182899,0.000029791721,0.13311167,0.000008506513,0.0000011207549,0.0000670687],"about_ca_topic_score_codex":0.00016076962,"about_ca_topic_score_gemma":0.0006675148,"teacher_disagreement_score":0.008552069,"about_ca_system_score_codex":0.000010512524,"about_ca_system_score_gemma":0.000007031417,"threshold_uncertainty_score":0.24952549},"labels":[],"label_agreement":null},{"id":"W2106740306","doi":"10.1093/cercor/bhu124","title":"Parcellation of Human and Monkey Core Auditory Cortex with fMRI Pattern Classification and Objective Detection of Tonotopic Gradient Reversals","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"International Laboratory for Brain, Music and Sound Research; McGill University; Université de Montréal; Montreal Neurological Institute and Hospital","funders":"Biotechnology and Biological Sciences Research Council; Medical Research Council; Wellcome Trust; Volkswagen Foundation; National Centre for the Replacement, Refinement and Reduction of Animals in Research; University of Nottingham","keywords":"Tonotopy; Auditory cortex; Neuroscience; Functional magnetic resonance imaging; Gyrus; Human brain; Neuroimaging; Functional neuroimaging; Core (optical fiber); Computer science; Psychology","score_opus":0.024125563750900587,"score_gpt":0.24051381265260616,"score_spread":0.21638824890170558,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2106740306","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9978009,0.0000067050405,0.0012840274,0.0000355849,0.00018973043,0.00028104623,0.000007634523,0.000022880862,0.00037151683],"genre_scores_gemma":[0.9997122,0.000016088752,0.000015077849,0.000055768553,0.000057413574,0.000008507694,0.0000070313113,0.000011557889,0.000116313735],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99907255,0.00007615791,0.00022791095,0.0003363778,0.0001735296,0.0001134623],"domain_scores_gemma":[0.9993076,0.00009628004,0.0003100202,0.0001686197,0.00006721831,0.00005027989],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009996576,0.00011461564,0.0001753714,0.00008519,0.0001123843,0.00001530172,0.000052843316,0.000059853828,0.0000079769825],"category_scores_gemma":[0.00005275347,0.00009713178,0.000024814186,0.00012109494,0.0001815173,0.00012916405,0.000028227223,0.00009750847,9.584503e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000043219326,0.000025035553,0.047173366,0.00005452498,0.000004511883,4.2573643e-7,0.00016067381,0.0000051371076,0.9389592,0.0007977412,0.00000907727,0.012767083],"study_design_scores_gemma":[0.00047051473,0.0008170115,0.90776664,0.000035997313,0.000024992578,0.000009296399,0.000079167934,0.014055164,0.075707935,0.00087904715,0.00004186931,0.00011236257],"about_ca_topic_score_codex":0.000100851925,"about_ca_topic_score_gemma":0.00013021876,"teacher_disagreement_score":0.86325127,"about_ca_system_score_codex":0.0000291474,"about_ca_system_score_gemma":0.000009413093,"threshold_uncertainty_score":0.3960919},"labels":[],"label_agreement":null},{"id":"W2106863072","doi":"10.1093/cercor/bhs226","title":"Functional Significance of Atypical Cortical Organization in Spina Bifida Myelomeningocele: Relations of Cortical Thickness and Gyrification with IQ and Fine Motor Dexterity","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spinal Dysraphism and Malformations","field":"Medicine","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Child Health and Human Development; National Institutes of Health","keywords":"Gyrification; Spina bifida; Psychology; Motor cortex; Cerebral cortex; Neuroscience; Cortex (anatomy); Anatomy; Biology","score_opus":0.01486674863311935,"score_gpt":0.2375590188772073,"score_spread":0.22269227024408794,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2106863072","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9898171,0.000121250094,0.009216232,0.00030818576,0.000048530248,0.00033328444,0.000014223884,0.000019818079,0.00012140024],"genre_scores_gemma":[0.99784863,0.000020079613,0.0018471448,0.000040899202,0.00004210869,0.000015166503,0.000089182126,0.00001193072,0.000084864856],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99908555,0.000041938267,0.00036297605,0.00015488379,0.00019529166,0.00015938809],"domain_scores_gemma":[0.9992641,0.000087442,0.000120746685,0.00013993752,0.00025019547,0.00013758561],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001671992,0.000103145496,0.0002348689,0.00012809072,0.00007147041,0.0000064180954,0.000029034038,0.00010109759,0.00014520535],"category_scores_gemma":[0.0003300827,0.000086580316,0.000015847094,0.0005132329,0.00028862047,0.00024473513,0.00002542929,0.0002027669,0.0000040965742],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005662447,0.0002487009,0.93162405,0.00014839822,0.000019853373,9.204382e-7,0.0003177424,0.0000026224611,0.04988762,0.01644105,0.00004923841,0.00069357286],"study_design_scores_gemma":[0.0009962516,0.00036703004,0.9958406,0.000076918346,0.00009265564,0.000082084814,0.00016896814,0.0007579113,0.001416611,0.00008251975,0.00003072877,0.0000877078],"about_ca_topic_score_codex":0.00003061601,"about_ca_topic_score_gemma":0.000014301365,"teacher_disagreement_score":0.06421658,"about_ca_system_score_codex":0.000029220631,"about_ca_system_score_gemma":0.00009655488,"threshold_uncertainty_score":0.35306427},"labels":[],"label_agreement":null},{"id":"W2107473960","doi":"10.1093/cercor/bht042","title":"Imagine All the People: How the Brain Creates and Uses Personality Models to Predict Behavior","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":263,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"National Institute of Mental Health; National Institutes of Health; Social Sciences and Humanities Research Council of Canada; Wellcome Trust","keywords":"Agreeableness; Psychology; Extraversion and introversion; Personality; Big Five personality traits; Functional magnetic resonance imaging; Cognitive psychology; Trait; Posterior cingulate; Brain activity and meditation; Personality psychology; Prefrontal cortex; Social psychology; Neuroscience; Electroencephalography; Cognition; Computer science","score_opus":0.057332883105398996,"score_gpt":0.2641213562759066,"score_spread":0.2067884731705076,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2107473960","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.83573693,0.00007855563,0.00008599947,0.16215974,0.0001839286,0.0008251166,0.000056049477,0.000090716974,0.0007829507],"genre_scores_gemma":[0.97683036,0.000013153087,0.00004176835,0.020255823,0.00013955621,0.00038295268,0.0000023204084,0.000021406751,0.0023126663],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.9983944,0.00019978816,0.00012859856,0.0005511457,0.00037675316,0.00034926343],"domain_scores_gemma":[0.99568284,0.003635486,0.000058974485,0.00041750263,0.00009257775,0.00011259447],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023197329,0.0002149101,0.00018684664,0.000035090026,0.00052278675,0.00031462178,0.00037119832,0.00003750152,0.00014600046],"category_scores_gemma":[0.0018787415,0.000117795455,0.0000723851,0.00023243234,0.00035204654,0.00050878734,0.00033656237,0.00021601288,0.000060864342],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013687334,0.0004039692,0.2079354,0.00007300292,0.00012504891,0.000019538726,0.01200065,0.00011882808,0.15036716,0.016371863,0.6032879,0.009159826],"study_design_scores_gemma":[0.0003472181,0.00019957832,0.9816512,0.000011659978,0.000061683575,0.00007979142,0.0014890998,0.005289755,0.0028381224,0.0031432507,0.0046028397,0.000285822],"about_ca_topic_score_codex":0.0009677853,"about_ca_topic_score_gemma":0.0005332399,"teacher_disagreement_score":0.7737158,"about_ca_system_score_codex":0.000036056987,"about_ca_system_score_gemma":0.00003101949,"threshold_uncertainty_score":0.48035595},"labels":[],"label_agreement":null},{"id":"W2108659084","doi":"10.1093/cercor/bhn058","title":"The Human Brain Distinguishes between Single Odorants and Binary Mixtures","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":65,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Canadian Institutes of Health Research; Vetenskapsrådet","keywords":"Odor; Orbitofrontal cortex; Citral; Neuroscience; Chemistry; Olfaction; Cortex (anatomy); Anterior cingulate cortex; Human brain; Prefrontal cortex; Psychology; Chromatography; Cognition","score_opus":0.1642246937883652,"score_gpt":0.28505734188488857,"score_spread":0.12083264809652336,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2108659084","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99198097,0.00014143315,0.000005145033,0.00067500526,0.00029356402,0.000105274274,0.000013777388,0.00010298687,0.00668187],"genre_scores_gemma":[0.9932927,0.000016662527,0.0000059253784,0.00047752415,0.00024904436,0.0000033794643,0.0000022038867,0.0000129660875,0.005939598],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9989589,0.00012922015,0.00017397423,0.00031204973,0.00017789932,0.00024795055],"domain_scores_gemma":[0.9990342,0.0006070004,0.00007358064,0.00018849743,0.000025046322,0.000071658535],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.000081807404,0.00013905036,0.00015559932,0.00002911876,0.0021179707,0.000057927016,0.0001430678,0.000042353066,0.000031636646],"category_scores_gemma":[0.0006346939,0.000092331225,0.000047103927,0.00012012725,0.00058101636,0.00010635387,0.00009841517,0.0001493318,0.000033465127],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000047954356,0.00008223034,0.3341654,0.000021756054,0.000025233649,0.00010441056,0.0017556892,0.0000010274847,0.6306579,0.0012557323,0.028163154,0.0037195086],"study_design_scores_gemma":[0.00034276943,0.00022151419,0.9344499,0.000010677101,0.000012363364,0.000045650402,0.00019474866,0.000008852077,0.02664527,0.00083420606,0.037014157,0.00021985474],"about_ca_topic_score_codex":0.000011252549,"about_ca_topic_score_gemma":0.00001046464,"teacher_disagreement_score":0.60401267,"about_ca_system_score_codex":0.000011984558,"about_ca_system_score_gemma":0.0000090283165,"threshold_uncertainty_score":0.99918115},"labels":[],"label_agreement":null},{"id":"W2108694113","doi":"10.1093/cercor/bhm140","title":"Spatio temporal Dynamics of Face Recognition","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":189,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children","funders":"","keywords":"Fusiform gyrus; Temporal lobe; Neuroscience; Computer science; Hippocampus; Dynamics (music); Set (abstract data type); Temporal cortex; Face (sociological concept); Task (project management); Psychology; Pattern recognition (psychology); Artificial intelligence; Cognition; Epilepsy","score_opus":0.05072387377062566,"score_gpt":0.28933374380521154,"score_spread":0.2386098700345859,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2108694113","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9754551,0.0000034605305,0.0060451305,0.00015274301,0.00032841408,0.00017722973,0.00008347505,0.00008475264,0.017669681],"genre_scores_gemma":[0.9980872,0.000013487373,0.00042077448,0.00034468554,0.00005381149,0.0000024229457,0.00019501313,0.000013126831,0.00086944015],"study_design_codex":"design_other","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990626,0.000045518926,0.00025922997,0.00022786732,0.00020712981,0.00019768285],"domain_scores_gemma":[0.9995363,0.0000742515,0.00012545504,0.00012734893,0.00005761879,0.00007902163],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00018284033,0.000098404205,0.00011549659,0.000107556014,0.00006633739,0.00001708488,0.00009514129,0.00008449802,0.0016094967],"category_scores_gemma":[0.00013946895,0.00009838828,0.000065215994,0.00024823452,0.0000876902,0.00018529803,0.000022240094,0.00012593575,0.0005330783],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00045286835,0.0004389846,0.041684493,0.00013713274,0.000009708991,0.000026789161,0.0010272263,0.000014207299,0.27335593,0.0024508857,0.0019796516,0.6784221],"study_design_scores_gemma":[0.0028791206,0.00085971545,0.3685666,0.0001822385,0.000058714657,0.0001578764,0.0022286966,0.019729434,0.5845021,0.013089246,0.0065568667,0.0011893869],"about_ca_topic_score_codex":0.00005506328,"about_ca_topic_score_gemma":0.00053140795,"teacher_disagreement_score":0.67723274,"about_ca_system_score_codex":0.000055162378,"about_ca_system_score_gemma":0.000022057184,"threshold_uncertainty_score":0.99930316},"labels":[],"label_agreement":null},{"id":"W2108918763","doi":"10.1093/cercor/bhh217","title":"Dissociating the Roles of Right Ventral Lateral and Dorsal Lateral Prefrontal Cortex in Generation and Maintenance of Hypotheses in Set-shift Problems","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":186,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"","keywords":"Prefrontal cortex; Neuroscience; Psychology; Dorsum; Working memory; Dissociation (chemistry); Set (abstract data type); Cognitive psychology; Cognition; Anatomy; Biology; Computer science; Chemistry","score_opus":0.054856882580171594,"score_gpt":0.2943900454822138,"score_spread":0.2395331629020422,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2108918763","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9989402,0.00014574119,0.0000011210773,0.00043229127,0.00010628211,0.00027556007,0.000028334078,0.000010425558,0.000060036888],"genre_scores_gemma":[0.99973595,0.000043992066,0.000019413677,0.000101187536,0.000022300288,0.000012765943,0.0000025369304,0.000008202534,0.0000536224],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9989086,0.00008033692,0.00033199595,0.0003031785,0.00012240665,0.00025348258],"domain_scores_gemma":[0.9996754,0.00004330634,0.00015268482,0.00009139982,0.000012525262,0.000024709369],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000106075044,0.00013824475,0.0002398994,0.000050725535,0.00007681341,0.00002035812,0.000110164015,0.00005680554,0.000006137524],"category_scores_gemma":[0.00003410818,0.00008920617,0.00003164933,0.00012538054,0.00035251622,0.00019122953,0.00007723845,0.0001635668,6.374855e-7],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005888364,0.00010627116,0.49207205,0.000026797836,0.0000038806484,0.000021273265,0.003242523,0.000023323204,0.50321656,0.0003791123,0.0000059082017,0.00084341044],"study_design_scores_gemma":[0.0009443975,0.00017553689,0.96366066,0.000077011966,0.000008314698,0.000017589995,0.000104298444,0.00011530804,0.03280366,0.0019824852,0.0000053106673,0.00010545162],"about_ca_topic_score_codex":0.00027359623,"about_ca_topic_score_gemma":0.0030121254,"teacher_disagreement_score":0.47158858,"about_ca_system_score_codex":0.000026654665,"about_ca_system_score_gemma":0.000012621443,"threshold_uncertainty_score":0.3637722},"labels":[],"label_agreement":null},{"id":"W2109217740","doi":"10.1093/cercor/12.12.1342","title":"Volumetry of Temporopolar, Perirhinal, Entorhinal and Parahippocampal Cortex from High-resolution MR Images: Considering the Variability of the Collateral Sulcus","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":313,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"","keywords":"Parahippocampal gyrus; Perirhinal cortex; Entorhinal cortex; Neuroscience; Temporal lobe; Sulcus; Magnetic resonance imaging; Neuroimaging; Segmentation; Gyrus; Psychology; Hippocampus; Computer science; Medicine; Artificial intelligence; Radiology; Epilepsy","score_opus":0.0424230654759949,"score_gpt":0.25187556697366426,"score_spread":0.20945250149766936,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2109217740","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99764824,0.00013433164,0.00010835774,0.00029488347,0.00079583155,0.00044334738,0.00013305912,0.000035804813,0.0004061343],"genre_scores_gemma":[0.9991142,0.000031808882,0.00018209564,0.00026306696,0.000082708255,0.000008693214,0.0000023420614,0.00001731493,0.00029772712],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975493,0.0006361403,0.00052663835,0.00052391907,0.00044008778,0.00032393786],"domain_scores_gemma":[0.99826473,0.0005484859,0.00037330866,0.00065416016,0.000058379297,0.00010093683],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00035196813,0.00023649384,0.0003637634,0.000039935094,0.00036537764,0.000055926208,0.00045733037,0.000107858206,0.00096019235],"category_scores_gemma":[0.00053541956,0.00014884541,0.00012748348,0.00030155346,0.00075894274,0.00023827587,0.00024531898,0.00033195523,0.000012200583],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010847826,0.00010662063,0.029875109,0.000045327124,0.000013063297,0.000009820412,0.0004514015,0.0000067430833,0.96738577,0.0010553359,0.00021247349,0.00072984555],"study_design_scores_gemma":[0.00083772687,0.0002791349,0.19996147,0.0000624545,0.000073391115,0.00007354556,0.00018998786,0.006181598,0.78734267,0.004619347,0.00013149966,0.0002471705],"about_ca_topic_score_codex":0.00030608434,"about_ca_topic_score_gemma":0.000025348127,"teacher_disagreement_score":0.1800431,"about_ca_system_score_codex":0.00003747538,"about_ca_system_score_gemma":0.000036694804,"threshold_uncertainty_score":0.9999531},"labels":[],"label_agreement":null},{"id":"W2109430458","doi":"10.1093/cercor/bhm188","title":"Corticothalamic Feedback for Sound-Specific Plasticity of Auditory Thalamic Neurons Elicited by Tones Paired with Basal Forebrain Stimulation","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Medial geniculate body; Neuroscience; Auditory cortex; Thalamus; Receptive field; Basal forebrain; Forebrain; Neuroplasticity; Stimulation; Muscimol; Cholinergic; Inhibitory postsynaptic potential; Nucleus; Inferior colliculus; Biology; Psychology; Central nervous system; Agonist; Receptor","score_opus":0.033217476124595934,"score_gpt":0.23494220335813065,"score_spread":0.2017247272335347,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2109430458","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9839475,0.000010232511,0.013835811,0.00014425576,0.000727827,0.0008178625,0.00021449158,0.00014374495,0.00015828299],"genre_scores_gemma":[0.99837434,0.000016087924,0.00020684063,0.0003416716,0.00016991141,0.00004195481,0.00009264477,0.00006287014,0.0006936796],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99787116,0.0001000955,0.00046589016,0.000677872,0.00042494346,0.0004600405],"domain_scores_gemma":[0.99847186,0.0006611358,0.00033385257,0.0002928675,0.00012485872,0.00011544165],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00007115952,0.00031012562,0.00036440886,0.0001372527,0.00035468538,0.00003850591,0.00024542265,0.000105033,0.000060977083],"category_scores_gemma":[0.0002099663,0.0002666007,0.00013572528,0.00039573072,0.00037679053,0.0003246611,0.00004991631,0.00019732463,0.000016744842],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00062225177,0.00027538714,0.019506028,0.00006044022,0.000016181706,0.000014609242,0.00010957725,0.0014108875,0.9693268,0.0012644908,0.006733289,0.0006600571],"study_design_scores_gemma":[0.0040993295,0.0020245772,0.73721457,0.000060915678,0.00006386865,0.00014148981,0.000050366394,0.16349548,0.08891119,0.002377314,0.00076207815,0.0007987945],"about_ca_topic_score_codex":0.000021508657,"about_ca_topic_score_gemma":0.000026027245,"teacher_disagreement_score":0.8804156,"about_ca_system_score_codex":0.00007412638,"about_ca_system_score_gemma":0.000067686145,"threshold_uncertainty_score":0.9999786},"labels":[],"label_agreement":null},{"id":"W2109473964","doi":"10.1093/cercor/bht251","title":"Rapid Tuning of Auditory “What” and “Where” Pathways by Training","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital","funders":"National Key Research and Development Program of China; Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Psychology; Dissociation (chemistry); Dorsum; Perception; Task (project management); Vowel; Cognitive psychology; Brain activity and meditation; Audiology; Neuroscience; Electroencephalography; Speech recognition; Computer science; Biology","score_opus":0.04920040353617369,"score_gpt":0.24372327733516236,"score_spread":0.19452287379898867,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2109473964","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963485,0.00007473756,0.000076812794,0.00016852816,0.0007896965,0.00017820552,0.000006730598,0.00006192459,0.002294892],"genre_scores_gemma":[0.99784595,0.00030030892,0.000052936797,0.0011568698,0.000114048155,0.00001464207,0.0000015218718,0.000013952179,0.0004997902],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987975,0.00006711511,0.00020235441,0.00040449642,0.00023615257,0.0002924155],"domain_scores_gemma":[0.9994673,0.00008277673,0.000107490254,0.00019396724,0.00002413565,0.00012431358],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001045591,0.00012660917,0.00016107142,0.00006388708,0.00015226717,0.00012040009,0.00018979445,0.000055560682,0.00055170304],"category_scores_gemma":[0.000110226974,0.0001146048,0.000041159168,0.0001718036,0.00030481076,0.0011409929,0.00007287319,0.00014007074,0.00006647501],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000025542706,0.000017631335,0.00007364345,0.000010540341,4.8413347e-7,0.0000018452116,0.0008947464,2.618589e-7,0.92370105,0.00015408495,0.0036927324,0.07145045],"study_design_scores_gemma":[0.0033884516,0.0020731622,0.22688308,0.000564378,0.00005731078,0.00028272622,0.015503547,0.00968429,0.6727221,0.0052236384,0.06157965,0.002037644],"about_ca_topic_score_codex":0.000028149525,"about_ca_topic_score_gemma":0.0000023743826,"teacher_disagreement_score":0.25097892,"about_ca_system_score_codex":0.000013841118,"about_ca_system_score_gemma":0.00003820413,"threshold_uncertainty_score":0.6040761},"labels":[],"label_agreement":null},{"id":"W2109792092","doi":"10.1093/cercor/bhn159","title":"Downregulation of Tonic GABAergic Inhibition in a Mouse Model of Fragile X Syndrome","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetics and Neurodevelopmental Disorders","field":"Biochemistry, Genetics and Molecular Biology","cited_by":214,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Subiculum; GABAA receptor; FMR1; Fragile X syndrome; GABAergic; Neuroscience; Tonic (physiology); gamma-Aminobutyric acid; Endocrinology; Biology; Chemistry; Psychology; Internal medicine; Hippocampus; Receptor; Inhibitory postsynaptic potential; Fragile x; Medicine; Biochemistry; Genetics; Dentate gyrus","score_opus":0.013442104411058094,"score_gpt":0.21263511787492972,"score_spread":0.19919301346387164,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2109792092","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9991061,0.00008765526,0.0002578399,0.000012916017,0.00001583999,0.00011705278,0.000026731888,0.0000033774295,0.00037245947],"genre_scores_gemma":[0.99895775,0.00011913462,0.00041891713,0.000034508328,0.0000023666246,0.000006727723,0.00011298313,0.000011522171,0.00033611362],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993709,0.00001507217,0.00022664723,0.00017658174,0.0000966458,0.0001141542],"domain_scores_gemma":[0.99970365,0.0000019445151,0.00008050632,0.00014832347,0.00003784115,0.000027710827],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000034990804,0.000084439525,0.000119788136,0.00005559423,0.000019053143,0.0000013860995,0.00005059899,0.00007646272,0.00001702044],"category_scores_gemma":[0.000008389437,0.00008966795,0.00005094805,0.000080174585,0.00006339734,0.0000035497624,0.000052704272,0.00003801141,0.0000019138902],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000030320409,0.00007434388,0.0027410884,0.000019435009,0.000006272075,0.0000015792389,0.000060721315,0.0050595957,0.99182934,0.00004430522,0.000056708253,0.000076271586],"study_design_scores_gemma":[0.00071377255,0.00022609207,0.23105615,0.000013968308,0.0000040626073,0.000017696353,0.000027418031,0.004406638,0.763174,0.00020989164,0.000014874346,0.00013541838],"about_ca_topic_score_codex":0.000016225515,"about_ca_topic_score_gemma":0.00002854764,"teacher_disagreement_score":0.22865534,"about_ca_system_score_codex":0.000007746735,"about_ca_system_score_gemma":0.00005829155,"threshold_uncertainty_score":0.36565527},"labels":[],"label_agreement":null},{"id":"W2109957027","doi":"10.1093/cercor/bhh071","title":"Selective Amplification of Neocortical Neuronal Output by Fast Prepotentials InVivo","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"National Institute of Neurological Disorders and Stroke","keywords":"Neuroscience; Soma; Bursting; Cortical neurons; Optogenetics; Postsynaptic potential; Mechanism (biology); Neocortex; Electrophysiology; Biology; Physics","score_opus":0.020819826885706837,"score_gpt":0.2457280580600315,"score_spread":0.22490823117432468,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2109957027","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9891351,0.000005553473,0.007748851,0.00050784147,0.00036566975,0.0003199761,0.000045952078,0.000075261014,0.0017958285],"genre_scores_gemma":[0.9983756,0.0000070440055,0.000100019664,0.0006503573,0.00006155092,0.000015617969,0.00001910479,0.000019491223,0.00075119355],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99854773,0.00007020709,0.00033239785,0.00047858176,0.00031616856,0.00025490866],"domain_scores_gemma":[0.9993579,0.00007077722,0.00017879775,0.00022766736,0.000066596775,0.000098302145],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000676375,0.00014597582,0.0001770394,0.00006262334,0.00011162292,0.000042025735,0.00018369703,0.00007364298,0.000054473843],"category_scores_gemma":[0.0002629899,0.00013414655,0.00008782722,0.00029716082,0.00014950534,0.0002087333,0.000059110007,0.00017769872,0.000044462682],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000054180517,0.00014473034,0.0007380356,0.000011575142,0.0000040084847,0.0000023700572,0.000048219983,0.00014736502,0.98918283,0.0069056656,0.00059063017,0.002170403],"study_design_scores_gemma":[0.0009844527,0.00060926547,0.12778963,0.000022148599,0.000030174646,0.000046506153,0.000026357193,0.0024528047,0.85586107,0.011110555,0.000746185,0.00032084246],"about_ca_topic_score_codex":0.00004610799,"about_ca_topic_score_gemma":0.000006854462,"teacher_disagreement_score":0.13332173,"about_ca_system_score_codex":0.000055766202,"about_ca_system_score_gemma":0.000059567057,"threshold_uncertainty_score":0.5470338},"labels":[],"label_agreement":null},{"id":"W2110036421","doi":"10.1093/cercor/bhs188","title":"Oligodendrocyte Genes, White Matter Tract Integrity, and Cognition in Schizophrenia","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":85,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto; Centre for Addiction and Mental Health","funders":"National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"White matter; Oligodendrocyte; Schizophrenia (object-oriented programming); Neuroscience; Cognition; Psychology; Biology; Medicine; Magnetic resonance imaging; Psychiatry; Central nervous system; Myelin","score_opus":0.053820338088351544,"score_gpt":0.33025606637381033,"score_spread":0.2764357282854588,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2110036421","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9921775,0.00037637583,0.0014990969,0.00115451,0.00004302831,0.00031194926,0.000010788026,0.000108834436,0.004317946],"genre_scores_gemma":[0.99100554,0.00009130852,0.0073279073,0.0010306148,0.0001166119,0.00004207412,0.00003954863,0.000021181157,0.00032523306],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99936324,0.000014153819,0.0001548738,0.00017767993,0.00007990541,0.00021015198],"domain_scores_gemma":[0.99963564,0.000014620116,0.000041208514,0.00017294269,0.000021999935,0.00011358101],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000609166,0.00010764499,0.0001493065,0.00008282979,0.000037287056,0.0000122981455,0.0000419564,0.000058398156,0.00016935523],"category_scores_gemma":[0.000007153102,0.00009773033,0.000029970586,0.000108556706,0.00004953101,0.00017067604,0.00004234365,0.0003235373,0.000085355496],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011465307,0.00022355128,0.9726899,0.000055394376,0.000006430341,0.0000106208045,0.00007531608,1.08739556e-7,0.010814157,0.0011664627,0.0016980671,0.013145307],"study_design_scores_gemma":[0.00067145535,0.000046033798,0.99092925,0.000058610112,0.000034478635,0.00033305096,0.000018999976,0.0000787978,0.0035485611,0.0008429165,0.0033199606,0.00011786745],"about_ca_topic_score_codex":0.0000122225865,"about_ca_topic_score_gemma":0.0000048223665,"teacher_disagreement_score":0.018239336,"about_ca_system_score_codex":0.000025631005,"about_ca_system_score_gemma":0.0000145194,"threshold_uncertainty_score":0.39853272},"labels":[],"label_agreement":null},{"id":"W2111700131","doi":"10.1093/cercor/bhn216","title":"Visual Awareness, Emotion, and Gamma Band Synchronization","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":119,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"START Clinic","funders":"National Institutes of Health","keywords":"Stimulus (psychology); Psychology; Neuroscience; Posterior cingulate; Cognitive psychology; Cognition","score_opus":0.02373937123811192,"score_gpt":0.251160897552831,"score_spread":0.22742152631471907,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2111700131","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963155,0.000023093047,0.0018436459,0.00020375676,0.00042880492,0.00012556178,0.0000054868005,0.00009484819,0.0009593047],"genre_scores_gemma":[0.9979475,0.000092843475,0.000018477369,0.0005154487,0.00012870097,0.000003979429,0.000015128842,0.000015515927,0.0012623635],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991274,0.000046202906,0.00014133194,0.00034179352,0.00016653624,0.00017676913],"domain_scores_gemma":[0.9996757,0.000045014007,0.000058828,0.00010957736,0.00003648038,0.0000744256],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00003820807,0.00011182957,0.00010505315,0.000055884342,0.00035708153,0.000042571042,0.00006686621,0.000053400785,0.00011812333],"category_scores_gemma":[0.00011245664,0.0001010326,0.000027124985,0.00021347217,0.00012142353,0.00026437617,0.000033636137,0.00008497666,0.000048465852],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000112370275,0.00024854107,0.24428563,0.00009040036,0.000010325956,0.00016111734,0.00045582955,0.00015138125,0.7166042,0.0067068106,0.0045024245,0.026671011],"study_design_scores_gemma":[0.0012528154,0.00045422828,0.82989156,0.000033202206,0.000019551017,0.00077877264,0.00004471864,0.0889022,0.07327643,0.0018617806,0.002938649,0.00054608815],"about_ca_topic_score_codex":0.00002062803,"about_ca_topic_score_gemma":0.0000073942742,"teacher_disagreement_score":0.6433277,"about_ca_system_score_codex":0.000025947487,"about_ca_system_score_gemma":0.00003847252,"threshold_uncertainty_score":0.411999},"labels":[],"label_agreement":null},{"id":"W2112018049","doi":"10.1093/cercor/bhn146","title":"Modulation of Ventral Prefrontal Cortex Functional Connections Reflects the Interplay of Cognitive Processes and Stimulus Characteristics","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; Toronto Western Hospital; University of Toronto","funders":"","keywords":"Functional magnetic resonance imaging; Neuroscience; Psychology; Prefrontal cortex; Cognition; Stimulus (psychology); Modality (human–computer interaction); Cognitive psychology; Working memory; Functional connectivity; Functional specialization; Stimulus modality; Brain mapping; Perception; Computer science","score_opus":0.03824792324949833,"score_gpt":0.27481772936671867,"score_spread":0.23656980611722034,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2112018049","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99715835,0.000059826958,0.0010040811,0.0002601814,0.00041775737,0.0003275264,0.00015231113,0.000036718462,0.00058322615],"genre_scores_gemma":[0.9993003,0.000032887263,0.000018074345,0.00024927838,0.00009739526,0.000028684372,0.000020243822,0.000014074656,0.00023903727],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9987927,0.00008536652,0.00029820018,0.00034706888,0.0002999436,0.00017670366],"domain_scores_gemma":[0.99675614,0.0025288027,0.0002598588,0.00012646831,0.0002829807,0.00004577256],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008051977,0.00015319487,0.00023860202,0.00007716733,0.0003404739,0.00001165357,0.00009113495,0.000051922696,0.00006906131],"category_scores_gemma":[0.0056314976,0.00012182362,0.000055292287,0.0002957771,0.0006754441,0.00022999717,0.00009103093,0.00015760868,0.0000061108035],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0030932908,0.0013080387,0.34562457,0.0005278129,0.00033040874,0.000040683615,0.007393351,0.00015868843,0.6298145,0.00563305,0.0021172964,0.003958299],"study_design_scores_gemma":[0.0005998859,0.00045641809,0.9758373,0.00007505511,0.00004314382,0.00016182764,0.00024872363,0.002017582,0.019955771,0.00041884137,0.00005114058,0.00013432324],"about_ca_topic_score_codex":0.000027842843,"about_ca_topic_score_gemma":0.000053390824,"teacher_disagreement_score":0.6302127,"about_ca_system_score_codex":0.000036706933,"about_ca_system_score_gemma":0.00013951828,"threshold_uncertainty_score":0.67418355},"labels":[],"label_agreement":null},{"id":"W2112151839","doi":"10.1093/cercor/bhs270","title":"A Weighted and Directed Interareal Connectivity Matrix for Macaque Cerebral Cortex","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":968,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Mental Health; National Institutes of Health; Agence Nationale de la Recherche; National Science Foundation","keywords":"Macaque; Cerebral cortex; Neuroscience; Mathematics; Biology","score_opus":0.029796525313822896,"score_gpt":0.2841902383265962,"score_spread":0.2543937130127733,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2112151839","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9901991,0.00020831503,0.00077954907,0.001834507,0.00173519,0.0010375904,0.00026880103,0.0005907409,0.003346189],"genre_scores_gemma":[0.994694,0.000015429332,0.00058355206,0.0020187176,0.0005773546,0.0001906989,0.00002379474,0.00006530775,0.0018311405],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9973244,0.00022280942,0.00035557375,0.00088355166,0.0003320657,0.00088156847],"domain_scores_gemma":[0.99453074,0.0044772415,0.00018811862,0.00037175306,0.00012208663,0.00031007058],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025678053,0.0004209499,0.0005119854,0.0001787267,0.0005421905,0.0001072967,0.00024189572,0.0001633653,0.00024881266],"category_scores_gemma":[0.0036956267,0.00038874164,0.00017375397,0.00039691292,0.0003188607,0.0007701467,0.00029755107,0.00032720808,0.00008778137],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0029085884,0.0016757445,0.38907313,0.0005676095,0.0004004025,0.00004537048,0.0033848514,0.000002857952,0.376632,0.11596906,0.08734011,0.022000259],"study_design_scores_gemma":[0.0054612053,0.0010731871,0.8412036,0.0001049148,0.00020038504,0.0004907044,0.0004024255,0.00819998,0.08492098,0.010256746,0.04589255,0.001793359],"about_ca_topic_score_codex":0.000103685794,"about_ca_topic_score_gemma":0.00013298732,"teacher_disagreement_score":0.4521304,"about_ca_system_score_codex":0.00014900471,"about_ca_system_score_gemma":0.000064051565,"threshold_uncertainty_score":0.9998565},"labels":[],"label_agreement":null},{"id":"W2112383001","doi":"10.1093/cercor/bhn014","title":"Functional Coactivation Map of the Human Brain","year":2008,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":389,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Mental Health","keywords":"Coactivation; Functional connectivity; Human brain; Neuroscience; Resting state fMRI; Neuroimaging; Functional neuroimaging; Brain mapping; Brain function; Functional integration; Psychology; Computer science; Electromyography; Mathematics","score_opus":0.10636429794479065,"score_gpt":0.315818357759695,"score_spread":0.2094540598149044,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2112383001","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00040336553,0.9861356,0.000049439783,0.0022555818,0.0033766201,0.0015435666,0.0002011171,0.00015357636,0.0058811544],"genre_scores_gemma":[0.0028412833,0.9741776,0.0000152744,0.0023887423,0.0009263617,0.00018901183,0.00007186644,0.00011545272,0.019274428],"study_design_codex":"not_applicable","study_design_gemma":"not_applicable","domain_scores_codex":[0.9975039,0.00040193542,0.00052671577,0.0006819358,0.0006300136,0.00025554773],"domain_scores_gemma":[0.99465376,0.0040226164,0.0006255454,0.00057321676,0.000079444144,0.00004540453],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00011916884,0.00038033276,0.0008822989,0.00014896755,0.0005810754,0.000021664964,0.00046419934,0.00020000385,0.0003013818],"category_scores_gemma":[0.0029216202,0.00025824987,0.0006672416,0.0004948101,0.00042914072,0.00014563475,0.00030824382,0.0005355771,0.00021077962],"study_design_candidate":"not_applicable","study_design_consensus":"not_applicable","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002011584,0.00036203497,0.00020769911,0.0064829197,0.00022807979,0.000013446378,0.00011146597,0.000007083655,0.002277301,0.029724455,0.71789676,0.24266864],"study_design_scores_gemma":[0.00016981977,0.00004770517,0.0017027087,0.00091657764,0.00007080272,0.00009515776,0.000005946063,0.0000022359106,0.00019907723,0.00056601217,0.99596524,0.0002586864],"about_ca_topic_score_codex":0.000017507986,"about_ca_topic_score_gemma":0.000012138482,"teacher_disagreement_score":0.2780685,"about_ca_system_score_codex":0.00018439759,"about_ca_system_score_gemma":0.0002791908,"threshold_uncertainty_score":0.99998695},"labels":[],"label_agreement":null},{"id":"W2113002628","doi":"10.1093/cercor/bhj137","title":"Training-Induced Functional Activation Changes in Dual-Task Processing: An fMRI Study","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":299,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal","funders":"National Institute on Aging","keywords":"Functional magnetic resonance imaging; Psychology; Neuroplasticity; Task (project management); Executive functions; Dorsolateral prefrontal cortex; Neuroscience; Dual (grammatical number); Brain activity and meditation; Brain mapping; Cognitive training; Prefrontal cortex; Audiology; Cognitive psychology; Cognition; Electroencephalography; Medicine","score_opus":0.10061784790601747,"score_gpt":0.294979813329325,"score_spread":0.19436196542330753,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2113002628","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9933505,0.0000068444215,0.000058019315,0.0026139473,0.00039348358,0.0005354095,0.000006197144,0.00020401052,0.002831599],"genre_scores_gemma":[0.9973832,3.98697e-7,0.000022665849,0.0012686327,0.0005185707,0.0001441076,0.000015066435,0.000031791053,0.00061561685],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99782026,0.00018747381,0.0002518626,0.00082598167,0.0005322166,0.0003822175],"domain_scores_gemma":[0.9988906,0.00060214003,0.00013830652,0.00022875034,0.0000794155,0.000060836133],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002744908,0.00024155187,0.0002454305,0.0002593483,0.0003598804,0.00009802859,0.00011233839,0.00007788271,0.00009246639],"category_scores_gemma":[0.0010447042,0.00023530472,0.000038656006,0.0006664371,0.00007994772,0.00062321784,0.00007059454,0.0002648639,0.00003319856],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029229844,0.001910706,0.03279002,0.000027436578,0.000012250171,0.000060460832,0.0030213087,0.00024002336,0.9434047,0.001380958,0.0015970261,0.01526282],"study_design_scores_gemma":[0.0015921515,0.001003507,0.9567633,0.000024453111,0.000014304163,0.000033814402,0.0028725788,0.0017006187,0.032770075,0.00196463,0.0008195434,0.00044097885],"about_ca_topic_score_codex":0.0001958757,"about_ca_topic_score_gemma":0.0021655008,"teacher_disagreement_score":0.9239733,"about_ca_system_score_codex":0.000140931,"about_ca_system_score_gemma":0.000115483315,"threshold_uncertainty_score":0.9595448},"labels":[],"label_agreement":null},{"id":"W2113008820","doi":"10.1093/cercor/12.10.1101","title":"Glial and Neuronal Interactions during Slow Wave and Paroxysmal Activities in the Neocortex","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":101,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Depolarization; Neocortex; Neuroscience; Neuron; Premovement neuronal activity; Electrophysiology; Extracellular; Membrane potential; Biology; Chemistry; Biophysics; Cell biology","score_opus":0.0667604622779379,"score_gpt":0.3040236629040946,"score_spread":0.2372632006261567,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2113008820","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99640054,0.00002298941,9.381476e-7,0.0014785322,0.00032284873,0.0002663374,0.000009097962,0.000034755725,0.0014639425],"genre_scores_gemma":[0.9966769,0.00017334564,0.0000025674112,0.0016477781,0.00011444397,0.000033075157,1.5805719e-7,0.000012908526,0.001338805],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983025,0.0002971157,0.00016399857,0.00052904605,0.00027208056,0.00043526196],"domain_scores_gemma":[0.9992134,0.00045947905,0.00004615377,0.0001727873,0.000008132771,0.00010003341],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010126186,0.00015418633,0.00013781613,0.00015219829,0.0004411385,0.00016790316,0.00022815485,0.00003433825,0.00020081042],"category_scores_gemma":[0.00016034752,0.00011741739,0.0000334401,0.00031895775,0.0005600986,0.0005260866,0.00018786322,0.00059544144,0.000021817235],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006492501,0.00010407054,0.0078091705,0.000013209082,0.0000011851209,0.0004056795,0.00065590045,0.00000135138,0.98797256,0.00026247156,0.00031362113,0.0023958408],"study_design_scores_gemma":[0.0020726037,0.00054580846,0.7409533,0.000020704943,0.000019921903,0.0030524556,0.0005043785,0.010349699,0.23921674,0.00034512568,0.0024688528,0.00045038873],"about_ca_topic_score_codex":0.000009801157,"about_ca_topic_score_gemma":0.000018155944,"teacher_disagreement_score":0.7487558,"about_ca_system_score_codex":0.000014087755,"about_ca_system_score_gemma":0.000013813903,"threshold_uncertainty_score":0.4788142},"labels":[],"label_agreement":null},{"id":"W2113111292","doi":"10.1093/cercor/bhs187","title":"Developmental Changes in Organization of Structural Brain Networks","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":241,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation; University of Toronto; McGill University; Hospital for Sick Children; Montreal Neurological Institute and Hospital","funders":"National Institute of Child Health and Human Development; Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute on Drug Abuse; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; National Institutes of Health","keywords":"Modularity (biology); Cognition; Neuroimaging; Neuroscience; Psychology; Early childhood; Structural plasticity; Developmental psychology; Biology; Evolutionary biology","score_opus":0.025653352349823366,"score_gpt":0.24638491096279,"score_spread":0.22073155861296664,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2113111292","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973992,0.00003790536,0.00010940597,0.0011553249,0.00042434127,0.00013059893,0.0000047854596,0.00003812714,0.000700281],"genre_scores_gemma":[0.9978454,0.0000031284403,0.000114527626,0.0017056415,0.00013224484,0.000004655753,0.0000049410537,0.000014105265,0.00017532839],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9992057,0.000064748136,0.0001329436,0.00018948702,0.00015599682,0.0002511068],"domain_scores_gemma":[0.9991123,0.0006838809,0.00006796843,0.00006308709,0.00003060985,0.00004215247],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010815366,0.000100988174,0.00013092639,0.00008038142,0.000081146725,0.000009464179,0.000101411424,0.000045374345,0.00023227974],"category_scores_gemma":[0.0023658683,0.00009488715,0.000015019455,0.0005231119,0.00007480691,0.00022001546,0.000110796784,0.000093040064,0.000018253802],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001577865,0.000035202575,0.84494305,0.000014556802,0.0000057361344,0.0000016393378,0.00084740994,0.00005917116,0.14657496,0.00339454,0.0019175343,0.0021904453],"study_design_scores_gemma":[0.00025430004,0.000027889899,0.92607486,0.000010130171,0.0000024529352,0.00002136087,0.00015858216,0.0003824877,0.07248094,0.00008753278,0.000372719,0.00012674445],"about_ca_topic_score_codex":0.000016806473,"about_ca_topic_score_gemma":0.00013046773,"teacher_disagreement_score":0.08113184,"about_ca_system_score_codex":0.00008069235,"about_ca_system_score_gemma":0.000022455552,"threshold_uncertainty_score":0.3869386},"labels":[],"label_agreement":null},{"id":"W2113586298","doi":"10.1093/cercor/bht056","title":"Parcellating an Individual Subject's Cortical and Subcortical Brain Structures Using Snowball Sampling of Resting-State Correlations","year":2013,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":136,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"Resting state fMRI; Snowball sampling; Neuroscience; Psychology; Subject (documents); Sampling (signal processing); Mathematics; Computer science; Statistics; Computer vision","score_opus":0.1868299302104399,"score_gpt":0.37213160724569994,"score_spread":0.18530167703526004,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2113586298","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.32914698,0.6618784,0.0025946544,0.00015931256,0.0015726067,0.0030831397,0.0005812208,0.0003915392,0.0005921297],"genre_scores_gemma":[0.3207889,0.6586276,0.015963556,0.0013876226,0.0015931581,0.00019475394,0.00031893153,0.0006769343,0.00044854716],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9954576,0.00083853886,0.0011607906,0.001233095,0.00065991597,0.00065008696],"domain_scores_gemma":[0.9836804,0.014669677,0.00074515585,0.0004999029,0.0001265699,0.0002782726],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004826213,0.00063396845,0.001565497,0.00031239603,0.0006350187,0.00020580854,0.0003982946,0.00031813906,0.00010752718],"category_scores_gemma":[0.015952643,0.00055621425,0.0002644445,0.0005911616,0.0007483561,0.0003607611,0.00053691305,0.0011018506,0.000014930691],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000090600624,0.00032146383,0.00861084,0.011801891,0.00046847094,0.00008664623,0.0013655107,0.0003661502,0.004626973,0.016674697,0.00063264003,0.9549541],"study_design_scores_gemma":[0.011499219,0.0097709205,0.2685985,0.05968896,0.02031388,0.012105447,0.0030093968,0.11696513,0.0020052572,0.08275431,0.38607654,0.027212424],"about_ca_topic_score_codex":0.000117783646,"about_ca_topic_score_gemma":0.000050377945,"teacher_disagreement_score":0.9277417,"about_ca_system_score_codex":0.000106109896,"about_ca_system_score_gemma":0.00034808723,"threshold_uncertainty_score":0.9996889},"labels":[],"label_agreement":null},{"id":"W2113993602","doi":"10.1093/cercor/12.7.772","title":"The Neural Substrates of Biological Motion Perception: an fMRI Study","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":159,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"","keywords":"Biological motion; Stimulus (psychology); Motion perception; Perception; Functional magnetic resonance imaging; Brain activity and meditation; Cuneus; Visual perception; Lingual gyrus; Psychology; Neuroscience; Artificial intelligence; Computer vision; Communication; Motion (physics); Computer science; Electroencephalography; Cognitive psychology","score_opus":0.10381185987592657,"score_gpt":0.32683272085209014,"score_spread":0.22302086097616358,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2113993602","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99500334,0.000043687214,0.00030449973,0.00036836413,0.0005557528,0.00025109106,0.0000023682087,0.00007410559,0.003396779],"genre_scores_gemma":[0.9979833,0.000009878413,0.000018034345,0.00012063653,0.00015162234,0.000017399727,0.00002705557,0.000008322397,0.0016637834],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.999009,0.00025000304,0.00026875938,0.0002081647,0.00012266668,0.00014138207],"domain_scores_gemma":[0.99943113,0.000044884873,0.00011500035,0.00026364165,0.00009868332,0.00004663813],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00015552409,0.000091251924,0.00010350767,0.000030800347,0.00020853136,0.00003178631,0.0001442008,0.00007949469,0.008725801],"category_scores_gemma":[0.000024886884,0.000060933548,0.000042692194,0.0001807818,0.00009063854,0.00014472846,0.000013645494,0.000109209584,0.00024868952],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000057387853,0.0009608,0.908027,0.0000025218042,0.000037311904,0.0000031703846,0.00411997,0.000029751907,0.00078517996,0.0046688127,0.0029046014,0.07840349],"study_design_scores_gemma":[0.00041130933,0.0004939521,0.98737794,8.789431e-7,0.000008057315,0.0000066748366,0.0064742365,0.0046282355,0.000010335052,0.00011044151,0.00040583703,0.0000721019],"about_ca_topic_score_codex":0.000036641817,"about_ca_topic_score_gemma":0.000048567723,"teacher_disagreement_score":0.07935093,"about_ca_system_score_codex":0.00002093927,"about_ca_system_score_gemma":0.000002949898,"threshold_uncertainty_score":0.99218035},"labels":[],"label_agreement":null},{"id":"W2114549884","doi":"10.1093/cercor/bhn003","title":"Revealing Modular Architecture of Human Brain Structural Networks by Using Cortical Thickness from MRI","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":491,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Mental Health; Canadian Institutes of Health Research; Killam Trusts","keywords":"Modularity (biology); Modular design; Human brain; Neuroscience; Computer science; Architecture; Cortex (anatomy); Psychology; Biology; Evolutionary biology; Geography","score_opus":0.03672264118669128,"score_gpt":0.2733953957046122,"score_spread":0.2366727545179209,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2114549884","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98975015,0.0001583876,0.008175503,0.0008779977,0.00047509384,0.00022078241,0.00008301293,0.00009667764,0.00016237197],"genre_scores_gemma":[0.9968351,0.000005148839,0.0005002699,0.0021372216,0.00031100985,0.0000047956573,0.000022639919,0.000037435413,0.00014638054],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99771947,0.00029337525,0.00038752417,0.00070618954,0.0004707248,0.00042273165],"domain_scores_gemma":[0.9970962,0.0021449903,0.00018773902,0.00038887278,0.000068201014,0.00011399319],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00013312059,0.00027020523,0.00042612053,0.00006920659,0.0007380762,0.000026079477,0.0003155649,0.00014452497,0.00011718473],"category_scores_gemma":[0.0017739299,0.00024949003,0.00014073262,0.00031432108,0.0005779285,0.00016245502,0.00021256662,0.00058068876,0.000004481448],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007784514,0.000037339218,0.012356757,0.000017071321,0.000033426142,0.000042178322,0.00046886242,0.0076432554,0.9753955,0.00071273616,0.0029506574,0.00026437113],"study_design_scores_gemma":[0.004342688,0.0009209264,0.45277965,0.00032357298,0.00019705096,0.00083333795,0.0004182888,0.29737088,0.22140667,0.017635914,0.001255497,0.0025155263],"about_ca_topic_score_codex":0.00032396746,"about_ca_topic_score_gemma":0.000043107848,"teacher_disagreement_score":0.75398886,"about_ca_system_score_codex":0.00006764882,"about_ca_system_score_gemma":0.000044755932,"threshold_uncertainty_score":0.9999957},"labels":[],"label_agreement":null},{"id":"W2114579562","doi":"10.1093/cercor/bhj157","title":"Detection of Active and Silent States in Neocortical Neurons from the Field Potential Signal during Slow-Wave Sleep","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and Wakefulness Research","field":"Neuroscience","cited_by":174,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Local field potential; Neuroscience; Electroencephalography; Neocortex; Electrophysiology; Silence; Slow-wave sleep; Alternation (linguistics); SIGNAL (programming language); Psychology; Computer science; Physics; Acoustics","score_opus":0.015444411767661136,"score_gpt":0.24546059197075862,"score_spread":0.23001618020309747,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2114579562","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985027,0.000021123253,0.0005860553,0.00034039194,0.00011881579,0.00021380057,0.000026018564,0.000019255322,0.0001718762],"genre_scores_gemma":[0.9996844,0.000010053454,0.000005757289,0.000121292025,0.0001094586,0.000016655436,0.000002965058,0.0000105173995,0.000038891118],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987728,0.00014775648,0.00020480012,0.00031979254,0.00028006796,0.0002747663],"domain_scores_gemma":[0.9991275,0.00059175934,0.000052917407,0.00015344631,0.000023127113,0.0000512456],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000045775418,0.000106385225,0.00013025539,0.00006270141,0.00013156356,0.000043290507,0.00012480277,0.000060698232,0.0001247578],"category_scores_gemma":[0.0001626326,0.00008028861,0.000046537865,0.00019413453,0.0001749264,0.0001360323,0.0001211879,0.00030419926,0.0000058516157],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00045958895,0.00011439491,0.009616946,0.000009621422,0.000006105252,0.00008770603,0.00022707073,0.00025647902,0.9674622,0.00012184194,0.00002549002,0.021612572],"study_design_scores_gemma":[0.00044933773,0.00009110978,0.40096042,0.000007601222,0.0000073525125,0.000007692046,0.00012082325,0.0092948405,0.58798695,0.0009978524,0.000009775287,0.00006626343],"about_ca_topic_score_codex":0.0016426182,"about_ca_topic_score_gemma":0.00040236107,"teacher_disagreement_score":0.39134347,"about_ca_system_score_codex":0.000023842204,"about_ca_system_score_gemma":0.000016761487,"threshold_uncertainty_score":0.32740748},"labels":[],"label_agreement":null},{"id":"W2115398513","doi":"10.1093/cercor/bhs162","title":"Abstract Encoding of Auditory Objects in Cortical Activity Patterns","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":108,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; International Laboratory for Brain, Music and Sound Research; McGill University","funders":"FP7 People: Marie-Curie Actions; Economic and Social Research Council; Natural Sciences and Engineering Research Council of Canada; Biotechnology and Biological Sciences Research Council; Directorate for Biological Sciences; Agence Nationale de la Recherche","keywords":"Planum temporale; Encoding (memory); Loudness; Temporal lobe; Auditory cortex; Object (grammar); Computer science; Psychology; Auditory scene analysis; Communication; Speech recognition; Neuroscience; Perception; Artificial intelligence; Computer vision","score_opus":0.058745065168957306,"score_gpt":0.35114400614329505,"score_spread":0.2923989409743377,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2115398513","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9627086,0.000013181513,0.00011171946,0.000022311217,0.0015934932,0.00011594194,0.000010130515,0.000028814418,0.035395842],"genre_scores_gemma":[0.99878883,0.000003418826,0.000026156828,0.00008076756,0.00035836062,0.000010425435,0.0000085978645,0.000011357876,0.00071210664],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9991292,0.000099591954,0.00022523114,0.00015748464,0.00012284608,0.00026567283],"domain_scores_gemma":[0.999528,0.00007423191,0.00009312708,0.00018693479,0.000025609752,0.00009209948],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017624999,0.00010068501,0.00016189627,0.000090452224,0.000028006592,0.0000063589114,0.000070313086,0.00012883887,0.01422708],"category_scores_gemma":[0.00004607734,0.00009376796,0.00006250573,0.00006998434,0.000045202098,0.00019065125,0.000015390315,0.0002753127,0.00056519656],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010434617,0.00058390066,0.7859159,0.000029962903,0.000017905546,0.000005140709,0.0053929463,0.0000010816077,0.19254483,0.0010676258,0.002354101,0.011982256],"study_design_scores_gemma":[0.00034432946,0.00003998319,0.9967488,0.000020908297,0.000005464444,0.0000045128045,0.0011507903,0.000059722282,0.0013023447,0.000007067343,0.00021764536,0.00009841439],"about_ca_topic_score_codex":0.00033539024,"about_ca_topic_score_gemma":0.000248429,"teacher_disagreement_score":0.21083292,"about_ca_system_score_codex":0.000060280196,"about_ca_system_score_gemma":0.000013971014,"threshold_uncertainty_score":0.9866741},"labels":[],"label_agreement":null},{"id":"W2115455105","doi":"10.1093/cercor/bhq024","title":"Specificity of Neuronal Responses in Primary Visual Cortex Is Modulated by Interhemispheric CorticoCortical Input","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Neuroscience; Visual cortex; Psychology; Meridian (astronomy); Stimulus (psychology); Lateralization of brain function; Corpus callosum; Orientation column; Right hemisphere; Electrophysiology; Perception; Cognitive psychology; Striate cortex; Physics","score_opus":0.027207590382847195,"score_gpt":0.30199319575069405,"score_spread":0.27478560536784685,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2115455105","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99698037,0.000008353009,0.0004758736,0.00019586425,0.00054483017,0.00023253339,0.000043485492,0.0001155183,0.0014031746],"genre_scores_gemma":[0.9961044,0.000011817817,0.0002057829,0.0021672698,0.00006107693,0.000010398885,0.00001570981,0.00004117234,0.0013823651],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99745786,0.00016345034,0.0006886329,0.0007177124,0.0005158145,0.00045651328],"domain_scores_gemma":[0.99898136,0.00017042129,0.00022183527,0.00033429076,0.000074292686,0.0002178191],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00019247642,0.000280492,0.00039695355,0.00012507445,0.00009422708,0.00007430283,0.00040364303,0.00021519905,0.0030932832],"category_scores_gemma":[0.00042831415,0.0002706325,0.00010790247,0.00058444147,0.00038102956,0.0002529742,0.00015980731,0.00070144876,0.00013381062],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004461898,0.0004194019,0.004965486,0.000034081368,0.0000025147297,0.000016290254,0.00019700188,8.5980025e-7,0.98757327,0.0001482709,0.0008128946,0.0053837453],"study_design_scores_gemma":[0.00096942217,0.00046853628,0.3594952,0.00003590263,0.000011974501,0.00005403456,0.00005015059,0.007665559,0.62984776,0.00051888643,0.0005155895,0.00036697937],"about_ca_topic_score_codex":0.00003326358,"about_ca_topic_score_gemma":0.000017305265,"teacher_disagreement_score":0.3577255,"about_ca_system_score_codex":0.000048064114,"about_ca_system_score_gemma":0.00016275515,"threshold_uncertainty_score":0.9999746},"labels":[],"label_agreement":null},{"id":"W2116565692","doi":"10.1093/cercor/bhs102","title":"Sports Concussions and Aging: A Neuroimaging Investigation","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Traumatic Brain Injury Research","field":"Medicine","cited_by":173,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute; Université du Québec à Trois-Rivières; Montreal Neurological Institute and Hospital; Hôpital Saint-Luc; Hôpital du Sacré-Cœur de Montréal; Université de Montréal","funders":"Canadian Institutes of Health Research","keywords":"Concussion; Neuroimaging; Psychology; Neuropsychology; Cognition; Cognitive decline; Voxel-based morphometry; Chronic traumatic encephalopathy; Neuroscience; Dementia; Medicine; Poison control; Audiology; Magnetic resonance imaging; White matter; Injury prevention; Pathology; Disease; Radiology","score_opus":0.06224521076380123,"score_gpt":0.33111891860175796,"score_spread":0.2688737078379567,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2116565692","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9893122,0.00022236347,0.000052074392,0.003692947,0.00016365132,0.00027534392,0.0000020943264,0.0000984482,0.0061809234],"genre_scores_gemma":[0.9962347,0.00000839278,0.0010173871,0.0011558426,0.00021298774,0.000010559909,0.000016431944,0.000022463491,0.0013212279],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99896806,0.000041259304,0.00017992483,0.00017473841,0.00029426962,0.00034173063],"domain_scores_gemma":[0.99916726,0.000067551766,0.000045671048,0.00022861651,0.00004533456,0.00044554542],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026786336,0.00010428122,0.00016451444,0.000103018996,0.00009197026,0.000023954355,0.00004390744,0.00004477889,0.00034728926],"category_scores_gemma":[0.00017093131,0.00008445834,0.000032116244,0.00016637983,0.00016101786,0.00022149419,0.000060199975,0.00023961182,0.000045300378],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000016371541,0.000030983145,0.9700184,0.00007510478,0.0000131683,0.000015305339,0.0008188507,4.350646e-8,0.009312906,0.0012962657,0.002819472,0.0155831445],"study_design_scores_gemma":[0.0005598963,0.0000477309,0.99461055,0.00008882534,0.00003565453,0.0002683805,0.00021495912,0.00026205098,0.00080958684,0.0003040394,0.002706452,0.00009186287],"about_ca_topic_score_codex":0.000019015457,"about_ca_topic_score_gemma":9.924696e-7,"teacher_disagreement_score":0.024592178,"about_ca_system_score_codex":0.000028192144,"about_ca_system_score_gemma":0.00006759508,"threshold_uncertainty_score":0.38025737},"labels":[],"label_agreement":null},{"id":"W2116881182","doi":"10.1093/cercor/10.7.633","title":"How Many Maps are there in Visual Cortex?","year":2000,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":94,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Visual cortex; Limit (mathematics); Ocular dominance; Spatial frequency; Ocular dominance column; Constraint (computer-aided design); Mathematics; Orientation (vector space); Pattern recognition (psychology); Computer science; Artificial intelligence; Neuroscience; Mathematical analysis; Biology; Geometry; Physics; Optics","score_opus":0.0386224531355117,"score_gpt":0.29528438366493137,"score_spread":0.25666193052941966,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2116881182","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98495007,0.00003472939,0.000086971515,0.0008488416,0.00026218625,0.00018895925,0.000017486747,0.00019067514,0.013420076],"genre_scores_gemma":[0.9614787,0.000045748784,0.000045523233,0.0027062898,0.0001224933,0.000014179267,0.000007504532,0.00003461979,0.035544936],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983671,0.00012108663,0.00020614325,0.00055863435,0.00032054502,0.0004265405],"domain_scores_gemma":[0.9994942,0.000032624463,0.00008281165,0.0002292547,0.000020809035,0.00014031796],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00009850543,0.00021852221,0.00022534911,0.00009896107,0.00016755667,0.0002454078,0.00030279628,0.00013284643,0.005658062],"category_scores_gemma":[0.000056172947,0.00019685012,0.00007620346,0.00039955112,0.00009430994,0.00035743468,0.000039830953,0.00030001957,0.0013257856],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003464676,0.0007233517,0.0072364896,0.00013603533,0.0000070697233,0.0005224879,0.0010734836,0.000014920237,0.74586564,0.0077769,0.0046220273,0.2316751],"study_design_scores_gemma":[0.0070931604,0.0017302907,0.66942316,0.0006165744,0.000051910793,0.0004649596,0.003480398,0.014899653,0.16263472,0.02665865,0.109663896,0.0032826338],"about_ca_topic_score_codex":0.000016182972,"about_ca_topic_score_gemma":0.000049922797,"teacher_disagreement_score":0.6621867,"about_ca_system_score_codex":0.000047528898,"about_ca_system_score_gemma":0.00003675686,"threshold_uncertainty_score":0.9994518},"labels":[],"label_agreement":null},{"id":"W2117151134","doi":"10.1093/cercor/bhn055","title":"Coupling of Theta Oscillations between Anterior and Posterior Midline Cortex and with the Hippocampus in Freely Behaving Rats","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":177,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Hippocampal formation; Neuroscience; Hippocampus; Psychology; Theta rhythm; Coupling (piping); Electroencephalography; Cortex (anatomy); Frontal cortex; Coherence (philosophical gambling strategy); Physics","score_opus":0.059327712155887016,"score_gpt":0.27979757179035936,"score_spread":0.22046985963447235,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2117151134","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9990278,0.000112988884,0.000023508715,0.000275373,0.00007274093,0.00035658816,0.000029010487,0.0000279583,0.00007406934],"genre_scores_gemma":[0.99951357,0.000052795192,0.00006641219,0.00017831654,0.000035338424,0.0000073326055,0.0000019645513,0.000017692155,0.00012661052],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99888474,0.00005023708,0.0002740247,0.0003718284,0.00018786287,0.00023131592],"domain_scores_gemma":[0.9992681,0.00023598388,0.00015617324,0.0002298851,0.000026630138,0.00008323751],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013463853,0.00016641628,0.00027569567,0.00008109913,0.0002770663,0.00003085758,0.00016331303,0.000055699224,0.000024937963],"category_scores_gemma":[0.000063009975,0.000110166045,0.000027498978,0.00022800239,0.00033346968,0.00019727458,0.000111779154,0.00018717375,0.0000021484395],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006245146,0.000018014334,0.10002301,0.000020191525,0.000002980577,0.00004742545,0.0004987931,0.0000053269673,0.8981245,0.000043410266,0.0000044117505,0.0011494863],"study_design_scores_gemma":[0.000754382,0.00044557365,0.77866095,0.00011345639,0.000031259482,0.0003541097,0.00014165393,0.0013949584,0.21758881,0.00030062805,0.0000069084263,0.00020728828],"about_ca_topic_score_codex":0.000024953713,"about_ca_topic_score_gemma":0.00008319295,"teacher_disagreement_score":0.6805357,"about_ca_system_score_codex":0.000009471647,"about_ca_system_score_gemma":0.000031414813,"threshold_uncertainty_score":0.44924408},"labels":[],"label_agreement":null},{"id":"W2117288316","doi":"10.1093/cercor/10.8.772","title":"Visual Perception of Motion and 3-D Structure from Motion: an fMRI Study","year":2000,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":138,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal","funders":"","keywords":"Functional magnetic resonance imaging; Motion (physics); Computer vision; Motion perception; Artificial intelligence; Physics; Computer science; Neuroscience; Psychology","score_opus":0.03231195252548942,"score_gpt":0.3111731359717055,"score_spread":0.2788611834462161,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2117288316","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985795,0.000004888857,0.00056271465,0.00004345406,0.0001548207,0.00022415325,0.000030130765,0.00009200168,0.000308334],"genre_scores_gemma":[0.9991037,0.000006807803,0.00014906315,0.00027752251,0.0001429081,0.0000031953462,0.000031532538,0.00001711392,0.00026812433],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99868995,0.0001883852,0.00022323412,0.00046855788,0.00028000824,0.00014983781],"domain_scores_gemma":[0.99959683,0.000016430204,0.00007244554,0.00017832576,0.00003319885,0.000102790276],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000076312026,0.00014804072,0.00016788863,0.00006123498,0.00018404012,0.000079914185,0.00012358592,0.0000922413,0.009271053],"category_scores_gemma":[0.000022571663,0.00013439833,0.000030036035,0.00017161145,0.0000785837,0.0004470022,0.000023821436,0.00014390326,0.00006211853],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008471713,0.0003192128,0.0047604805,0.000010853218,0.0000026426187,0.0000026937973,0.0029737432,0.000017875198,0.7356072,0.000066750166,0.000016810105,0.25613704],"study_design_scores_gemma":[0.0014223116,0.0015460011,0.9491082,0.000018872839,0.00004271511,0.000022922048,0.0030637295,0.012977826,0.027830016,0.003575629,0.00005126593,0.00034050373],"about_ca_topic_score_codex":0.00008302051,"about_ca_topic_score_gemma":0.000033369044,"teacher_disagreement_score":0.94434774,"about_ca_system_score_codex":0.000019553117,"about_ca_system_score_gemma":0.000011008747,"threshold_uncertainty_score":0.9916346},"labels":[],"label_agreement":null},{"id":"W2117347028","doi":"10.1093/cercor/bhs005","title":"The Hermunculus: What Is Known about the Representation of the Female Body in the Brain?","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Pain Management and Placebo Effect","field":"Neuroscience","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Public Health Ontario; University of Toronto","funders":"","keywords":"Vulvodynia; Psychology; Epilepsy; Somatosensory system; Medicine; Developmental psychology; Neuroscience; Surgery; Pelvic pain","score_opus":0.03641144706239258,"score_gpt":0.30437742246701227,"score_spread":0.2679659754046197,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2117347028","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9653867,0.0008478063,0.000046105848,0.013828022,0.0010681166,0.0012735778,0.000003878572,0.000026120431,0.01751969],"genre_scores_gemma":[0.98985773,0.00019807852,0.0000016906051,0.005940654,0.00016355538,0.000053150372,0.0000013272249,0.000010801625,0.0037730238],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9962753,0.0024753592,0.00022838585,0.00021578046,0.00044473523,0.0003604323],"domain_scores_gemma":[0.99509966,0.003833185,0.00016594781,0.0008566416,0.000017716993,0.000026837284],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.003138408,0.00013249436,0.0001131965,0.000026216978,0.0005019579,0.00024535522,0.0010544462,0.00004208239,0.00010108225],"category_scores_gemma":[0.001068666,0.000051929735,0.0001301276,0.00057449716,0.00027407994,0.0005082271,0.00019314987,0.0002500151,0.00008988005],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034652077,0.00054017635,0.47314554,0.0001461738,0.00008713371,0.000011025216,0.055629436,0.00009210026,0.084762625,0.062031228,0.16691598,0.15629204],"study_design_scores_gemma":[0.0006147052,0.000057712634,0.8729206,0.00007964768,0.000048071623,0.000009762363,0.0065573915,0.0036272937,0.024835385,0.0017145046,0.089312404,0.0002225292],"about_ca_topic_score_codex":0.00007075126,"about_ca_topic_score_gemma":0.00007235206,"teacher_disagreement_score":0.39977503,"about_ca_system_score_codex":0.000020509833,"about_ca_system_score_gemma":0.000017056553,"threshold_uncertainty_score":0.3860705},"labels":[],"label_agreement":null},{"id":"W2117452439","doi":"10.1093/cercor/bhj050","title":"Brain Networks Involved in Viewing Angry Hands or Faces","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":268,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Supramarginal gyrus; Psychology; Premotor cortex; Functional magnetic resonance imaging; Neuroscience; Perception; Insula; Mirror neuron; Cognitive psychology; Dorsum; Anatomy; Medicine","score_opus":0.06955724752473919,"score_gpt":0.3039259697503017,"score_spread":0.23436872222556254,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2117452439","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9940401,0.00005113633,0.00033208376,0.0012227646,0.00020664404,0.00018555875,0.000004779264,0.00011314624,0.003843796],"genre_scores_gemma":[0.99013686,0.000097031734,0.00009277757,0.006499559,0.000200069,0.0000147370965,0.000012469194,0.00001562472,0.0029308626],"study_design_codex":"design_other","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9988934,0.0001206464,0.00022020364,0.00031869998,0.00014634154,0.0003007005],"domain_scores_gemma":[0.99958557,0.00012658046,0.000052463653,0.00013493025,0.0000139758595,0.00008646248],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0001525868,0.00012934775,0.0001504592,0.00010203684,0.000098446064,0.00007372661,0.00014199816,0.00009703042,0.0024989196],"category_scores_gemma":[0.00016942131,0.00010797888,0.000051299005,0.00035515302,0.000059364917,0.00035981077,0.000041927382,0.00021694186,0.00042885818],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00052661163,0.0005108755,0.054245565,0.00010066256,0.0000102036465,0.000090709975,0.004555563,0.0026307846,0.29067785,0.000508223,0.046096347,0.6000466],"study_design_scores_gemma":[0.00872331,0.0008016673,0.36841375,0.0005530501,0.0000299342,0.00011155405,0.0013367303,0.38975164,0.051083997,0.000537342,0.17672344,0.0019335975],"about_ca_topic_score_codex":0.000015211423,"about_ca_topic_score_gemma":0.00081080134,"teacher_disagreement_score":0.598113,"about_ca_system_score_codex":0.00005218583,"about_ca_system_score_gemma":0.000029328712,"threshold_uncertainty_score":0.9984129},"labels":[],"label_agreement":null},{"id":"W2117832025","doi":"10.1093/cercor/bhr077","title":"Learning-Induced Changes in the Cerebral Processing of Voice Identity","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":85,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University; International Laboratory for Brain, Music and Sound Research","funders":"Biotechnology and Biological Sciences Research Council","keywords":"Superior temporal sulcus; Psychology; Active listening; Superior temporal gyrus; Magnetoencephalography; Functional magnetic resonance imaging; Identity (music); Temporal lobe; Gyrus; Audiology; Limbic lobe; Communication; Cognitive psychology; Neuroscience; Electroencephalography; Acoustics; Medicine","score_opus":0.0942545053239449,"score_gpt":0.3034649541291906,"score_spread":0.2092104488052457,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2117832025","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9926945,0.0000035866967,0.00003260678,0.00013970167,0.0002574365,0.0002039901,0.0000015430114,0.000046859375,0.0066197603],"genre_scores_gemma":[0.99851394,0.0000077618015,0.000021468486,0.00113302,0.00006747891,0.000014779618,7.175537e-7,0.000010764127,0.00023009731],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99854136,0.00018980865,0.00019387157,0.00038549912,0.0003785192,0.00031095181],"domain_scores_gemma":[0.9995082,0.000040558054,0.00015034265,0.00022706074,0.000029889556,0.00004396778],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00033118794,0.00012358246,0.0001420574,0.00012041496,0.00017717307,0.00005551551,0.0005623896,0.000055226512,0.00013803117],"category_scores_gemma":[0.00028199924,0.00009039748,0.000045351666,0.00067287614,0.00017463793,0.0007009139,0.000091533,0.00029119878,0.000060776114],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000019305446,0.0001065145,0.0084122745,0.000026162803,3.4292754e-7,0.000013597522,0.006735774,6.490674e-7,0.976664,0.0006590942,0.000035950212,0.0073263305],"study_design_scores_gemma":[0.0004028711,0.0004784043,0.8024411,0.000048689773,0.000012034014,0.000050252056,0.0018690526,0.000469578,0.19256118,0.0011719887,0.00027318887,0.00022163706],"about_ca_topic_score_codex":0.00020558175,"about_ca_topic_score_gemma":0.00053840235,"teacher_disagreement_score":0.7940288,"about_ca_system_score_codex":0.000019139761,"about_ca_system_score_gemma":0.00004699494,"threshold_uncertainty_score":0.36863023},"labels":[],"label_agreement":null},{"id":"W2117847087","doi":"10.1093/cercor/bhp269","title":"The Nature and Time Course of Cortical Activation Following Subthalamic Stimulation in Parkinson's Disease","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurological disorders and treatments","field":"Medicine","cited_by":138,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network","funders":"Canadian Institutes of Health Research","keywords":"Antidromic; Subthalamic nucleus; Neuroscience; Deep brain stimulation; Motor cortex; Transcranial magnetic stimulation; Stimulation; Parkinson's disease; Basal ganglia; Corticospinal tract; Psychology; Evoked potential; Medicine; Central nervous system; Magnetic resonance imaging; Disease; Internal medicine","score_opus":0.00847102396478116,"score_gpt":0.2693336291827624,"score_spread":0.2608626052179812,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2117847087","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997366,0.0003127282,0.000006290558,0.0017607345,0.000025997047,0.00025300507,0.0000020492682,0.000014211556,0.0002589905],"genre_scores_gemma":[0.99929935,0.000020193616,0.000013978995,0.00054536597,0.000012824775,0.0000028824682,0.000024276007,0.00000436331,0.000076780336],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9994926,0.000030446698,0.00011566258,0.00013869959,0.00010957897,0.0001130505],"domain_scores_gemma":[0.99969256,0.00008677552,0.000036775826,0.00010291486,0.000016374923,0.000064612344],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00004758774,0.00007463626,0.00012629814,0.000021030106,0.00005171474,0.000008341845,0.000025873911,0.00006270561,0.000012950993],"category_scores_gemma":[0.00009013224,0.000045446825,0.000046514597,0.00008785617,0.000033398388,0.00005096979,0.000008424303,0.00015989046,0.0000023607613],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007156293,0.0003690919,0.97920555,0.000008493122,0.000024929113,0.00005170575,0.00002761708,0.000007232816,0.0042652776,0.0006575579,0.00010435463,0.014562556],"study_design_scores_gemma":[0.0011859256,0.00026329674,0.991694,0.000025134987,0.000047512003,8.812798e-7,0.0000092736855,0.0028858231,0.0001087513,0.0036887021,0.000050663755,0.000040091265],"about_ca_topic_score_codex":0.0000025269517,"about_ca_topic_score_gemma":0.0000014621895,"teacher_disagreement_score":0.014522464,"about_ca_system_score_codex":0.000012979656,"about_ca_system_score_gemma":0.00002147373,"threshold_uncertainty_score":0.18532678},"labels":[],"label_agreement":null},{"id":"W2117951805","doi":"10.1093/cercor/bhr351","title":"Right Hemisphere Brain Damage Impairs Strategy Updating","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spatial Neglect and Hemispheric Dysfunction","field":"Neuroscience","cited_by":68,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"Canadian Institutes of Health Research","keywords":"Neglect; Insula; Lesion; Physical medicine and rehabilitation; Unilateral neglect; Psychology; Medicine; Audiology; Neuroscience; Psychiatry","score_opus":0.03499520081498135,"score_gpt":0.2506857460323067,"score_spread":0.21569054521732534,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2117951805","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.78217936,0.000012569876,0.00028298798,0.000067167166,0.00036296286,0.00016437203,0.000005610063,0.0002531249,0.21667185],"genre_scores_gemma":[0.99322844,0.0000042582337,0.0002690648,0.0010122814,0.00019042056,0.000013607946,0.000008313155,0.00003614062,0.005237488],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984631,0.000056070596,0.00028064018,0.0005065624,0.000245607,0.0004480069],"domain_scores_gemma":[0.99922055,0.00008044025,0.0001392357,0.00035346067,0.000035386412,0.00017090102],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000088338995,0.00022077496,0.00019000712,0.000028574537,0.00024417476,0.000070927905,0.0003209249,0.00011080215,0.014454073],"category_scores_gemma":[0.00018779477,0.00019774638,0.00009433112,0.00034312825,0.00010740137,0.00036676257,0.00008170566,0.0002530311,0.0005011738],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010849544,0.00014225586,0.0071046758,0.000032085663,0.000008657613,0.000085223895,0.00047266996,0.0000069646844,0.96185553,0.0065888013,0.013234664,0.010359993],"study_design_scores_gemma":[0.001321046,0.00058996794,0.07715058,0.000048927686,0.000033756914,0.00007360361,0.0006104295,0.0033926,0.9053722,0.0058659967,0.0047266786,0.0008142274],"about_ca_topic_score_codex":0.0002228505,"about_ca_topic_score_gemma":0.00010910858,"teacher_disagreement_score":0.21143436,"about_ca_system_score_codex":0.000045327728,"about_ca_system_score_gemma":0.000067735135,"threshold_uncertainty_score":0.98644686},"labels":[],"label_agreement":null},{"id":"W2118887217","doi":"10.1093/cercor/bhp081","title":"Connecting Long Distance: Semantic Distance in Analogical Reasoning Modulates Frontopolar Cortex Activity","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":224,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"The Scarborough Hospital; University of Toronto; University of Waterloo","funders":"","keywords":"Functional magnetic resonance imaging; Semantic memory; Computer science; Task (project management); Cognition; Brain activity and meditation; Semantic similarity; Cognitive psychology; Brain mapping; Analogical reasoning; Artificial intelligence; Cognitive science; Natural language processing; Psychology; Electroencephalography; Analogy; Neuroscience; Linguistics","score_opus":0.06003228700754498,"score_gpt":0.33807814268191416,"score_spread":0.2780458556743692,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2118887217","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996378,0.00024153122,0.00073237106,0.000593975,0.00039412372,0.0002815073,0.000016513002,0.00019011216,0.001171886],"genre_scores_gemma":[0.9988645,0.000041192245,0.00006736582,0.00057844934,0.000087659995,0.000007646982,0.000003901714,0.000017365926,0.0003319748],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9975559,0.00016277721,0.00034523578,0.00096845056,0.00028209455,0.000685543],"domain_scores_gemma":[0.9991886,0.00013248398,0.00018007087,0.00034153258,0.00003000171,0.00012732556],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014777645,0.00032793044,0.00049408345,0.000079762205,0.0003941581,0.00008500107,0.000338041,0.0001263856,0.00008655215],"category_scores_gemma":[0.0002482113,0.00027292134,0.0001227174,0.00047443874,0.00018828125,0.0004386356,0.00008371564,0.00055208534,0.000039666193],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00032646913,0.0005891121,0.3328575,0.000024240928,0.000007881751,0.0009407132,0.00038295475,0.000029136223,0.62968254,0.0023099107,0.00013878997,0.032710794],"study_design_scores_gemma":[0.0006300516,0.00022975818,0.9770957,0.00008025474,0.000017932418,0.00006032952,0.00009768108,0.0013187374,0.018450184,0.0015482176,0.000083962055,0.0003871467],"about_ca_topic_score_codex":0.000100637364,"about_ca_topic_score_gemma":0.0007037575,"teacher_disagreement_score":0.64423823,"about_ca_system_score_codex":0.000097966586,"about_ca_system_score_gemma":0.00001244676,"threshold_uncertainty_score":0.9999723},"labels":[],"label_agreement":null},{"id":"W2118904060","doi":"10.1093/cercor/bhu017","title":"GluN2A<sup>−/−</sup>Mice Lack Bidirectional Synaptic Plasticity in the Dentate Gyrus and Perform Poorly on Spatial Pattern Separation Tasks","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria; University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Conselho Nacional de Desenvolvimento Científico e Tecnológico","keywords":"Dentate gyrus; NMDA receptor; Synaptic plasticity; Neuroscience; Hippocampal formation; Long-term potentiation; Protein subunit; AMPA receptor; Granule cell; Hippocampus; Biology; Receptor; Biochemistry","score_opus":0.04550209158888149,"score_gpt":0.3320544526969364,"score_spread":0.28655236110805493,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2118904060","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99757236,0.0000027134072,0.0001109814,0.0009212611,0.00029138275,0.00035955675,0.0000174937,0.000043118856,0.00068115024],"genre_scores_gemma":[0.99445236,0.000023791239,0.0000015888664,0.0051012305,0.0001801516,0.00003629085,0.0000019515564,0.000015886582,0.00018676724],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9976099,0.0005378662,0.00023564803,0.0006410075,0.0005088245,0.00046671246],"domain_scores_gemma":[0.9987811,0.00083777314,0.00007312449,0.000168957,0.000027462693,0.00011160246],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030462057,0.00019256148,0.00016825992,0.00016658427,0.0004110506,0.00015150452,0.0004041615,0.00006660189,0.00016106878],"category_scores_gemma":[0.00038902886,0.00014309844,0.000043939377,0.00035762967,0.00034432116,0.00027334708,0.00010756544,0.0005592035,0.0002665936],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006699065,0.0005273546,0.08274152,0.000056040953,0.00000963978,0.00025310056,0.0011824869,0.0010424079,0.8887635,0.0006331779,0.0013765772,0.022744302],"study_design_scores_gemma":[0.0023070024,0.0021881538,0.34039727,0.000030742347,0.000033305878,0.0004596607,0.000104263054,0.4777803,0.17471978,0.00032151252,0.0011768707,0.0004811175],"about_ca_topic_score_codex":0.00014602697,"about_ca_topic_score_gemma":0.00009507387,"teacher_disagreement_score":0.7140437,"about_ca_system_score_codex":0.000039644325,"about_ca_system_score_gemma":0.000050627586,"threshold_uncertainty_score":0.5835385},"labels":[],"label_agreement":null},{"id":"W2119681963","doi":"10.1093/cercor/bhs424","title":"Macaque Dorsolateral Prefrontal Cortex Does not Suppress Saccade-Related Activity in the Superior Colliculus","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Robarts Clinical Trials; Western University; Ontario Brain Institute","funders":"Canadian Institutes of Health Research","keywords":"Saccade; Superior colliculus; Antisaccade task; Dorsolateral prefrontal cortex; Neuroscience; Macaque; Psychology; Prefrontal cortex; Inhibitory postsynaptic potential; Stimulus (psychology); Midbrain; Excitatory postsynaptic potential; Superior Colliculi; Eye movement; Visual cortex; Visual system; Cognitive psychology; Cognition; Central nervous system","score_opus":0.025595935755826825,"score_gpt":0.2768581274834139,"score_spread":0.25126219172758707,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2119681963","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9946839,0.000004646295,0.00003625244,0.0014164565,0.00065824145,0.0008426203,0.00004416045,0.00015995496,0.0021537757],"genre_scores_gemma":[0.9938937,0.000009335717,0.000039731734,0.0024794168,0.00008358463,0.00012719813,0.000009612626,0.000035540037,0.003321875],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975158,0.00040460596,0.0003740478,0.0006680612,0.00044930202,0.00058815966],"domain_scores_gemma":[0.9991759,0.00013213782,0.00012500773,0.00038472557,0.000034565895,0.00014763343],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00017724515,0.0003142056,0.00029794738,0.00010816634,0.00034052844,0.0004403652,0.0006641983,0.00023501104,0.003422841],"category_scores_gemma":[0.000093650466,0.00019134632,0.00011688636,0.0003872373,0.00020110789,0.00088601146,0.00012584742,0.0006287793,0.00079370645],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007269236,0.00015342108,0.00091188616,0.000023322369,0.000003524131,0.000022729972,0.0020379755,0.000003447397,0.9933589,0.00046343956,0.00021245799,0.0027362034],"study_design_scores_gemma":[0.0014536018,0.00036809695,0.47050878,0.00005759657,0.00002341397,0.00016358694,0.0007454294,0.012149101,0.51098794,0.002344576,0.00049461814,0.0007032826],"about_ca_topic_score_codex":0.0005508119,"about_ca_topic_score_gemma":0.0001914618,"teacher_disagreement_score":0.48237097,"about_ca_system_score_codex":0.00008287742,"about_ca_system_score_gemma":0.00006230196,"threshold_uncertainty_score":0.99998426},"labels":[],"label_agreement":null},{"id":"W2119745801","doi":"10.1093/cercor/bhm230","title":"Do Cross-Modal Projections Always Result in Multisensory Integration?","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Neurological Disorders and Stroke; National Institute on Alcohol Abuse and Alcoholism; School of Medicine, Virginia Commonwealth University; U.S. Public Health Service; Natural Sciences and Engineering Research Council of Canada; Ministério da Educação; National Institutes of Health; Virginia Commonwealth University","keywords":"Modal; Crossmodal; Multisensory integration; Computer science; Psychology; Neuroscience; Chemistry; Sensory system; Visual perception; Perception","score_opus":0.09526215549930031,"score_gpt":0.38831362584845264,"score_spread":0.29305147034915235,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2119745801","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8989069,0.00003725653,0.00051310303,0.00015992705,0.0012068744,0.00047132798,0.0000409403,0.00019070723,0.098473],"genre_scores_gemma":[0.960209,0.000021772023,0.0005986445,0.00034805667,0.00027824886,0.000111988826,0.00010138963,0.00003196946,0.03829891],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99809533,0.00019084301,0.000554405,0.0005673654,0.00022065775,0.00037136851],"domain_scores_gemma":[0.9990633,0.00005827332,0.0001193235,0.00046455394,0.00017999034,0.00011455341],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00015627927,0.00023184453,0.00023474346,0.0003183467,0.00027652964,0.00005663402,0.00016889097,0.00025935602,0.0098717725],"category_scores_gemma":[0.00012834818,0.00021311728,0.00012814194,0.000383116,0.00024028652,0.00030434533,0.000024943456,0.00049641664,0.0030371451],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0017693251,0.002564445,0.63175577,0.000032111246,0.00013390623,0.0003744376,0.060110215,0.0002088285,0.06899417,0.04145465,0.1365656,0.056036558],"study_design_scores_gemma":[0.0018751579,0.00013237567,0.9875268,0.000019678251,0.00000641301,0.00016372974,0.0019798214,0.0016391084,0.0003017453,0.00012697751,0.0059494,0.00027883294],"about_ca_topic_score_codex":0.0010645649,"about_ca_topic_score_gemma":0.0010719688,"teacher_disagreement_score":0.355771,"about_ca_system_score_codex":0.00015757841,"about_ca_system_score_gemma":0.00006304603,"threshold_uncertainty_score":0.9977391},"labels":[],"label_agreement":null},{"id":"W2120042980","doi":"10.1093/cercor/bhr338","title":"The Neocortical Network Representing Associative Memory Reorganizes with Time in a Process Engaging the Anterior Temporal Lobe","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"National Institute of Mental Health; Nederlandse Organisatie voor Wetenschappelijk Onderzoek","keywords":"Magnetoencephalography; Temporal lobe; Neocortex; Neuroscience; Association (psychology); Semantic memory; Episodic memory; Hippocampus; Functional magnetic resonance imaging; Associative property; Temporal cortex; Psychology; Representation (politics); Posterior parietal cortex; Computer science; Electroencephalography; Cognition; Epilepsy","score_opus":0.021559311315309963,"score_gpt":0.2389595664208655,"score_spread":0.21740025510555552,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2120042980","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9929599,0.00002402826,0.000042602907,0.00076959486,0.00023553368,0.00042317458,0.0000020641958,0.00007884543,0.0054642116],"genre_scores_gemma":[0.9977768,0.000005864426,0.000042080705,0.0007337772,0.00015121848,0.000027544087,0.0000011620657,0.000026315356,0.0012352102],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99821526,0.00032321972,0.0002795322,0.00042279472,0.00028546064,0.0004737079],"domain_scores_gemma":[0.99893546,0.00045927364,0.00021196097,0.0002871017,0.000052106217,0.000054121232],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00052963686,0.00016338323,0.00017592557,0.000026496271,0.0006606505,0.00013507764,0.00037629716,0.000048969934,0.00006058596],"category_scores_gemma":[0.0006393642,0.000084951964,0.00005000365,0.000544528,0.0002405122,0.00023595631,0.00013922332,0.00046341014,0.00003362768],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0019896042,0.0004474887,0.85123056,0.000071884955,0.00010036968,0.00060351705,0.014866628,0.00016228683,0.10046405,0.0053450316,0.0026634054,0.022055142],"study_design_scores_gemma":[0.0017581645,0.0006807666,0.8890534,0.0002986089,0.00007438686,0.00020880776,0.003183725,0.06893728,0.022587216,0.012005682,0.00031800065,0.00089395756],"about_ca_topic_score_codex":0.00006851147,"about_ca_topic_score_gemma":0.00015956517,"teacher_disagreement_score":0.077876836,"about_ca_system_score_codex":0.000043505202,"about_ca_system_score_gemma":0.0000575282,"threshold_uncertainty_score":0.50812566},"labels":[],"label_agreement":null},{"id":"W2120244066","doi":"10.1093/cercor/bhl159","title":"Task-Related Modulation of Early Cortical Responses during Language Production: An Event-Related Synthetic Aperture Magnetometry Study","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation; Hospital for Sick Children; University of Toronto; Simon Fraser University","funders":"","keywords":"Magnetoencephalography; Psychology; Sensory system; Functional magnetic resonance imaging; Brain activity and meditation; Stimulus (psychology); Audiology; Premotor cortex; Neuroscience; Perception; Cognitive psychology; Electroencephalography; Dorsum; Medicine; Anatomy","score_opus":0.014511896526595357,"score_gpt":0.2752001780029676,"score_spread":0.26068828147637224,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2120244066","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980453,0.000023701228,0.00005112701,0.000111273526,0.00073623436,0.00063461746,0.00001145451,0.00018297635,0.00020327797],"genre_scores_gemma":[0.99732584,0.0000022858906,0.000016624006,0.00005236539,0.0000656475,0.0000063223397,0.000011783669,0.000034206372,0.0024849407],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9976942,0.00031186634,0.00055501505,0.0006419087,0.00046162418,0.00033539507],"domain_scores_gemma":[0.99891436,0.00022118482,0.00020862395,0.00045238945,0.00007378358,0.00012965563],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00047576474,0.00020221365,0.00023168347,0.00029224856,0.00022624359,0.000041227988,0.00018804926,0.00013509902,0.00017782234],"category_scores_gemma":[0.0010686294,0.0001784672,0.00008196116,0.0009499998,0.0001238212,0.000379837,0.00006268437,0.00038343848,0.000041775107],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005521979,0.00047220587,0.02246446,0.000018352495,0.000012506385,0.00008433842,0.00084295106,0.0001262622,0.9734545,0.00019651379,0.0000046594173,0.0017710607],"study_design_scores_gemma":[0.0006975996,0.0010481676,0.9612099,0.000026083257,0.00003791312,0.00012252537,0.00052216527,0.005346182,0.030657267,0.000097174205,0.0000061035416,0.00022893124],"about_ca_topic_score_codex":0.000035886966,"about_ca_topic_score_gemma":0.000026009688,"teacher_disagreement_score":0.94279724,"about_ca_system_score_codex":0.00006225243,"about_ca_system_score_gemma":0.000025770874,"threshold_uncertainty_score":0.7277682},"labels":[],"label_agreement":null},{"id":"W2120371661","doi":"10.1093/cercor/12.3.225","title":"Blood Capillary Distribution Correlates with Hemodynamic-based Functional Imaging in Cerebral Cortex","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":225,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; SickKids Foundation; University of Toronto","funders":"","keywords":"Cortex (anatomy); Functional magnetic resonance imaging; Neuroscience; Visual cortex; Hemodynamics; Cerebral cortex; Functional imaging; Temporal cortex; Auditory cortex; Sensory system; Neuroimaging; Stimulation; Psychology; Chemistry; Medicine; Internal medicine","score_opus":0.014018501872872671,"score_gpt":0.19839985290116285,"score_spread":0.18438135102829017,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2120371661","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9941811,0.000069503905,0.0017680783,0.00082782767,0.0007517173,0.0004009545,0.00011178764,0.00023064742,0.0016583685],"genre_scores_gemma":[0.99740666,0.000013900472,0.000047187816,0.0011966776,0.000112709786,0.000031774664,0.00027974992,0.000049468283,0.00086189376],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.99744815,0.00011680403,0.00040846074,0.000878913,0.0005085439,0.000639125],"domain_scores_gemma":[0.9990199,0.0001756962,0.00019229272,0.00037002945,0.00007132118,0.00017073327],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000110012035,0.00036848936,0.00028671417,0.00016849914,0.000305123,0.00013460802,0.00023068099,0.00011090138,0.00076656445],"category_scores_gemma":[0.000115911906,0.0003231067,0.000118935706,0.00069813186,0.00023257063,0.00047518392,0.00006712095,0.0004788509,0.0001558171],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00073479913,0.0017801843,0.46956357,0.00012454021,0.00003647145,0.0010298112,0.00013427815,0.004999136,0.4927576,0.013035503,0.00475261,0.011051488],"study_design_scores_gemma":[0.0033361327,0.0003447615,0.36979803,0.00008807125,0.000058797876,0.00041745082,0.000043282205,0.61766356,0.0064373575,0.0007037447,0.00042355468,0.0006852777],"about_ca_topic_score_codex":0.00007143001,"about_ca_topic_score_gemma":0.00011630877,"teacher_disagreement_score":0.6126644,"about_ca_system_score_codex":0.00016876888,"about_ca_system_score_gemma":0.000052956566,"threshold_uncertainty_score":0.9999221},"labels":[],"label_agreement":null},{"id":"W2121184775","doi":"10.1093/cercor/bhi033","title":"Impairment of Gaze-centered Updating of Reach Targets in Bilateral Parietal–Occipital Damaged Patients","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spatial Neglect and Hemispheric Dysfunction","field":"Neuroscience","cited_by":79,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"","keywords":"Gaze; Parietal lobe; Psychology; Neuroscience; Posterior parietal cortex; Cognitive psychology; Medicine; Anatomy; Physical medicine and rehabilitation","score_opus":0.014455060300058015,"score_gpt":0.2405527591381266,"score_spread":0.22609769883806857,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2121184775","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967964,0.000011666159,0.000037698723,0.000038377024,0.00026277435,0.0003121556,0.000016751557,0.000030343688,0.0024938048],"genre_scores_gemma":[0.9993183,0.0000060271846,0.00029865358,0.00011332155,0.000053083506,0.000009835355,0.00002772687,0.000017116057,0.00015591964],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99850214,0.000076775344,0.00052870077,0.00030813928,0.00029573773,0.00028851398],"domain_scores_gemma":[0.99935573,0.0000411963,0.00027086874,0.00021292525,0.000052099756,0.00006718291],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000087877386,0.00015151642,0.00025826195,0.000074281656,0.00004777347,0.0000145025,0.0001769329,0.00006691377,0.00042138496],"category_scores_gemma":[0.00013120532,0.00014125752,0.00008186041,0.00028546943,0.00007166591,0.00026171588,0.00008930079,0.00014436623,0.000016305883],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003167039,0.00090310106,0.44998702,0.000054039836,0.0000070598803,0.0000031867735,0.00099689,0.000064476015,0.5389798,0.00011936412,0.0004294539,0.008138861],"study_design_scores_gemma":[0.0023537106,0.0005808275,0.7087094,0.00006560782,0.000011326279,0.0000019531365,0.00008670473,0.0024448053,0.28528622,0.00007424998,0.00019457562,0.0001906153],"about_ca_topic_score_codex":0.00010380139,"about_ca_topic_score_gemma":0.00008124392,"teacher_disagreement_score":0.25872236,"about_ca_system_score_codex":0.000078163015,"about_ca_system_score_gemma":0.000035020006,"threshold_uncertainty_score":0.5760315},"labels":[],"label_agreement":null},{"id":"W2121824001","doi":"10.1093/cercor/bhr073","title":"The Role of Right Temporal Lobe Structures in Off-line Action: Evidence from Lesion-Behavior Mapping in Stroke Patients","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spatial Neglect and Hemispheric Dysfunction","field":"Neuroscience","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Institute for Health and Care Research","keywords":"Neglect; Psychology; Neuroscience; Temporal lobe; Lesion; Lateralization of brain function; Perception; Cognitive psychology; Dissociation (chemistry); Visual processing; Visual field; Audiology; Medicine","score_opus":0.06615485626986277,"score_gpt":0.2762005676705892,"score_spread":0.21004571140072642,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2121824001","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99842143,0.00014546065,0.00003093584,0.000015444759,0.00053164945,0.00029272225,0.000014481927,0.00002477555,0.0005230699],"genre_scores_gemma":[0.99953103,0.0000610911,0.00011769089,0.000043720625,0.000065191976,0.00002225057,0.000005433907,0.000012102366,0.00014148392],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99864614,0.000098929886,0.00038847487,0.0003318486,0.00029866243,0.00023596812],"domain_scores_gemma":[0.9993002,0.00014171212,0.00020262934,0.00026117553,0.000043429678,0.000050894665],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007239646,0.00014332485,0.00017891303,0.00006243842,0.000104257575,0.000025155961,0.00028962007,0.00008736333,0.0005089916],"category_scores_gemma":[0.00019434834,0.00010498995,0.000052795083,0.00030510762,0.00009440876,0.0002993279,0.00007974902,0.00022783461,0.0000134114725],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015675425,0.00009683011,0.77692986,0.000004457645,0.0000014217354,0.000004972339,0.00040824444,0.0000037279647,0.18523094,0.000052398067,0.000025130626,0.037085235],"study_design_scores_gemma":[0.00039680058,0.000096206175,0.81698465,0.000054508426,0.000006152591,7.8259336e-7,0.00017176902,0.00050794857,0.18048792,0.0009816473,0.0002083299,0.00010327669],"about_ca_topic_score_codex":0.0029148427,"about_ca_topic_score_gemma":0.0023649607,"teacher_disagreement_score":0.040054772,"about_ca_system_score_codex":0.00007120212,"about_ca_system_score_gemma":0.000050981813,"threshold_uncertainty_score":0.55731004},"labels":[],"label_agreement":null},{"id":"W2122202390","doi":"10.1093/cercor/bhp251","title":"Cholinergic Modulation Differs between Basal and Apical Dendritic Excitation of Hippocampal CA1 Pyramidal Cells","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Excitatory postsynaptic potential; Cholinergic; Chemistry; Stimulation; Hippocampal formation; Neuroscience; Carbachol; Dendritic spine; Long-term potentiation; Pyramidal cell; Internal medicine; Endocrinology; Biology; Inhibitory postsynaptic potential; Receptor; Medicine; Biochemistry","score_opus":0.04275829881858263,"score_gpt":0.32014104992681414,"score_spread":0.2773827511082315,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2122202390","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99864906,0.000007906754,0.000117876894,0.00050607393,0.00024032929,0.00024949227,0.000015250216,0.000046948557,0.00016704242],"genre_scores_gemma":[0.998772,0.000025136937,0.000026795102,0.00090767565,0.000119379976,0.000004272707,0.0000018274928,0.000012489274,0.00013039552],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981709,0.0002096299,0.00028523421,0.0005160295,0.00042594425,0.00039224455],"domain_scores_gemma":[0.9992374,0.00026984498,0.00008688764,0.00017088825,0.000042027907,0.00019291445],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012247596,0.00015477354,0.0002227303,0.00017372645,0.00016252353,0.00004722565,0.00024769796,0.00008286373,0.00004309924],"category_scores_gemma":[0.00018695001,0.00014413356,0.0000553812,0.0003871718,0.00041569586,0.0003042901,0.00005912167,0.00029029432,0.000021951935],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000047634978,0.00005553149,0.016446048,0.000012024953,9.936633e-7,0.000026446922,0.000048229816,0.000034547294,0.98075944,0.00024266123,0.00007168697,0.0022547354],"study_design_scores_gemma":[0.00054660934,0.00034702345,0.5892926,0.0000054980037,0.0000104128085,0.0000103427765,0.0000060357515,0.006421712,0.40159693,0.001642828,0.00000808572,0.000111951726],"about_ca_topic_score_codex":0.0000043250707,"about_ca_topic_score_gemma":6.1068806e-7,"teacher_disagreement_score":0.57916254,"about_ca_system_score_codex":0.000021637761,"about_ca_system_score_gemma":0.000041999665,"threshold_uncertainty_score":0.5877596},"labels":[],"label_agreement":null},{"id":"W2122205042","doi":"10.1093/cercor/bhu234","title":"The DCDC2 Intron 2 Deletion Impairs Illusory Motion Perception Unveiling the Selective Role of Magnocellular-Dorsal Stream in Reading (Dis)ability","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Reading and Literacy Development","field":"Psychology","cited_by":78,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; Institut Universitaire en Santé Mentale de Québec","funders":"","keywords":"Parvocellular cell; Dyslexia; Psychology; Motion perception; Perception; Reading (process); Neuroscience; Neurocognitive; Cognitive psychology; Cognition; Central nervous system","score_opus":0.007182082817010238,"score_gpt":0.2509037165408292,"score_spread":0.24372163372381897,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2122205042","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919829,0.00012612084,0.0009118843,0.00019581238,0.00044768926,0.00038602384,0.0000035346382,0.00005422326,0.005891826],"genre_scores_gemma":[0.99921566,0.000011358802,0.00008835802,0.00004919217,0.00014983662,0.000051362444,0.000040751605,0.00002175828,0.0003717162],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9978289,0.0006707291,0.0005038366,0.00040030802,0.00021611316,0.00038013177],"domain_scores_gemma":[0.9988705,0.00033478264,0.0002145421,0.00041849527,0.00011531776,0.00004635788],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0015170173,0.00018658536,0.00021463816,0.00009575274,0.00024848373,0.000041856536,0.00023606427,0.00013541566,0.00014972467],"category_scores_gemma":[0.00017005981,0.00012272272,0.000097596785,0.000275511,0.0001859868,0.00012894059,0.000048757123,0.0003786096,0.000062372026],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005722296,0.00038433017,0.30162206,0.00005229475,0.0001079536,0.0000024226686,0.03741439,0.00035188,0.02728123,0.012994334,0.00047589824,0.618741],"study_design_scores_gemma":[0.00054208847,0.00019113682,0.97399545,0.00004498415,0.00002363059,0.0000122656165,0.008194175,0.010185605,0.00070290506,0.0049174298,0.0010091754,0.00018116804],"about_ca_topic_score_codex":0.00069228595,"about_ca_topic_score_gemma":0.00012335634,"teacher_disagreement_score":0.67237335,"about_ca_system_score_codex":0.00026967961,"about_ca_system_score_gemma":0.000035891182,"threshold_uncertainty_score":0.5004487},"labels":[],"label_agreement":null},{"id":"W2122906055","doi":"10.1093/cercor/bhk038","title":"Heterosynaptic Facilitation of In Vivo Thalamocortical Long-Term Potentiation in the Adult Rat Visual Cortex by Acetylcholine","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":65,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"","keywords":"Long-term potentiation; Neuroscience; Basal forebrain; LTP induction; Cholinergic; Synaptic plasticity; Acetylcholine; Muscarinic acetylcholine receptor; Postsynaptic potential; Stimulation; Lateral geniculate nucleus; Carbachol; Hippocampus; Visual cortex; Biology; Chemistry; Excitatory postsynaptic potential; Endocrinology; Inhibitory postsynaptic potential; Receptor","score_opus":0.022797163195066403,"score_gpt":0.3228228169112689,"score_spread":0.3000256537162025,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2122906055","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9984336,0.000017099459,0.000059604215,0.00044822684,0.00020935397,0.0006357658,0.000024484565,0.000026612155,0.00014525447],"genre_scores_gemma":[0.998596,0.000037755897,0.0000025519603,0.0009001737,0.000035863126,0.00004829965,0.000007561685,0.000014573767,0.00035719795],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99715966,0.00056218007,0.00053854147,0.00059683097,0.0006202804,0.0005224912],"domain_scores_gemma":[0.99915546,0.00035939153,0.00013209485,0.00023641184,0.000056718833,0.000059921065],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00029483932,0.00018519736,0.00023384533,0.00022681316,0.00010564186,0.000060070037,0.00048911193,0.000092135124,0.00011462358],"category_scores_gemma":[0.00032665613,0.0001451588,0.000075601965,0.0008892895,0.00045262062,0.00040211098,0.000086713386,0.0004220597,0.000036817746],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010471584,0.000429703,0.11088402,0.000019762896,6.391674e-7,0.0000814834,0.00006637048,0.000021290029,0.8877688,0.00015321703,0.00021163296,0.00025838192],"study_design_scores_gemma":[0.0011408033,0.0003241132,0.48695266,0.000013123579,0.000006544483,0.000036617304,0.000026658145,0.0034701496,0.50779057,0.00010037632,0.000010037844,0.00012835204],"about_ca_topic_score_codex":0.000060517265,"about_ca_topic_score_gemma":0.00010470855,"teacher_disagreement_score":0.37997824,"about_ca_system_score_codex":0.00004758107,"about_ca_system_score_gemma":0.00005234921,"threshold_uncertainty_score":0.5919404},"labels":[],"label_agreement":null},{"id":"W2123209339","doi":"10.1093/cercor/bhs058","title":"Processing Noncanonical Sentences in Broca's Region: Reflections of Movement Distance and Type","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":146,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Scrambling; Sentence; Sentence processing; Phrase; Movement (music); Computer science; Inferior frontal gyrus; Word order; Speech recognition; Functional magnetic resonance imaging; Psychology; Artificial intelligence; Neuroscience; Acoustics; Algorithm; Physics","score_opus":0.05185268008270379,"score_gpt":0.32791880774166654,"score_spread":0.27606612765896277,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2123209339","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969067,0.00047596366,0.000051461775,0.00022820763,0.0002048011,0.00008904585,0.0000016156469,0.000020605814,0.002021612],"genre_scores_gemma":[0.9986135,0.000044275217,0.00009786142,0.00077163504,0.000075235424,0.0000030949157,7.827722e-7,0.000005394481,0.00038826818],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993035,0.00005512548,0.00016345466,0.00019698965,0.00007859778,0.0002023244],"domain_scores_gemma":[0.9997037,0.000052072224,0.00007377527,0.00010147302,0.000018535036,0.000050437433],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006997475,0.00007399658,0.0001163005,0.00004241712,0.000062207626,0.000010116631,0.00008559827,0.00004148824,0.00002114054],"category_scores_gemma":[0.00010763937,0.000059961065,0.00001800652,0.00022627962,0.0001842,0.00014638758,0.000044057233,0.00011187713,0.0000036970214],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001360353,0.00030224162,0.1723062,0.000096936834,0.000003791117,0.00013842742,0.0028801768,0.0000026566045,0.8109933,0.0022663295,0.00024345232,0.010630436],"study_design_scores_gemma":[0.00246992,0.0012855505,0.37892884,0.00050214125,0.00006579358,0.0017379518,0.0036095432,0.00049854274,0.5947067,0.003815987,0.011204013,0.0011750064],"about_ca_topic_score_codex":0.000032046202,"about_ca_topic_score_gemma":0.00010099705,"teacher_disagreement_score":0.2162866,"about_ca_system_score_codex":0.000013324117,"about_ca_system_score_gemma":0.000032791726,"threshold_uncertainty_score":0.24451412},"labels":[],"label_agreement":null},{"id":"W2123413067","doi":"10.1093/cercor/bhq189","title":"From Language Comprehension to Action Understanding and Back Again","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Deafness and Other Communication Disorders; Canadian Institutes of Health Research","keywords":"Functional magnetic resonance imaging; Comprehension; Premotor cortex; Action (physics); Psychology; Cognition; Mirror neuron; Object (grammar); Cognitive psychology; Cognitive science; Neuroimaging; Cognitive neuroscience; Linguistics; Neuroscience; Computer science; Artificial intelligence","score_opus":0.08121574388035684,"score_gpt":0.343109072671415,"score_spread":0.26189332879105814,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2123413067","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9697323,0.00001089183,0.01938421,0.0006533906,0.0015008055,0.0001435951,0.000009728426,0.000078096076,0.0084869815],"genre_scores_gemma":[0.9945416,0.0000013003539,0.00059228024,0.0009777688,0.00029958595,0.0000037608977,0.00008991601,0.000015030277,0.003478769],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99939686,0.000040398238,0.00012731049,0.00022835698,0.00008649724,0.00012058711],"domain_scores_gemma":[0.99959767,0.000047614805,0.00005275148,0.00018289729,0.000024645438,0.00009442985],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.000056790857,0.00008370469,0.00009001274,0.00006227222,0.0000930765,0.000040698098,0.000050629307,0.00010831803,0.009704372],"category_scores_gemma":[0.000015558397,0.00008308439,0.000019504854,0.00012388355,0.000025256144,0.00011665798,0.000024444833,0.00016288414,0.0011479579],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00031080755,0.00020084402,0.104058936,0.000027679695,0.00011495858,0.000019405958,0.025615798,0.000018726154,0.6531481,0.03632681,0.10281167,0.07734624],"study_design_scores_gemma":[0.001571497,0.00011472341,0.93178755,0.000021415648,0.000025225201,0.000017544851,0.018834546,0.0019900205,0.0014618895,0.0017697059,0.042019315,0.0003865802],"about_ca_topic_score_codex":0.00032452823,"about_ca_topic_score_gemma":0.0004153093,"teacher_disagreement_score":0.8277286,"about_ca_system_score_codex":0.000042987755,"about_ca_system_score_gemma":0.00000815547,"threshold_uncertainty_score":0.99962974},"labels":[],"label_agreement":null},{"id":"W2124597841","doi":"10.1093/cercor/bhr347","title":"Interactions of Memory and Perception in Amnesia: The Figure–Ground Perspective","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":89,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; National Science Foundation","keywords":"Perirhinal cortex; Perception; Cognitive psychology; Psychology; Perspective (graphical); Object (grammar); Amnesia; Task (project management); Function (biology); Figure–ground; Cognitive science; Cognition; Recognition memory; Computer science; Neuroscience; Artificial intelligence","score_opus":0.10815062057812606,"score_gpt":0.3119493949777546,"score_spread":0.2037987743996285,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2124597841","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98274887,0.000013912944,0.000034224624,0.00018420826,0.00026900263,0.00019067337,0.0000035006121,0.000020231657,0.016535373],"genre_scores_gemma":[0.998648,0.000014662932,0.00004099501,0.00031738108,0.000034209595,0.000011924289,3.4409112e-7,0.000007494298,0.00092502433],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99925053,0.00012699314,0.00014452044,0.00024823315,0.000099302444,0.0001303903],"domain_scores_gemma":[0.9996019,0.000095776595,0.00006973892,0.00017208415,0.000024123015,0.000036401878],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000090124326,0.00008890802,0.000108103406,0.00006609685,0.000098504526,0.000012514626,0.00013919614,0.000033542074,0.00087320036],"category_scores_gemma":[0.00011920263,0.00006233388,0.000037033333,0.0001602252,0.00013753962,0.00024010793,0.000050480976,0.00019088764,0.000037759255],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000079368634,0.00007404578,0.000407284,0.000009304958,0.0000020499253,0.000012518326,0.006909652,4.2068135e-7,0.97767824,0.013045682,0.000050208935,0.0017312496],"study_design_scores_gemma":[0.0004755929,0.00030472063,0.28813884,0.000036049612,0.000020796575,0.00013773996,0.013465418,0.0004415058,0.6795402,0.017213404,0.000038439124,0.0001872725],"about_ca_topic_score_codex":0.00011553855,"about_ca_topic_score_gemma":0.0001225584,"teacher_disagreement_score":0.298138,"about_ca_system_score_codex":0.00003061003,"about_ca_system_score_gemma":0.000012928529,"threshold_uncertainty_score":0.9560932},"labels":[],"label_agreement":null},{"id":"W2125055052","doi":"10.1093/cercor/bhn161","title":"A Dual Role for Prediction Error in Associative Learning","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":332,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Wellcome Trust","keywords":"Surprise; Associative property; Functional magnetic resonance imaging; Stimulus (psychology); Perception; Associative learning; Sensory system; Psychology; Cognitive psychology; Visual cortex; Predictive coding; Visual perception; Computer science; Neuroscience; Artificial intelligence; Coding (social sciences); Communication","score_opus":0.034798543720085374,"score_gpt":0.25745285630236153,"score_spread":0.22265431258227616,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2125055052","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9965993,0.0000060102507,0.00020721837,0.0002016165,0.0003652929,0.00028656606,0.000039428698,0.000089302914,0.0022052645],"genre_scores_gemma":[0.9959328,0.0000072496473,0.000046906527,0.00030297865,0.00011579135,0.000040371473,0.000020941297,0.00001475646,0.003518198],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9990797,0.00007102918,0.00016084049,0.0002998887,0.00015470454,0.00023381771],"domain_scores_gemma":[0.9996239,0.00015220586,0.000086583095,0.00006746537,0.000027602746,0.000042227904],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000095595555,0.00009257681,0.00011758282,0.00007202054,0.00022403488,0.000017038185,0.00006104069,0.00006375851,0.00003092313],"category_scores_gemma":[0.0004997942,0.00008875927,0.00006001507,0.00020727846,0.000040824238,0.00019710188,0.000028267608,0.00019872184,0.000025044612],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035855477,0.0002755754,0.21492231,0.000024685458,0.000011836225,0.000056865054,0.0021925566,0.0010600322,0.7663819,0.0046919393,0.0022781854,0.007745542],"study_design_scores_gemma":[0.0018113926,0.0007879935,0.77005416,0.000019928839,0.0000103715,0.000064775515,0.00026591396,0.20482197,0.015182804,0.0026146169,0.004083939,0.0002821363],"about_ca_topic_score_codex":0.000020973446,"about_ca_topic_score_gemma":0.00003337005,"teacher_disagreement_score":0.7511991,"about_ca_system_score_codex":0.00008483035,"about_ca_system_score_gemma":0.000030017489,"threshold_uncertainty_score":0.36194977},"labels":[],"label_agreement":null},{"id":"W2125709153","doi":"10.1093/cercor/bht315","title":"The Impact of Television Viewing on Brain Structures: Cross-Sectional and Longitudinal Analyses","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Child Development and Digital Technology","field":"Social Sciences","cited_by":138,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute of Aging","funders":"","keywords":"Psychology; Longitudinal study; Cognition; Developmental psychology; Cross-sectional study; Neuroscience; Medicine","score_opus":0.06276844368996959,"score_gpt":0.39564757200276396,"score_spread":0.33287912831279437,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2125709153","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99020594,0.00014455212,0.0000147846495,0.00035904328,0.00008850257,0.00013609264,0.0000029102475,0.0000360912,0.009012078],"genre_scores_gemma":[0.99931884,0.000029702114,0.00003296306,0.000046063255,0.000068568814,0.0000030169444,0.0000037399475,0.0000043646755,0.000492718],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.999183,0.000036675505,0.00018236818,0.0001700914,0.00022202608,0.00020581557],"domain_scores_gemma":[0.99931014,0.00034331158,0.00008890407,0.000112631235,0.00008420389,0.000060793758],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018771108,0.00008740595,0.00011678413,0.00006594158,0.0005162292,0.00022317513,0.00017211845,0.000081405095,0.00030861667],"category_scores_gemma":[0.0004982648,0.000051882904,0.00008488768,0.00021004648,0.00043516484,0.00022591668,0.00005989875,0.000101166144,0.000018774252],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000149385705,0.000011609301,0.96557504,0.0000022452969,0.000033263866,5.4697347e-7,0.00030115433,0.000004958585,0.00028155584,0.0133995265,0.001877504,0.018497646],"study_design_scores_gemma":[0.00011770368,0.00007367646,0.97768545,0.00000570483,0.0000018069298,0.0000019561166,0.00014508243,0.000021629452,0.00007796184,0.02125049,0.00055234495,0.00006619341],"about_ca_topic_score_codex":0.0012151791,"about_ca_topic_score_gemma":0.00015060577,"teacher_disagreement_score":0.018431451,"about_ca_system_score_codex":0.00005506637,"about_ca_system_score_gemma":0.000085012005,"threshold_uncertainty_score":0.39704698},"labels":[],"label_agreement":null},{"id":"W2125807258","doi":"10.1093/cercor/bhs230","title":"Orbitofrontal Cortex and Olfactory Bulb Volume Predict Distinct Aspects of Olfactory Performance in Healthy Subjects","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":125,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Canadian Institutes of Health Research; Army Research Office; Vetenskapsrådet; Deutsche Forschungsgemeinschaft","keywords":"Olfactory bulb; Neuroscience; Orbitofrontal cortex; Olfactory system; Voxel-based morphometry; Psychology; Olfaction; Anterior olfactory nucleus; Olfactory tubercle; Central nervous system; Prefrontal cortex; Magnetic resonance imaging; Medicine; White matter; Cognition","score_opus":0.07629340421358691,"score_gpt":0.2503081055698396,"score_spread":0.17401470135625272,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2125807258","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9882189,0.00047799695,0.000012574741,0.000054831125,0.0015393327,0.00035619806,0.000058399186,0.00010677895,0.009175006],"genre_scores_gemma":[0.9986164,0.000100210484,0.000010380216,0.00023158816,0.00025478104,0.000015329288,0.0000075406965,0.00003332206,0.0007304788],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9976274,0.00019353582,0.0005234423,0.0005378198,0.00039759715,0.0007202452],"domain_scores_gemma":[0.9988669,0.00021106035,0.00025511364,0.00033380868,0.000046494857,0.0002866203],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00023156487,0.00033101946,0.00049661513,0.00019150076,0.00026851633,0.000023565202,0.00018753596,0.00013415808,0.00034718914],"category_scores_gemma":[0.00027786664,0.00029985077,0.00008505468,0.00029361816,0.00044175185,0.00072990515,0.00014166857,0.00042964556,0.00009794585],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004286379,0.00024010563,0.9725716,0.00016617612,0.00001177971,0.000010562567,0.0011648552,0.0000019456975,0.023725506,0.00041720035,0.00030325868,0.0009583371],"study_design_scores_gemma":[0.0008951045,0.0005923747,0.9882817,0.00003913605,0.000017374852,0.000045637647,0.00032003058,0.00019922083,0.006344999,0.000027713286,0.0029340752,0.00030259433],"about_ca_topic_score_codex":0.00004872132,"about_ca_topic_score_gemma":0.00010292651,"teacher_disagreement_score":0.017380506,"about_ca_system_score_codex":0.00012603126,"about_ca_system_score_gemma":0.0000934973,"threshold_uncertainty_score":0.99994534},"labels":[],"label_agreement":null},{"id":"W2126103537","doi":"10.1093/cercor/13.7.716","title":"The Lateral Occipital Complex Subserves the Perceptual Persistence of Motion-defined Groupings","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":84,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Percept; Object (grammar); Motion (physics); Perception; Motion perception; Communication; Psychology; Biological motion; Computer science; Computer vision; Cognitive psychology; Artificial intelligence; Neuroscience","score_opus":0.09292807020577967,"score_gpt":0.287451328191183,"score_spread":0.19452325798540335,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2126103537","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99360365,0.000024655666,0.00026993,0.0007305865,0.00039699345,0.00017624104,0.000010228239,0.00006692141,0.0047207973],"genre_scores_gemma":[0.9969913,0.000015914939,0.00010193946,0.0011057907,0.00004424899,0.000008460895,0.0000037989844,0.00001714533,0.0017114512],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984506,0.00026275232,0.00028242974,0.00032307024,0.00035303837,0.0003281541],"domain_scores_gemma":[0.99922025,0.00018344366,0.0001373919,0.00031376377,0.00007022331,0.00007493325],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026219746,0.0001667804,0.00015264969,0.000030752497,0.0008633551,0.00015669434,0.00048412956,0.000058752554,0.00081587076],"category_scores_gemma":[0.00034592138,0.000096194264,0.00013632113,0.0002768646,0.00049135764,0.00020029383,0.000059528316,0.00019726042,0.00013153268],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008311903,0.00015166377,0.004130064,0.000043130967,0.0000120728855,0.0000045080933,0.0071000485,0.000014633775,0.8592917,0.124400094,0.001321604,0.0034473697],"study_design_scores_gemma":[0.0034158435,0.0017561915,0.7578727,0.00013811256,0.00013322022,0.0004860344,0.021848258,0.01181078,0.14901125,0.032192025,0.019576985,0.0017586041],"about_ca_topic_score_codex":0.000016766327,"about_ca_topic_score_gemma":0.000021569756,"teacher_disagreement_score":0.75374264,"about_ca_system_score_codex":0.000024222925,"about_ca_system_score_gemma":0.000039865186,"threshold_uncertainty_score":0.8933213},"labels":[],"label_agreement":null},{"id":"W2126261462","doi":"10.1093/cercor/bhm052","title":"Vision without Proprioception Modulates Cortico-spinal Excitability during Hand Motor Imagery","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Interdisciplinary Research in Rehabilitation","funders":"","keywords":"Proprioception; Motor imagery; Transcranial magnetic stimulation; Facilitation; Psychology; Thumb; Motor control; Physical medicine and rehabilitation; Neuroscience; Mental image; Cognitive psychology; Stimulation; Medicine; Electroencephalography; Cognition; Anatomy; Brain–computer interface","score_opus":0.0217365421669218,"score_gpt":0.31881987416385515,"score_spread":0.2970833319969334,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2126261462","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9688556,0.00004863165,0.02687454,0.00012511661,0.00095312553,0.00041135517,0.0000048248835,0.00019016652,0.002536631],"genre_scores_gemma":[0.99394,0.000002536278,0.00039442128,0.00013947155,0.00032254477,0.000016561837,0.000049523103,0.000031444197,0.0051034857],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99835074,0.00007550732,0.000490131,0.0004632434,0.0002646321,0.000355738],"domain_scores_gemma":[0.9990359,0.00002558143,0.00021448803,0.00037308902,0.00021263193,0.00013829427],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00036276534,0.00018529093,0.00019621386,0.00012795428,0.00031521043,0.00008505073,0.00010933158,0.00017222155,0.00300971],"category_scores_gemma":[0.000077671684,0.00017686894,0.000085268475,0.0002474928,0.00015415574,0.0003837577,0.000036640664,0.00020394732,0.00047565388],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013646581,0.00047870065,0.7820016,0.000097344564,0.00005578282,0.000023259727,0.001110093,0.00001557606,0.18346259,0.0009750167,0.00033559164,0.030079778],"study_design_scores_gemma":[0.00091502647,0.00021228613,0.99538445,0.000021954129,0.000016080017,0.000030095089,0.0002282075,0.0008069086,0.0014615204,0.0002067569,0.0005113545,0.00020537937],"about_ca_topic_score_codex":0.000060944352,"about_ca_topic_score_gemma":0.00006062439,"teacher_disagreement_score":0.21338283,"about_ca_system_score_codex":0.00018501878,"about_ca_system_score_gemma":0.00003092093,"threshold_uncertainty_score":0.9979017},"labels":[],"label_agreement":null},{"id":"W2126513050","doi":"10.1093/cercor/bhm262","title":"Role of Amygdala Connectivity in the Persistence of Emotional Memories Over Time: An Event-Related fMRI Investigation","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":202,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"National Institute of Neurological Disorders and Stroke; National Institute on Aging","keywords":"Amygdala; Psychology; Recall; Functional magnetic resonance imaging; Emotional memory; Memory consolidation; Cognitive psychology; Neuroscience; Persistence (discontinuity); Consolidation (business); Hippocampus","score_opus":0.0568340890007965,"score_gpt":0.2677899715717868,"score_spread":0.2109558825709903,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2126513050","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9989368,0.000013268261,0.0000075455473,0.00011129696,0.00008988676,0.00021215565,0.000017838653,0.000020204268,0.00059102924],"genre_scores_gemma":[0.999536,0.00000450527,0.000025107493,0.00020143099,0.000018887946,0.0000053921663,0.0000068821478,0.000007140489,0.00019468104],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985656,0.00038931557,0.0002773461,0.00027215263,0.0003445907,0.00015098442],"domain_scores_gemma":[0.9992722,0.00020750712,0.00018658495,0.0002442231,0.00003989466,0.000049534614],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023324552,0.00011116322,0.00017842707,0.000066700406,0.00012351194,0.000007117041,0.0002671836,0.00006713064,0.0002893252],"category_scores_gemma":[0.0003073025,0.000085596635,0.0000664484,0.00038860453,0.00032884185,0.00036998134,0.000036653615,0.0001635999,0.000015218998],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003636695,0.00009353639,0.0064932345,0.000011005607,0.000001944711,0.0000062507065,0.001707426,0.000069170084,0.98785937,0.003575607,0.000024703459,0.00012138543],"study_design_scores_gemma":[0.00028198157,0.00022312158,0.2307828,0.000019711553,0.0000060273023,0.000059443457,0.00018310078,0.004374588,0.7579386,0.0060467804,0.0000027832264,0.000081033],"about_ca_topic_score_codex":0.000014894367,"about_ca_topic_score_gemma":0.0000139445065,"teacher_disagreement_score":0.22992074,"about_ca_system_score_codex":0.000016011458,"about_ca_system_score_gemma":0.000061986015,"threshold_uncertainty_score":0.34905294},"labels":[],"label_agreement":null},{"id":"W2127174178","doi":"10.1093/cercor/bht310","title":"Father Absence in the Monogamous California Mouse Impairs Social Behavior and Modifies Dopamine and Glutamate Synapses in the Medial Prefrontal Cortex","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroendocrine regulation and behavior","field":"Psychology","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; McGill University Health Centre; Centre for Addiction and Mental Health","funders":"","keywords":"Prefrontal cortex; Dopamine; Neuroscience; Psychology; Glutamate receptor; Neurotransmitter; Neurotransmission; Aggression; Endocrinology; Internal medicine; Central nervous system; Biology; Developmental psychology; Medicine; Cognition","score_opus":0.021030141024829294,"score_gpt":0.28576311762326234,"score_spread":0.26473297659843303,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2127174178","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99725217,0.000093720955,0.0000015466915,0.0011900722,0.0001424749,0.00090946094,0.000060121733,0.00003645974,0.00031398097],"genre_scores_gemma":[0.99854666,0.0000092016135,0.000011926425,0.00033575267,0.0001033243,0.00033502927,0.000020147281,0.000022131293,0.00061584165],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99849594,0.00025185378,0.00031592077,0.00034410876,0.00021532104,0.00037687208],"domain_scores_gemma":[0.9994838,0.00010375027,0.00009371361,0.00023785274,0.000024785697,0.000056066117],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013316127,0.00021930247,0.00022933717,0.00009043894,0.00013134004,0.000107506625,0.0002589832,0.00007872237,0.00047429977],"category_scores_gemma":[0.000014353692,0.00013384523,0.000048092068,0.000140847,0.00030578152,0.00014309322,0.00006905874,0.00029813396,0.00006934791],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002441231,0.0011867017,0.9090825,0.000038120394,0.00002698868,0.0005233177,0.02963946,0.0000014398576,0.028952971,0.0014230183,0.0047924984,0.02408887],"study_design_scores_gemma":[0.0010927116,0.00014555849,0.9922981,0.000004244441,0.000029511999,0.00023118533,0.005592321,0.000059807277,0.000061158615,0.00010830228,0.00021554805,0.00016150146],"about_ca_topic_score_codex":0.0010784128,"about_ca_topic_score_gemma":0.0011852189,"teacher_disagreement_score":0.08321566,"about_ca_system_score_codex":0.000022996788,"about_ca_system_score_gemma":0.000014558582,"threshold_uncertainty_score":0.54580504},"labels":[],"label_agreement":null},{"id":"W2127694469","doi":"10.1093/cercor/bhu030","title":"Sensorimotor Learning Enhances Expectations During Auditory Perception","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Melody; Psychology; N400; Premotor cortex; Perception; Auditory perception; Cognitive psychology; Motor cortex; Audiology; Neuroscience; Cognition; Event-related potential; Biology; Musical; Medicine","score_opus":0.01809541249385709,"score_gpt":0.2597190538790818,"score_spread":0.24162364138522469,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2127694469","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9918375,0.0000010152668,0.0005910924,0.000095766845,0.0013240923,0.00012884224,0.0000014796514,0.00026466168,0.005755567],"genre_scores_gemma":[0.99501884,0.000012801091,0.00008319098,0.0003316551,0.0008666932,0.000021994607,0.0000025620836,0.000018011146,0.003644251],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984849,0.00017469625,0.00018135319,0.0005287957,0.0003084642,0.00032179503],"domain_scores_gemma":[0.999496,0.00007836583,0.000094994866,0.0001990227,0.000028398774,0.000103227394],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000086443266,0.00013987033,0.000121184006,0.00011019251,0.00062227045,0.00009101853,0.00018282143,0.00005421261,0.000435361],"category_scores_gemma":[0.00042379907,0.00013520473,0.00007104901,0.00023330629,0.00015284646,0.00050247036,0.00004968061,0.00022645565,0.0009757774],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00000801539,0.000020654092,0.00029178435,0.000008041576,3.4488374e-7,0.0000021749856,0.0006801025,0.000028739049,0.9964192,0.00011565185,0.00015187243,0.0022734567],"study_design_scores_gemma":[0.00060247484,0.0002872506,0.7462758,0.000037128753,0.000014379932,0.00006592182,0.0016409719,0.0047859163,0.2399625,0.0002577434,0.0055595683,0.0005103606],"about_ca_topic_score_codex":0.000007988459,"about_ca_topic_score_gemma":0.0000052511173,"teacher_disagreement_score":0.7564567,"about_ca_system_score_codex":0.000056167246,"about_ca_system_score_gemma":0.000021738784,"threshold_uncertainty_score":0.99980205},"labels":[],"label_agreement":null},{"id":"W2128586214","doi":"10.1093/cercor/bhs125","title":"Testosterone-Related Cortical Maturation Across Childhood and Adolescence","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":195,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute on Drug Abuse; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; Medical Research Council; National Institute of Child Health and Human Development; Canadian Institutes of Health Research","keywords":"Testosterone (patch); Lateralization of brain function; Internal medicine; Endocrinology; Digit ratio; Androgen; Androgen receptor; Sexual differentiation; Psychology; Biology; Hormone; Neuroscience; Medicine","score_opus":0.019249138071486205,"score_gpt":0.274770950682947,"score_spread":0.2555218126114608,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2128586214","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960059,0.000060961276,0.00047291932,0.0002072355,0.0007745342,0.00025193868,0.000012129688,0.00018933877,0.0020250545],"genre_scores_gemma":[0.9978247,0.000014249086,0.00018210901,0.0013808873,0.00010310251,0.000009392328,0.0000016633496,0.00002518925,0.00045868673],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.997861,0.00013383398,0.0003138806,0.0005443508,0.00037782188,0.0007691025],"domain_scores_gemma":[0.9989534,0.00019522531,0.00011728149,0.00034664228,0.000022643997,0.00036478977],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021335598,0.00021276115,0.00018140327,0.000022667577,0.00037502337,0.00012256623,0.00030421966,0.00011485127,0.00008482571],"category_scores_gemma":[0.0012792811,0.0001909356,0.000039168055,0.0004622502,0.0004695547,0.0007940002,0.0002244042,0.00042728212,0.00024173102],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021934651,0.00021994456,0.078009024,0.000018847228,0.0000016700186,0.000013177288,0.0010099639,0.0000017717172,0.9062726,0.0010297478,0.00020254063,0.013198786],"study_design_scores_gemma":[0.00033646706,0.00008095018,0.89207786,0.000023130213,0.0000072506064,0.00036354054,0.00009152873,0.001045544,0.10535955,0.00008405588,0.00027175777,0.00025838663],"about_ca_topic_score_codex":0.000008923144,"about_ca_topic_score_gemma":0.0000016433976,"teacher_disagreement_score":0.8140688,"about_ca_system_score_codex":0.00003836616,"about_ca_system_score_gemma":0.000029312921,"threshold_uncertainty_score":0.7786128},"labels":[],"label_agreement":null},{"id":"W2128632566","doi":"10.1093/cercor/bhp314","title":"\"What\" and \"Where\" in the Intraparietal Sulcus: An fMRI Study of Object Identity and Location in Visual Short-Term Memory","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":67,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Université de Montréal","funders":"National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"Intraparietal sulcus; Functional magnetic resonance imaging; Psychology; Visual short-term memory; Object (grammar); Neuroscience; Working memory; Cognitive psychology; Computer science; Artificial intelligence; Cognition","score_opus":0.04641799988476657,"score_gpt":0.35476619109920343,"score_spread":0.30834819121443685,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2128632566","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99914026,0.000026160567,0.000028035958,0.000060883965,0.00029391798,0.00036014576,0.0000010321093,0.000019270237,0.00007031613],"genre_scores_gemma":[0.9997131,0.000029145776,0.000011240436,0.00015884289,0.000040249408,0.00001408623,0.0000022229856,0.00000964514,0.0000214179],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9987359,0.00022993941,0.000255573,0.0003654677,0.0002529383,0.00016014723],"domain_scores_gemma":[0.99960965,0.00005753075,0.000060947496,0.00018148839,0.00003522512,0.000055155495],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00053994934,0.00012055624,0.00015849894,0.0001232681,0.00010996272,0.0002729839,0.00020001516,0.00007773363,0.00005174057],"category_scores_gemma":[0.00010472702,0.000094684845,0.000011622647,0.00041862283,0.00017124426,0.0012144793,0.000064780856,0.0003251436,0.0000029497867],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011385155,0.0013332422,0.09288753,0.00008744225,0.0000026083294,0.000020441596,0.028394371,0.000003343893,0.83689076,0.00095685176,0.000008660126,0.039300926],"study_design_scores_gemma":[0.000924604,0.0010806106,0.96453005,0.00003392888,0.000011930627,0.000039747014,0.017002039,0.0021681106,0.013028991,0.0009888622,0.0000032708326,0.00018787826],"about_ca_topic_score_codex":0.00017610428,"about_ca_topic_score_gemma":0.011287508,"teacher_disagreement_score":0.8716425,"about_ca_system_score_codex":0.000008911346,"about_ca_system_score_gemma":0.000038852213,"threshold_uncertainty_score":0.62986946},"labels":[],"label_agreement":null},{"id":"W2128786519","doi":"10.1093/cercor/bhh082","title":"Remembering Our Past: Functional Neuroanatomy of Recollection of Recent and Very Remote Personal Events","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":467,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital","funders":"Canadian Institutes of Health Research","keywords":"Functional magnetic resonance imaging; Psychology; Precuneus; Retrosplenial cortex; Hippocampus; Recall; Autobiographical memory; Episodic memory; Neuroscience; Cognitive psychology; Long-term memory; Context (archaeology); Functional neuroimaging; Neuroimaging; Cognition","score_opus":0.0780569420307128,"score_gpt":0.2884864409371711,"score_spread":0.2104294989064583,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2128786519","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99737924,0.000010902728,0.00023614068,0.00031150167,0.0008874135,0.00016656324,0.000007789428,0.000028662085,0.0009717829],"genre_scores_gemma":[0.99909306,0.00007489028,0.00016938204,0.00019434305,0.00008256099,0.0000019361048,0.0000018398737,0.000013551097,0.00036841197],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988546,0.00007149164,0.0002632726,0.00033807973,0.0002941601,0.0001784048],"domain_scores_gemma":[0.99953496,0.000035783407,0.0001682258,0.0001285015,0.000051742438,0.00008076702],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000110128574,0.00012391292,0.00017941413,0.00009577617,0.000113498725,0.0000075006674,0.000085530446,0.000057098914,0.00017749202],"category_scores_gemma":[0.00016730044,0.00011871475,0.00006226174,0.00031355905,0.000033097578,0.00017146375,0.00005983491,0.00015344286,0.000008074526],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025736447,0.000059923037,0.00052380085,0.000051646337,0.000005220349,0.000009917972,0.00009126649,0.00003469752,0.9923476,0.00031443132,0.000055597488,0.006248514],"study_design_scores_gemma":[0.0009833273,0.0003517946,0.027200935,0.000050160335,0.000016122372,0.0001607249,0.00008273968,0.0004728002,0.9673679,0.0030239888,0.00015346393,0.0001360379],"about_ca_topic_score_codex":0.000009623162,"about_ca_topic_score_gemma":0.000005804063,"teacher_disagreement_score":0.026677134,"about_ca_system_score_codex":0.00003892134,"about_ca_system_score_gemma":0.00005177596,"threshold_uncertainty_score":0.48410472},"labels":[],"label_agreement":null},{"id":"W2128999389","doi":"10.1093/cercor/bhq182","title":"Fronto-striatal Contribution to Lexical Set-Shifting","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; Université de Montréal; Institut Universitaire de Gériatrie de Montréal","funders":"","keywords":"Putamen; Ventrolateral prefrontal cortex; Set (abstract data type); Wisconsin Card Sorting Test; Functional magnetic resonance imaging; Prefrontal cortex; Task (project management); Neuroscience; Psychology; Caudate nucleus; Lexical decision task; Computer science; Artificial intelligence; Cognitive psychology; Neuropsychology; Cognition","score_opus":0.09067671725013161,"score_gpt":0.36617886652094633,"score_spread":0.27550214927081473,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2128999389","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99397016,0.0000054833945,0.00005104153,0.0021659776,0.0019624643,0.00025835895,0.00006392568,0.00016490626,0.001357664],"genre_scores_gemma":[0.9963697,0.0000011310839,0.00008860524,0.0022800048,0.00034477463,0.000018196812,0.000009007441,0.000012180654,0.00087635167],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985915,0.000049987822,0.00021661216,0.00051983155,0.00019506154,0.0004270371],"domain_scores_gemma":[0.9994113,0.00007511768,0.00006037439,0.00023422528,0.00003965497,0.00017933319],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000103980994,0.00016629219,0.00019746374,0.000047656336,0.00029337325,0.00005209352,0.00026495644,0.00010843987,0.0003302071],"category_scores_gemma":[0.00042457524,0.00013337206,0.00007957478,0.00019495326,0.00015708817,0.00016798728,0.0001489311,0.00043739568,0.00086232676],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000602454,0.000052037103,0.015784435,0.0000014541085,0.0000018556307,0.000028854944,0.00005641932,1.3634859e-7,0.97532636,0.0015678428,0.0026594102,0.00446093],"study_design_scores_gemma":[0.0014102691,0.00046021835,0.32123038,0.000012451356,0.000034252924,0.00011522676,0.00006334709,0.000040797062,0.6418882,0.001456472,0.03272882,0.0005595276],"about_ca_topic_score_codex":0.000029032415,"about_ca_topic_score_gemma":0.00013513595,"teacher_disagreement_score":0.33343816,"about_ca_system_score_codex":0.000017248834,"about_ca_system_score_gemma":0.000013794315,"threshold_uncertainty_score":0.9999156},"labels":[],"label_agreement":null},{"id":"W2129243568","doi":"10.1093/cercor/bhh020","title":"Long-term Potentiation Induces Expanded Movement Representations and Dendritic Hypertrophy in Layer V of Rat Sensorimotor Neocortex","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neural Engineering","field":"Neuroscience","cited_by":124,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Neuroscience; Long-term potentiation; Forelimb; Neocortex; Microstimulation; Stimulation; Corpus callosum; Psychology; Chemistry; Biology; Receptor","score_opus":0.03245611054442224,"score_gpt":0.27668672198855465,"score_spread":0.2442306114441324,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2129243568","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99876773,0.00002474831,0.00014589781,0.00016881502,0.00042344673,0.0003087419,0.0000038081917,0.00004154843,0.00011523737],"genre_scores_gemma":[0.9992822,0.00005685454,0.00005914364,0.00038887872,0.000034930985,0.000018853896,0.0000019500062,0.00001433738,0.00014289864],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99875885,0.00003676357,0.00028382766,0.0004148698,0.00025276962,0.0002528938],"domain_scores_gemma":[0.9995613,0.000054235836,0.00008183673,0.00019859406,0.00002097322,0.000083044215],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000046122364,0.00013684377,0.00016731102,0.00018154489,0.00008055366,0.00004854586,0.00013799859,0.00004335421,0.000017558576],"category_scores_gemma":[0.00012160455,0.00013026968,0.00004368702,0.00034235747,0.00009443285,0.0004397888,0.00006627781,0.00013266945,0.000006681053],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000013243446,0.000065230655,0.012179806,0.000021845442,0.0000010630235,0.000061246144,0.000110232366,0.00023959643,0.98591197,0.0008240491,0.0000021623985,0.00056954],"study_design_scores_gemma":[0.0006487621,0.00008901845,0.33157787,0.000031063693,0.000006171323,0.000030022704,0.000024078267,0.0002461616,0.66676205,0.00047171398,0.0000016424904,0.00011146332],"about_ca_topic_score_codex":0.000047404184,"about_ca_topic_score_gemma":0.00001632111,"teacher_disagreement_score":0.31939808,"about_ca_system_score_codex":0.000037166956,"about_ca_system_score_gemma":0.00003151391,"threshold_uncertainty_score":0.5312243},"labels":[],"label_agreement":null},{"id":"W2129489490","doi":"10.1093/cercor/bhq060","title":"NMDA Receptor Hypofunction in the Prelimbic Cortex Increases Sensitivity to the Rewarding Properties of Opiates via Dopaminergic and Amygdalar Substrates","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurotransmitter Receptor Influence on Behavior","field":"Neuroscience","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Ventral tegmental area; Conditioned place preference; Basolateral amygdala; NMDA receptor; Dopaminergic; Glutamatergic; Long-term potentiation; Dopamine; Prefrontal cortex; Infralimbic cortex; Opiate; Psychology; Amygdala; Chemistry; Glutamate receptor; Receptor","score_opus":0.02404545182831943,"score_gpt":0.24008631354881918,"score_spread":0.21604086172049974,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2129489490","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99768144,0.00003264141,0.000008705612,0.0007124043,0.00043488047,0.0009694356,0.000021224088,0.00006840983,0.00007087952],"genre_scores_gemma":[0.9988874,0.000023087683,0.00004133547,0.0007486344,0.00009815951,0.000100739046,0.0000025974537,0.000029761713,0.000068258465],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99775606,0.00046569886,0.00039806278,0.00057282846,0.00042316868,0.00038416337],"domain_scores_gemma":[0.9988286,0.00032091493,0.00015311682,0.00052619044,0.00007183396,0.000099332974],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00056491647,0.00027231764,0.00027673237,0.00012233859,0.00023596492,0.0001394215,0.00039960275,0.00009018236,0.000055185643],"category_scores_gemma":[0.00046281793,0.00016067098,0.00007934917,0.0005274081,0.00041241484,0.00038360036,0.00010099508,0.0005347362,0.00004797512],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008956036,0.00010565358,0.0361213,0.000028853992,0.0000023520086,0.000006784878,0.0005724454,0.000008948727,0.9611607,0.000086503875,0.00006867097,0.0017481878],"study_design_scores_gemma":[0.00023874138,0.00015836458,0.3333319,0.000048487826,0.000016745587,0.00009249079,0.00020950526,0.00012303471,0.6653655,0.000034149627,0.0002009602,0.00018006234],"about_ca_topic_score_codex":0.0008022732,"about_ca_topic_score_gemma":0.000696315,"teacher_disagreement_score":0.2972106,"about_ca_system_score_codex":0.000018704895,"about_ca_system_score_gemma":0.000041900483,"threshold_uncertainty_score":0.65519726},"labels":[],"label_agreement":null},{"id":"W2129693714","doi":"10.1093/cercor/bhm199","title":"Cux-2 Controls the Proliferation of Neuronal Intermediate Precursors of the Cortical Subventricular Zone","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":121,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Santen; McGill University; Centro Nacional de Investigaciones Cardiovasculares; Howard Hughes Medical Institute","keywords":"Subventricular zone; Neuroscience; Cortical neurons; Neurogenesis; Chemistry; Cell biology; Biology; Neural stem cell; Stem cell","score_opus":0.028607365233327586,"score_gpt":0.310970653228815,"score_spread":0.28236328799548743,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2129693714","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99745935,0.000017214858,0.00014961192,0.00067512866,0.00067994534,0.0007356093,0.000013134612,0.000018735216,0.0002512424],"genre_scores_gemma":[0.9982403,0.000018653507,0.0000022073523,0.0013151543,0.000079096615,0.000013745731,3.140819e-7,0.000012281093,0.00031825132],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99757326,0.0005014079,0.00044292098,0.00035046542,0.0006991673,0.00043279352],"domain_scores_gemma":[0.9984315,0.0008052312,0.00022621243,0.00034964917,0.00009052133,0.00009689265],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00062326575,0.00013144803,0.00020112138,0.000078667996,0.00022637239,0.000023258519,0.0008047716,0.000052897147,0.00007901556],"category_scores_gemma":[0.0011813828,0.00007200843,0.00013904682,0.00064515613,0.0012068262,0.00013938025,0.00022796915,0.00048927113,0.000015660591],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002356389,0.00015030963,0.01795635,0.00001264041,0.0000031029722,0.000021600297,0.00008525938,0.000011628895,0.9794278,0.001360138,0.0001499472,0.0005855504],"study_design_scores_gemma":[0.0005367869,0.0002801272,0.2141767,0.0000076252913,0.000017610819,0.000036816284,0.000015879394,0.0010645222,0.7835056,0.00008111477,0.00021941631,0.00005776474],"about_ca_topic_score_codex":0.0000042104352,"about_ca_topic_score_gemma":0.0000061678243,"teacher_disagreement_score":0.19622035,"about_ca_system_score_codex":0.000016047925,"about_ca_system_score_gemma":0.000107404485,"threshold_uncertainty_score":0.44466013},"labels":[],"label_agreement":null},{"id":"W2129965587","doi":"10.1093/cercor/bhr080","title":"Acute Postischemic Seizures Are Associated with Increased Mortality and Brain Damage in Adult Mice","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network","funders":"Canadian Institutes of Health Research","keywords":"Medicine; Epilepsy; Pathophysiology; Anesthesia; Ischemia; Brain damage; Hypoxia (environmental); Phenytoin; Hippocampal formation; Stroke (engine); Cardiology; Internal medicine; Psychiatry","score_opus":0.060819874354900605,"score_gpt":0.3182372233271582,"score_spread":0.2574173489722576,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2129965587","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99789155,0.0000059908375,0.0000012947634,0.00021849516,0.000083270876,0.00034693576,0.000068828915,0.00008874651,0.001294921],"genre_scores_gemma":[0.9945951,0.000025185343,0.000007931359,0.0049567493,0.000016185668,0.000023539105,0.0000025929585,0.00002479318,0.00034793667],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977485,0.00036774474,0.00021644942,0.0007518482,0.0003505648,0.0005648783],"domain_scores_gemma":[0.99901265,0.0003202352,0.00013382682,0.00025304075,0.000061250925,0.00021899954],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020459517,0.00021275858,0.00024996718,0.00015314124,0.00017450184,0.0000504823,0.00043303487,0.000089373214,0.00012035642],"category_scores_gemma":[0.0010442381,0.0001778296,0.000032486732,0.0006844283,0.0005980314,0.00038579735,0.00019327342,0.00050832,0.000023463723],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015021529,0.00013703179,0.24284647,0.000008306466,0.0000064573205,0.0016194923,0.00013875616,1.319338e-7,0.7545778,0.00006416835,0.0004241423,0.000027011532],"study_design_scores_gemma":[0.0010024486,0.00020387827,0.61986226,0.000022605536,0.000017877783,0.00008632968,0.000029283214,0.00025892336,0.3782909,0.00005608493,0.00000921237,0.0001601833],"about_ca_topic_score_codex":0.00022875174,"about_ca_topic_score_gemma":0.00046329005,"teacher_disagreement_score":0.3770158,"about_ca_system_score_codex":0.000031977317,"about_ca_system_score_gemma":0.000094319716,"threshold_uncertainty_score":0.72516805},"labels":[],"label_agreement":null},{"id":"W2130053881","doi":"10.1093/cercor/bht329","title":"Modulation of Hippocampus-Prefrontal Cortex Synaptic Transmission and Disruption of Executive Cognitive Functions by MK-801","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":63,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Douglas Mental Health University Institute; McGill University","funders":"Centre National de la Recherche Scientifique; Ministère de l'Education Nationale, de l'Enseignement Superieur et de la Recherche; Institut National de la Santé et de la Recherche Médicale","keywords":"Long-term potentiation; Neuroscience; Prefrontal cortex; Hippocampus; Neurotransmission; Working memory; Phencyclidine; Psychology; Glutamatergic; NMDA receptor; Spatial memory; Metabotropic glutamate receptor; Glutamate receptor; Cognition; Chemistry; Receptor","score_opus":0.02456997627395294,"score_gpt":0.2935705103851945,"score_spread":0.26900053411124153,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2130053881","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99758035,0.00005691487,0.00075068936,0.000116209136,0.00017663334,0.0006860591,0.00007574951,0.00003469696,0.00052268896],"genre_scores_gemma":[0.998966,0.000100914716,0.0000108881295,0.00016045308,0.000016248141,0.000039952036,0.000008393067,0.000017202321,0.00067994435],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99823457,0.00023185239,0.00032817348,0.0005323508,0.00036244775,0.0003105796],"domain_scores_gemma":[0.99909693,0.00030765927,0.00017445507,0.00013751659,0.00011980515,0.00016365589],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000936226,0.0001666888,0.00024351604,0.00014995938,0.00018708434,0.000024349032,0.0001674436,0.00008706146,0.000328625],"category_scores_gemma":[0.00015336195,0.0001466967,0.00006735599,0.00037201826,0.0007563051,0.0005577444,0.00007772856,0.0002406781,0.000039333536],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012531182,0.00017806164,0.0027807406,0.00003371646,0.0000066778885,0.0000046546897,0.0001688331,0.0000027500798,0.9860685,0.00004023315,0.00024072871,0.010349808],"study_design_scores_gemma":[0.0013436599,0.0011772153,0.26565707,0.000058307636,0.000055175424,0.000049910865,0.0002777063,0.014815346,0.7156413,0.0006630211,0.000042528103,0.00021878348],"about_ca_topic_score_codex":0.00004735939,"about_ca_topic_score_gemma":0.0000016275537,"teacher_disagreement_score":0.2704272,"about_ca_system_score_codex":0.000020102676,"about_ca_system_score_gemma":0.00004978439,"threshold_uncertainty_score":0.59821177},"labels":[],"label_agreement":null},{"id":"W2130303756","doi":"10.1093/cercor/bhs121","title":"Inhibitory Control Deficits in Rats with Ventral Hippocampal Lesions","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":96,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Hippocampus; Inhibitory postsynaptic potential; Hippocampal formation; Serotonin reuptake inhibitor; Psychology; Lesion; Dopamine; Neuroscience; Medicine; Internal medicine; Anesthesia; Pathology; Antidepressant","score_opus":0.05528416192152291,"score_gpt":0.2779991330571601,"score_spread":0.2227149711356372,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2130303756","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99697465,0.00005868876,0.00009208387,0.00012999609,0.0007225162,0.00035052327,0.000011844391,0.00008264907,0.0015770461],"genre_scores_gemma":[0.99806744,0.0000041237718,0.000045970617,0.0013333189,0.00021155577,0.00002939695,0.000001992201,0.000023869858,0.00028232174],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983459,0.0001944842,0.00021819043,0.00032964235,0.00025929496,0.00065245695],"domain_scores_gemma":[0.99927694,0.00014904412,0.00007878877,0.00023302983,0.000013160967,0.00024904576],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001505314,0.00019129584,0.00021508856,0.00008815875,0.00014297011,0.000028049539,0.00018893718,0.000081455335,0.0002639821],"category_scores_gemma":[0.000113858216,0.00014949554,0.00005254642,0.00025932866,0.000085576416,0.00040612632,0.00003814839,0.00029943464,0.0002751262],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023257884,0.00018772666,0.014838595,0.000014291481,0.0000021379187,0.00008045646,0.00021482333,0.000014149071,0.9778823,0.0048808013,0.0001742377,0.0014778528],"study_design_scores_gemma":[0.0014932284,0.00030836565,0.04992977,0.00005046738,0.00001549582,0.00012850735,0.000085207146,0.00019092286,0.9468511,0.00041993705,0.00021734995,0.00030966988],"about_ca_topic_score_codex":0.0000040834566,"about_ca_topic_score_gemma":0.000022394594,"teacher_disagreement_score":0.035091177,"about_ca_system_score_codex":0.000040866213,"about_ca_system_score_gemma":0.000045539247,"threshold_uncertainty_score":0.6096251},"labels":[],"label_agreement":null},{"id":"W2130493604","doi":"10.1093/cercor/11.3.249","title":"Anoxic Depolarization Mediates Acute Damage Independent of Glutamate in Neocortical Brain Slices","year":2001,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":156,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"","keywords":"Neocortex; Depolarization; Cortical spreading depression; Neuroscience; Penumbra; Glutamate receptor; Ischemia; Cerebral cortex; Biology; Chemistry; Biophysics; Medicine; Anesthesia; Internal medicine; Receptor; Biochemistry","score_opus":0.03379554689759658,"score_gpt":0.33253306345750067,"score_spread":0.2987375165599041,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2130493604","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99754876,0.000012793012,0.000047492576,0.0010081799,0.00028583323,0.00034908677,0.000013002494,0.00005915278,0.00067570637],"genre_scores_gemma":[0.9974086,0.00015793814,0.000012760287,0.0018935213,0.00004641772,0.00001876279,0.0000020043124,0.000020891413,0.0004390873],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99754596,0.00035388093,0.00039803574,0.00058880734,0.0005432614,0.0005700824],"domain_scores_gemma":[0.9990028,0.00040673226,0.0001236264,0.00026154553,0.000034417746,0.00017087525],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002654204,0.00016875085,0.00024585752,0.00032460626,0.00012500522,0.00005756242,0.00058787584,0.00010582761,0.00027803995],"category_scores_gemma":[0.000509473,0.00015251235,0.00005845778,0.0011807628,0.00044372655,0.00056251744,0.00017395524,0.00043766847,0.00008469729],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010312379,0.00014291958,0.09190636,0.000010191702,0.0000019836818,0.0005415168,0.00010925236,0.000009662872,0.90607506,0.00043403616,0.00006180161,0.00060410064],"study_design_scores_gemma":[0.00077078474,0.0002466218,0.23132537,0.0000096611,0.000009470028,0.000104305065,0.000024488636,0.0028529211,0.7640238,0.0003890942,0.00010088868,0.00014258773],"about_ca_topic_score_codex":0.000024267187,"about_ca_topic_score_gemma":0.000037307374,"teacher_disagreement_score":0.14205125,"about_ca_system_score_codex":0.000029851246,"about_ca_system_score_gemma":0.00009442903,"threshold_uncertainty_score":0.6219273},"labels":[],"label_agreement":null},{"id":"W2131053422","doi":"10.1093/cercor/bhn066","title":"Neuropathologic Features in Adults with 22q11.2 Deletion Syndrome","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Congenital heart defects research","field":"Biochemistry, Genetics and Molecular Biology","cited_by":77,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Addiction and Mental Health; University of Toronto; University Health Network","funders":"","keywords":"Polymicrogyria; Neuroimaging; Pathology; White matter; Medicine; Schizophrenia (object-oriented programming); Magnetic resonance imaging; Gliosis; Psychosis; Neuroscience; Psychology; Psychiatry","score_opus":0.00894671382641277,"score_gpt":0.2347629979514371,"score_spread":0.22581628412502433,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2131053422","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9974312,0.00046826687,0.000023350585,0.000055869867,0.00004406797,0.00024398729,0.000006815232,0.000020001602,0.0017063952],"genre_scores_gemma":[0.998058,0.00007630216,0.000115734,0.00013123588,0.00004851091,0.000023524712,0.000071737195,0.000021551903,0.0014533658],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998967,0.00007901644,0.00011346761,0.0003740658,0.00016279137,0.00030368543],"domain_scores_gemma":[0.9995405,0.000008797062,0.000024837245,0.0002840255,0.000058429257,0.00008342891],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000064191176,0.00013216825,0.00012440693,0.00006911396,0.00006945157,0.000010621903,0.00014083092,0.000109386325,0.00003932953],"category_scores_gemma":[0.00004942789,0.00010877409,0.00004466536,0.000175501,0.00011420838,0.0000051190727,0.00009451375,0.00018266641,0.00005157833],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0026167203,0.00047350378,0.6100134,0.00019356555,0.000052494273,0.007722895,0.00029644818,0.000056929694,0.36106485,0.00008796667,0.0032163404,0.014204885],"study_design_scores_gemma":[0.0008656088,0.0013536965,0.9868128,0.000026486745,0.0000031886982,0.0037217636,0.0000258764,0.000038484588,0.0062297066,0.00001424481,0.0007137925,0.00019438457],"about_ca_topic_score_codex":0.000046986366,"about_ca_topic_score_gemma":0.00030646604,"teacher_disagreement_score":0.37679937,"about_ca_system_score_codex":0.000015072682,"about_ca_system_score_gemma":0.00006428985,"threshold_uncertainty_score":0.44356784},"labels":[],"label_agreement":null},{"id":"W2131252214","doi":"10.1093/cercor/bht357","title":"Changes in Thickness and Surface Area of the Human Cortex and Their Relationship with Intelligence","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":411,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"","keywords":"Cortex (anatomy); Intelligence quotient; Psychology; Cognition; Neuroscience; Contrast (vision); Cerebral cortex; Audiology; Developmental psychology; Medicine; Optics","score_opus":0.04950052722782039,"score_gpt":0.25418351726597505,"score_spread":0.20468299003815466,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2131252214","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960148,0.000050282528,0.00018075669,0.002239337,0.000074288044,0.00019772783,0.0000066160587,0.000021165211,0.0012150434],"genre_scores_gemma":[0.9991233,0.000010400207,0.0000239507,0.0005541087,0.000015071548,0.0000067880014,4.382605e-7,0.000009813482,0.00025617238],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9991135,0.00015601008,0.00012039235,0.000331106,0.00013655388,0.00014241939],"domain_scores_gemma":[0.9970144,0.0026048464,0.000092380986,0.00022183344,0.00003609351,0.00003047075],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002420839,0.00012440683,0.0001656905,0.00004231889,0.00022699473,0.000022491648,0.00013479467,0.000042491607,0.000009468032],"category_scores_gemma":[0.001453615,0.00007536045,0.000014911984,0.00027006166,0.0004938279,0.00009704313,0.00014114422,0.00018308972,0.0000012236873],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003272414,0.00003584039,0.91205525,0.000048742368,0.0000055011615,8.5159814e-7,0.0015038031,0.00005548955,0.059231292,0.02579877,0.00005389459,0.0011778154],"study_design_scores_gemma":[0.00016850326,0.00013482317,0.9712469,0.00006625341,0.0000053870094,0.000021377824,0.0004256254,0.0008879604,0.019450113,0.0073616314,0.00011635193,0.0001150704],"about_ca_topic_score_codex":0.00005942112,"about_ca_topic_score_gemma":0.0022181964,"teacher_disagreement_score":0.05919163,"about_ca_system_score_codex":0.000014869073,"about_ca_system_score_gemma":0.000015226354,"threshold_uncertainty_score":0.30731097},"labels":[],"label_agreement":null},{"id":"W2131490110","doi":"10.1093/cercor/bhl084","title":"Activation of Area MT/V5 and the Right Inferior Parietal Cortex during the Discrimination of Transient Direction Changes in Translational Motion","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University; Hospital for Sick Children; McGill University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Magnetoencephalography; Neuroscience; Functional magnetic resonance imaging; Sensory system; Parietal lobe; Motion perception; Perception; Posterior parietal cortex; Transient (computer programming); Psychology; Computer science; Electroencephalography","score_opus":0.02462542586461967,"score_gpt":0.2612995033550943,"score_spread":0.23667407749047462,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2131490110","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9945867,0.000016605385,0.003389956,0.00087130564,0.00010481517,0.0003043371,0.000011357394,0.000020320469,0.0006945733],"genre_scores_gemma":[0.9996998,0.00002137867,0.000017737377,0.00005427788,0.00003738303,0.000020863743,0.000014854927,0.000007739146,0.00012597698],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99904716,0.00014128468,0.00025585518,0.00018955486,0.00026060484,0.00010552344],"domain_scores_gemma":[0.999591,0.00009525002,0.0001682062,0.00008755224,0.000043033193,0.00001493932],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000208661,0.00009732519,0.00013540975,0.000092398535,0.00016341818,0.00002759773,0.00007425076,0.000054293665,0.00008772378],"category_scores_gemma":[0.000044010223,0.000060392722,0.00004199929,0.00025983845,0.0002106305,0.0002189237,0.000009769739,0.00010569176,7.149504e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021294315,0.00008869252,0.0015793787,0.00007547239,0.0000020681675,2.4835794e-7,0.0018625146,0.00012882428,0.9838053,0.0070342133,0.000003981683,0.005206383],"study_design_scores_gemma":[0.0010375442,0.000046882342,0.7288219,0.000050161194,0.000014751238,0.000006338747,0.00017034702,0.010135026,0.25695387,0.0026654378,0.000023734403,0.000074022784],"about_ca_topic_score_codex":0.00010679619,"about_ca_topic_score_gemma":0.0004611972,"teacher_disagreement_score":0.7272425,"about_ca_system_score_codex":0.000020664242,"about_ca_system_score_gemma":0.000014968156,"threshold_uncertainty_score":0.24627437},"labels":[],"label_agreement":null},{"id":"W2131588844","doi":"10.1093/cercor/bhs090","title":"Cerebral Processing of Voice Gender Studied Using a Continuous Carryover fMRI Design","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":78,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University; International Laboratory for Brain, Music and Sound Research","funders":"Biotechnology and Biological Sciences Research Council; Directorate for Biological Sciences; Agence Nationale de la Recherche","keywords":"Psychology; Functional magnetic resonance imaging; Auditory cortex; Categorization; Perception; N100; Stimulus (psychology); Audiology; Posterior cingulate; Cognitive psychology; Neuroscience; Cognition; Event-related potential; Computer science; Medicine","score_opus":0.13021310491242769,"score_gpt":0.3219475418140964,"score_spread":0.19173443690166872,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2131588844","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99004024,0.00006078938,0.0066654272,0.000024560974,0.0008031832,0.00039757765,0.000008187758,0.00009279364,0.0019072092],"genre_scores_gemma":[0.9974578,0.0000059179506,0.0009369439,0.0009768953,0.0002774946,0.000010521553,9.4523347e-7,0.000032576707,0.0003009139],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99772596,0.00019080966,0.00035812083,0.0005045953,0.0005037453,0.00071678666],"domain_scores_gemma":[0.9991115,0.00007919529,0.0002488425,0.0002999181,0.000076017255,0.00018454256],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003232594,0.0002374361,0.00031254912,0.00012422568,0.00029629326,0.00006328242,0.00030541653,0.000086836095,0.00012116571],"category_scores_gemma":[0.0002461328,0.00021008948,0.00009735039,0.0005170876,0.00029135498,0.0010269999,0.00013693134,0.00020002566,0.000058706],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004065478,0.00014386237,0.007978171,0.000038355807,0.0000027832716,0.000005431008,0.0016311656,0.000035527934,0.98741084,0.0001737801,0.00031197676,0.0022274444],"study_design_scores_gemma":[0.002615836,0.00046940366,0.39081416,0.0001478555,0.00022617179,0.00041688432,0.0020297244,0.0136595545,0.5858851,0.0006034304,0.0017292001,0.0014026565],"about_ca_topic_score_codex":0.00003099886,"about_ca_topic_score_gemma":0.0000023654063,"teacher_disagreement_score":0.4015257,"about_ca_system_score_codex":0.000077393925,"about_ca_system_score_gemma":0.00012583277,"threshold_uncertainty_score":0.85672003},"labels":[],"label_agreement":null},{"id":"W2131765785","doi":"10.1093/cercor/bhr194","title":"Parental Age Effects on Cortical Morphology in Offspring","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University; Douglas Mental Health University Institute","funders":"National Institutes of Health","keywords":"Neurocognitive; Offspring; Brain morphometry; White matter; Developmental psychology; Psychology; Socioeconomic status; Cognition; Demography; Magnetic resonance imaging; Medicine; Neuroscience; Pregnancy; Biology; Population","score_opus":0.053382615173593925,"score_gpt":0.26354743588916957,"score_spread":0.21016482071557563,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2131765785","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98516124,0.000008094726,0.000018062456,0.00021442692,0.0007868624,0.00020083656,0.0000037098964,0.00007712683,0.013529619],"genre_scores_gemma":[0.99634725,0.0000025859724,0.00006133284,0.0032667844,0.00007472828,0.000033512963,0.0000011285568,0.000016961307,0.00019574104],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986401,0.00015230765,0.00016363764,0.0005158001,0.00018398813,0.00034413926],"domain_scores_gemma":[0.9980233,0.0016383142,0.000040079893,0.00021751488,0.000009134754,0.00007165688],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009945622,0.00015314714,0.00020578386,0.00010640724,0.000107029766,0.000011650894,0.00017000728,0.000063542975,0.00016029085],"category_scores_gemma":[0.0028586008,0.00014212314,0.00005879941,0.00019527557,0.00016020439,0.00009458039,0.00014143408,0.00030911525,0.00043389102],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00059838,0.00070569734,0.3684749,0.00005816271,0.000019829933,0.002962648,0.0011546834,0.0000068062127,0.58369774,0.033798322,0.0022559618,0.006266879],"study_design_scores_gemma":[0.0005625055,0.00039302502,0.87570155,0.000021027416,0.0000049629234,0.000037085676,0.00003420671,0.00008273498,0.121270366,0.0015285156,0.00020430429,0.00015971098],"about_ca_topic_score_codex":0.00006282924,"about_ca_topic_score_gemma":0.000101507976,"teacher_disagreement_score":0.50722665,"about_ca_system_score_codex":0.000072616334,"about_ca_system_score_gemma":0.000016095744,"threshold_uncertainty_score":0.57956135},"labels":[],"label_agreement":null},{"id":"W2132236475","doi":"10.1093/cercor/bhn082","title":"Spatiotemporal Analysis of Auditory \"What\" and \"Where\" Working Memory","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"","keywords":"Working memory; Neuroscience; Psychology; Auditory cortex; Gyrus; Scalp; Functional magnetic resonance imaging; Biology; Anatomy; Cognition","score_opus":0.04067043512090551,"score_gpt":0.2662111658265885,"score_spread":0.22554073070568298,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2132236475","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99832153,0.00015986136,0.000072945266,0.00014230641,0.00036099122,0.00008997751,0.0000021963506,0.000035147776,0.0008150211],"genre_scores_gemma":[0.999015,0.000119218304,0.0001862117,0.000112746515,0.00008337673,0.0000032417668,0.00000203368,0.000008666612,0.00046955454],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9990347,0.00008467071,0.00022928612,0.00028647835,0.00021555154,0.00014929341],"domain_scores_gemma":[0.9994097,0.00018401301,0.00010755776,0.00019917176,0.000029383655,0.000070208465],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000121101686,0.00008752854,0.00021837658,0.00020174385,0.00015057085,0.000028544817,0.00008766744,0.000060641218,0.000093355724],"category_scores_gemma":[0.00013566724,0.00007751122,0.00009460245,0.000580837,0.00027363066,0.00023971441,0.000041802523,0.00009736123,0.000008304334],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006599733,0.00019887566,0.44210032,0.000110754474,0.00013844874,0.000043137097,0.005668419,0.00040363678,0.4948262,0.0011319406,0.0007224567,0.05458983],"study_design_scores_gemma":[0.00017202349,0.0000632178,0.9911308,0.000028027678,0.000063981526,0.0000049516466,0.00015591932,0.0026974143,0.0051728263,0.00009515822,0.00030776698,0.00010788283],"about_ca_topic_score_codex":0.00010794126,"about_ca_topic_score_gemma":0.000023692013,"teacher_disagreement_score":0.54903054,"about_ca_system_score_codex":0.000021155605,"about_ca_system_score_gemma":0.000044127748,"threshold_uncertainty_score":0.31608158},"labels":[],"label_agreement":null},{"id":"W2132348925","doi":"10.1093/cercor/bhm101","title":"Forgetting as an Active Process: An fMRI Investigation of Item-Method-Directed Forgetting","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory Processes and Influences","field":"Neuroscience","cited_by":227,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"National Institute of Mental Health","keywords":"Forgetting; Process (computing); Motivated forgetting; Computer science; Psychology; Neuroscience; Cognitive psychology; Artificial intelligence; Programming language","score_opus":0.040762739529331994,"score_gpt":0.3439676559350097,"score_spread":0.3032049164056777,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2132348925","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99348915,0.00001769726,0.0007889689,0.000076799784,0.00017356116,0.00035034848,0.000007895615,0.00027181313,0.0048237476],"genre_scores_gemma":[0.9937712,0.0000031272843,0.0047789677,0.0010710564,0.00016824844,0.000012148384,0.000014997065,0.000033127806,0.00014714921],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99765277,0.00017515573,0.0005526729,0.0006809331,0.00045763867,0.00048080945],"domain_scores_gemma":[0.99823004,0.00038682792,0.00054422335,0.0003150497,0.00026117908,0.0002626651],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0008775779,0.00022495868,0.00027387714,0.0001732152,0.00031865714,0.00007489726,0.00043126006,0.00012899729,0.000106286985],"category_scores_gemma":[0.0022450006,0.00020533925,0.000056792833,0.00083247735,0.00016572152,0.0020087182,0.00005287172,0.00025858436,0.000011121196],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013132217,0.00006683339,0.019286394,0.00018579196,0.0000059382232,0.000009050666,0.003973188,0.00003137101,0.94015115,0.0011493195,0.000020063788,0.034989566],"study_design_scores_gemma":[0.00028542208,0.0003996068,0.043999095,0.00007280124,0.00001561753,0.000026984397,0.002125717,0.0057125543,0.93830067,0.008734336,0.000063425636,0.0002637523],"about_ca_topic_score_codex":0.000074210526,"about_ca_topic_score_gemma":0.00005542359,"teacher_disagreement_score":0.03472581,"about_ca_system_score_codex":0.0000352085,"about_ca_system_score_gemma":0.00016369052,"threshold_uncertainty_score":0.8373492},"labels":[],"label_agreement":null},{"id":"W2132545092","doi":"10.1093/cercor/bht213","title":"Severe Multisensory Speech Integration Deficits in High-Functioning School-Aged Children with Autism Spectrum Disorder (ASD) and Their Resolution During Early Adolescence","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":264,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre Hospitalier Universitaire Sainte-Justine; Université du Québec à Montréal","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Child Health and Human Development; National Institute of Mental Health; Intellectual and Developmental Disabilities Research Center; National Institutes of Health","keywords":"Neurotypical; Autism spectrum disorder; Psychology; Multisensory integration; Autism; Developmental psychology; Early childhood; Active listening; High-functioning autism; Audiology; Cognitive psychology; Sensory system; Medicine","score_opus":0.012280842957096038,"score_gpt":0.23402965003710374,"score_spread":0.22174880708000771,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2132545092","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99568284,0.0000814608,0.0015382355,0.00034272022,0.0002966831,0.0008731586,0.000013161807,0.00017498915,0.0009967401],"genre_scores_gemma":[0.9961698,0.000023597533,0.00058466266,0.00012334638,0.000117444804,0.000069966285,0.00008499157,0.00004451388,0.0027816428],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981378,0.00022886302,0.0003921843,0.0006394114,0.0001739272,0.00042785006],"domain_scores_gemma":[0.99926865,0.000028367811,0.0001596657,0.0003453959,0.000052484203,0.00014544191],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000115920535,0.00032249454,0.00026593733,0.0002743539,0.0002608636,0.00014373036,0.00011717257,0.00022818874,0.0031284846],"category_scores_gemma":[0.00003575274,0.0002587545,0.000050380677,0.0002891812,0.000118341246,0.00066146586,0.00003589305,0.0006237294,0.0006759941],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":true,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020952648,0.00012318949,0.969314,0.00001098621,0.0000344303,0.000004295061,0.0019929528,0.00006300298,0.019832853,0.0006588471,0.0002040737,0.0075518535],"study_design_scores_gemma":[0.0021049646,0.00018405936,0.99389625,0.00013457578,0.000012754355,0.00011690198,0.0014894214,0.0012868069,0.00020797273,0.00020814872,0.0000057371913,0.00035243604],"about_ca_topic_score_codex":0.0069053895,"about_ca_topic_score_gemma":0.004296318,"teacher_disagreement_score":0.024582231,"about_ca_system_score_codex":0.00015709233,"about_ca_system_score_gemma":0.000024225807,"threshold_uncertainty_score":0.99998647},"labels":[],"label_agreement":null},{"id":"W2132709875","doi":"10.1093/cercor/bhk031","title":"Effects of Focal Frontal Lesions on Response Inhibition","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":383,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"","keywords":"Stimulus (psychology); Neuroscience; Frontal lobe; Supplementary motor area; Psychology; Motor area; Prefrontal cortex; Frontal cortex; Premotor cortex; Anterior cingulate cortex; Audiology; Functional magnetic resonance imaging; Medicine; Cognitive psychology; Anatomy; Cognition","score_opus":0.0468366612476753,"score_gpt":0.31620277907824235,"score_spread":0.2693661178305671,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2132709875","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99744153,0.00002143156,0.000010769653,0.00047407375,0.00037135003,0.00020051197,0.000014938164,0.00006704276,0.0013983293],"genre_scores_gemma":[0.99797636,0.0000024960011,0.000016518114,0.0005328392,0.00006339229,0.000013346901,0.00000211338,0.000009874835,0.0013830293],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99899936,0.00015447852,0.00017199147,0.00031096605,0.00016610844,0.00019707525],"domain_scores_gemma":[0.99949366,0.00025683796,0.00006824405,0.00012936807,0.000015134393,0.00003674039],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000052290772,0.00012323898,0.00015594247,0.00006991332,0.00013222604,0.000008137383,0.000081541,0.00006100829,0.000035106128],"category_scores_gemma":[0.000093762734,0.00009565668,0.00008129619,0.00014436954,0.00021152892,0.00007471994,0.000046587775,0.0001373455,0.00012813209],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005871261,0.00026699755,0.0014623324,0.0000075382063,8.397466e-7,0.0000858991,0.000018382709,7.342214e-7,0.9921986,0.0005311073,0.003759749,0.0010807301],"study_design_scores_gemma":[0.00049389055,0.0005097934,0.33273363,0.000019920426,0.000009461341,0.000011906235,0.000007091252,0.0000027773262,0.6652398,0.0006841281,0.000207854,0.00007975333],"about_ca_topic_score_codex":0.000034049433,"about_ca_topic_score_gemma":0.00001429848,"teacher_disagreement_score":0.3312713,"about_ca_system_score_codex":0.00002121665,"about_ca_system_score_gemma":0.000008870155,"threshold_uncertainty_score":0.39007664},"labels":[],"label_agreement":null},{"id":"W2133015986","doi":"10.1093/cercor/bhl149","title":"Small-World Anatomical Networks in the Human Brain Revealed by Cortical Thickness from MRI","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":1361,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Mental Health","keywords":"Human brain; Neuroscience; Cerebral cortex; Cortex (anatomy); Brain mapping; Diffusion MRI; Functional connectivity; Small-world network; Psychology; Computer science; Magnetic resonance imaging; Complex network; Medicine","score_opus":0.03751963820053621,"score_gpt":0.282854937367172,"score_spread":0.24533529916663577,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2133015986","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97812384,0.00009712694,0.0037161778,0.011852046,0.0005605153,0.0004438984,0.000027412087,0.00012252196,0.0050564464],"genre_scores_gemma":[0.9719636,0.0000042262636,0.00006166104,0.026695283,0.00037999026,0.0000234482,0.000020061136,0.000028703775,0.0008230526],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9971138,0.0005264935,0.00045312155,0.00080001506,0.0004556369,0.00065088447],"domain_scores_gemma":[0.98594564,0.013316683,0.000105607745,0.00047639883,0.000036061476,0.00011963461],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0011478944,0.00026576658,0.00032989297,0.00011722129,0.0004661359,0.000096357355,0.0006177981,0.00013951553,0.00018663675],"category_scores_gemma":[0.0032070582,0.00020613134,0.00011359245,0.0008124325,0.0004228982,0.00013658145,0.00020020716,0.0010066153,0.00006272866],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00058547134,0.000985666,0.405303,0.00002609374,0.000056781017,0.00055756007,0.0013519732,0.000099406985,0.16683681,0.07450652,0.3453928,0.0042979107],"study_design_scores_gemma":[0.0014203952,0.0001398602,0.9664129,0.0000396631,0.000025696745,0.000034816916,0.00030877272,0.0024682484,0.0022772592,0.006339003,0.020017507,0.00051585375],"about_ca_topic_score_codex":0.00032984535,"about_ca_topic_score_gemma":0.005053556,"teacher_disagreement_score":0.5611099,"about_ca_system_score_codex":0.00011828575,"about_ca_system_score_gemma":0.000031097377,"threshold_uncertainty_score":0.8405792},"labels":[],"label_agreement":null},{"id":"W2133230775","doi":"10.1093/cercor/bhq198","title":"Decoding Temporal Structure in Music and Speech Relies on Shared Brain Resources but Elicits Different Fine-Scale Spatial Patterns","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":166,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Functional magnetic resonance imaging; Auditory cortex; Natural sounds; Temporal cortex; Psychology; Brain activity and meditation; Speech recognition; Computer science; Neuroscience; Electroencephalography","score_opus":0.023694276189842278,"score_gpt":0.25586997363191083,"score_spread":0.23217569744206856,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2133230775","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99788094,0.0000015483209,0.000016855256,0.0005840267,0.00086289446,0.00027675612,0.000105253624,0.00007484303,0.00019691292],"genre_scores_gemma":[0.99717987,0.0000047851922,0.000036428348,0.0021336847,0.0002961252,0.000008664522,0.000013043586,0.000023147893,0.00030423608],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981207,0.00007992597,0.0002667319,0.000755539,0.00036553168,0.00041155983],"domain_scores_gemma":[0.9992983,0.000119210024,0.00010419546,0.00032291678,0.00001528548,0.00014010063],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008569336,0.00024739202,0.0002290816,0.00019352465,0.00020915958,0.00018156228,0.00030678336,0.00012504685,0.00047232173],"category_scores_gemma":[0.00026994667,0.00020212284,0.000049030143,0.0001801594,0.0001638378,0.0002583124,0.00016008022,0.0005487595,0.000016662498],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000040668958,0.000041470557,0.06843114,0.0000135899045,3.7917317e-7,0.000030680814,0.00082424807,0.0000014830586,0.91902256,0.00003452108,0.00022685928,0.011332393],"study_design_scores_gemma":[0.00058115984,0.0001935309,0.89170605,0.000049818213,0.000003827761,0.000051763378,0.00012321335,0.0010547473,0.10529226,0.00030444877,0.00037894826,0.00026021694],"about_ca_topic_score_codex":0.0005129917,"about_ca_topic_score_gemma":0.012886593,"teacher_disagreement_score":0.8232749,"about_ca_system_score_codex":0.000025289542,"about_ca_system_score_gemma":0.000019227438,"threshold_uncertainty_score":0.824233},"labels":[],"label_agreement":null},{"id":"W2133602791","doi":"10.1093/cercor/bhm027","title":"Local Potential Connectivity in Cat Primary Visual Cortex","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":167,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"National Institute of Neurological Disorders and Stroke; National Eye Institute; National Institute of Mental Health","keywords":"Neuroscience; Excitatory postsynaptic potential; Ocular dominance column; Neuropil; Visual cortex; Inhibitory postsynaptic potential; Synaptogenesis; Postsynaptic potential; Axon; Biology; Neuron; Dendritic spine; Synapse; Ocular dominance; Central nervous system","score_opus":0.013345826522925033,"score_gpt":0.2551613390360906,"score_spread":0.24181551251316558,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2133602791","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9846216,0.0000092047685,0.009255383,0.00014685855,0.0012025719,0.00027419048,0.000009488527,0.00011407465,0.004366615],"genre_scores_gemma":[0.9973038,0.000006534606,0.000035191562,0.0017973715,0.00014530163,0.000004805153,0.000015825386,0.000026633854,0.00066456303],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9980411,0.00009179691,0.0003307044,0.0006214318,0.00036312192,0.0005518676],"domain_scores_gemma":[0.9993176,0.00018160978,0.000104250204,0.0002123329,0.00003150145,0.00015271716],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032314245,0.00020691773,0.00023913033,0.00016623494,0.00014296612,0.00005476776,0.00019796901,0.00013040536,0.00014588502],"category_scores_gemma":[0.00012024188,0.00019714232,0.000097472315,0.0004448228,0.00019590485,0.00029136098,0.00012625023,0.00029217175,0.00012960576],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00032464703,0.0002767747,0.0070458,0.000021860758,0.0000032125301,0.00039743853,0.000043446424,0.00006091724,0.95423895,0.0023297674,0.00021175186,0.035045456],"study_design_scores_gemma":[0.0012666899,0.00038728357,0.923113,0.000018368955,0.000011294898,0.00018965421,0.000069136826,0.028467732,0.04421843,0.0013069862,0.0005242276,0.00042721405],"about_ca_topic_score_codex":0.00015946603,"about_ca_topic_score_gemma":0.00038531085,"teacher_disagreement_score":0.9160672,"about_ca_system_score_codex":0.0002120729,"about_ca_system_score_gemma":0.000070402166,"threshold_uncertainty_score":0.803923},"labels":[],"label_agreement":null},{"id":"W2133652125","doi":"10.1093/cercor/bht174","title":"Occlusion of Low-Frequency-Induced, Heterosynaptic Long-Term Potentiation in the Rat Hippocampus In Vivo Following Spatial Training","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and Wakefulness Research","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"","keywords":"Long-term potentiation; Neuroscience; NMDA receptor; Hippocampal formation; Hippocampus; LTP induction; Psychology; Memory consolidation; Stimulation; Morris water navigation task; Chemistry; Medicine; Receptor; Internal medicine","score_opus":0.03738037321617616,"score_gpt":0.28472709139411345,"score_spread":0.2473467181779373,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2133652125","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9979919,0.000019465771,0.0001550251,0.00022605121,0.00048343776,0.0006711719,0.0000022177398,0.000023191642,0.00042749502],"genre_scores_gemma":[0.9995943,0.0000044760927,0.000013858003,0.00022940063,0.000055839868,0.000053264484,0.00000393674,0.000019181383,0.000025748861],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99769527,0.00037946625,0.00042335785,0.00041885706,0.00058932626,0.0004937326],"domain_scores_gemma":[0.9991854,0.00025255428,0.000116017975,0.00034698332,0.0000325456,0.0000665335],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00039712718,0.00017004462,0.0002420428,0.00025531952,0.00012683045,0.000115194656,0.00054192013,0.000114897055,0.0002485452],"category_scores_gemma":[0.00041674697,0.00012990904,0.000113957045,0.0005657684,0.00007482474,0.0004937705,0.00011860524,0.00035451172,0.00004720438],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000022650367,0.00011210538,0.11192812,0.000033069784,0.0000034633542,0.0001768319,0.0015359254,0.000018649667,0.8689151,0.000098101285,0.0000072221783,0.01714879],"study_design_scores_gemma":[0.002218055,0.00029222507,0.75193,0.00025941848,0.000012357872,0.000060532002,0.0005249584,0.006971227,0.23429024,0.0030901742,6.739957e-7,0.00035015712],"about_ca_topic_score_codex":0.0006609678,"about_ca_topic_score_gemma":0.00054811116,"teacher_disagreement_score":0.64000183,"about_ca_system_score_codex":0.000078632096,"about_ca_system_score_gemma":0.00007365664,"threshold_uncertainty_score":0.5297537},"labels":[],"label_agreement":null},{"id":"W2134123786","doi":"10.1093/cercor/bht237","title":"Rescue of NMDAR-Dependent Synaptic Plasticity in Fmr1 Knock-Out Mice","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetics and Neurodevelopmental Disorders","field":"Biochemistry, Genetics and Molecular Biology","cited_by":65,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria","funders":"Canadian Institutes of Health Research","keywords":"FMR1; Fragile X syndrome; NMDA receptor; Synaptic plasticity; Neuroscience; Metaplasticity; Dentate gyrus; Neuroplasticity; Knockout mouse; Biology; Nonsynaptic plasticity; Hippocampus; Psychology; Receptor; Fragile x; Genetics","score_opus":0.00899658558878918,"score_gpt":0.21977190876806113,"score_spread":0.21077532317927195,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2134123786","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972584,0.00015185378,0.00011909018,0.0000623328,0.00013859144,0.00024690133,0.000012163351,0.0000066602925,0.0020039699],"genre_scores_gemma":[0.9988048,0.00008053828,0.00021726641,0.00017657949,0.000016115524,0.000023508994,0.000033089986,0.000020312249,0.0006278065],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99895734,0.00003658202,0.00027673919,0.00033444253,0.00013015543,0.0002647556],"domain_scores_gemma":[0.9996032,0.000009647646,0.00006141821,0.00018935047,0.000057299578,0.00007904331],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000042484677,0.00015289319,0.0001608985,0.000051145995,0.000029350702,0.000014395097,0.00021027678,0.00011385811,0.00015527835],"category_scores_gemma":[0.00005242407,0.00014986539,0.000058309026,0.00006764902,0.000069478134,0.000003974631,0.00016505294,0.00009407961,0.000079630954],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000034911274,0.00008937967,0.01909358,0.000025065066,0.000028886929,0.0000021613669,0.000048403333,0.00006353447,0.9787703,0.000028321361,0.00073055085,0.0010849083],"study_design_scores_gemma":[0.0009869584,0.0003535283,0.7173784,0.000027391263,0.000013074277,0.000008864136,0.00019252946,0.0003201215,0.2795688,0.00019526295,0.00063348084,0.00032160553],"about_ca_topic_score_codex":0.00022062018,"about_ca_topic_score_gemma":0.00068456325,"teacher_disagreement_score":0.6992015,"about_ca_system_score_codex":0.000012978048,"about_ca_system_score_gemma":0.000060806615,"threshold_uncertainty_score":0.61113334},"labels":[],"label_agreement":null},{"id":"W2134128653","doi":"10.1093/cercor/bhj088","title":"Basal Ganglia Functional Connectivity Based on a Meta-Analysis of 126 Positron Emission Tomography and Functional Magnetic Resonance Imaging Publications","year":2005,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":584,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal General Hospital; Montreal Neurological Institute and Hospital","funders":"","keywords":"Striatum; Neuroscience; Basal ganglia; Functional magnetic resonance imaging; Neuroimaging; Psychology; Ventral striatum; Cortex (anatomy); Functional connectivity; Functional neuroimaging; Cerebral cortex; Positron emission tomography; Biology; Central nervous system; Dopamine","score_opus":0.10074714955424383,"score_gpt":0.31118954885660927,"score_spread":0.21044239930236544,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2134128653","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0001297074,0.99189436,0.00056023203,0.0024132412,0.0004048651,0.00097587245,0.0012355922,0.00018934913,0.002196782],"genre_scores_gemma":[0.06709455,0.8932077,0.001157588,0.019929353,0.0015422845,0.0032807796,0.0017718668,0.00055662286,0.011459244],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9947186,0.0007755661,0.00092032464,0.0019279813,0.0011549745,0.00050251355],"domain_scores_gemma":[0.9892023,0.008615021,0.00073321036,0.00092549855,0.0003049083,0.00021906724],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00064315053,0.00081098755,0.002834078,0.0020303563,0.00056343013,0.00013285091,0.000327134,0.00023057304,0.001968313],"category_scores_gemma":[0.0031371298,0.0006690053,0.002848203,0.0037380245,0.00047890982,0.00036227758,0.00021317032,0.0006816346,0.00002855946],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007547034,0.0030883718,0.005671178,0.0039409967,0.031550277,0.00004093598,0.000092807124,0.0006410436,0.0007261538,0.014046973,0.09264652,0.8468],"study_design_scores_gemma":[0.0008540724,0.0003923755,0.04686676,0.0004053244,0.1704525,0.000028862862,0.000016341719,0.0075896643,0.00007787845,0.0007159778,0.7711104,0.0014898413],"about_ca_topic_score_codex":0.000029022194,"about_ca_topic_score_gemma":0.000046782185,"teacher_disagreement_score":0.8453102,"about_ca_system_score_codex":0.00020826708,"about_ca_system_score_gemma":0.00035895122,"threshold_uncertainty_score":0.9995761},"labels":[],"label_agreement":null},{"id":"W2134320198","doi":"10.1093/cercor/bhs297","title":"Selective Involvement by the Medial Orbitofrontal Cortex in Biasing Risky, But Not Impulsive, Choice","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":117,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Canadian Institutes of Health Research","keywords":"Orbitofrontal cortex; Delay discounting; Psychology; Discounting; Temporal discounting; Neuroscience; Probabilistic logic; Task (project management); Prefrontal cortex; Odds; Cognitive psychology; Impulsivity; Cognition; Medicine; Developmental psychology; Computer science; Economics; Internal medicine","score_opus":0.08570414237055483,"score_gpt":0.3412917846182866,"score_spread":0.25558764224773173,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2134320198","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949485,0.000189835,0.0000028041152,0.0008723473,0.0019863658,0.0005088299,0.000065436085,0.00007889242,0.0013469928],"genre_scores_gemma":[0.9950357,0.000032934804,0.000012757005,0.0035334649,0.000457413,0.00006536885,0.000008806648,0.000026813903,0.00082670397],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9975791,0.00023749242,0.0003663649,0.0005811461,0.00039177653,0.0008440989],"domain_scores_gemma":[0.99902505,0.00032920655,0.00017226384,0.00027766905,0.000038195045,0.00015762336],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019050714,0.00032014062,0.0003162356,0.00008073074,0.00040406454,0.00004837056,0.00042778745,0.00011425738,0.000108693515],"category_scores_gemma":[0.00021610333,0.00020876875,0.00010716717,0.00047197402,0.00044511913,0.00042318617,0.00023811821,0.0005934195,0.00016235845],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007531739,0.0002458553,0.2747345,0.0000042672827,0.00000603848,0.00000869614,0.0006205524,1.9904611e-7,0.71510077,0.000024433955,0.007198997,0.0019803804],"study_design_scores_gemma":[0.00091996585,0.00020374826,0.7823335,0.000012564118,0.000027741542,0.00003458927,0.0004065851,0.000014638315,0.21402867,0.000086148895,0.0016161462,0.00031570005],"about_ca_topic_score_codex":0.0006748698,"about_ca_topic_score_gemma":0.00068243255,"teacher_disagreement_score":0.507599,"about_ca_system_score_codex":0.00013793634,"about_ca_system_score_gemma":0.000026902897,"threshold_uncertainty_score":0.8513343},"labels":[],"label_agreement":null},{"id":"W2134463447","doi":"10.1093/cercor/12.9.915","title":"Color Contrast in Macaque V1","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; National Institutes of Health; National Eye Institute; Department of Neurobiology, Harvard Medical School","keywords":"Hue; Contrast (vision); Macaque; Color vision; Visual cortex; Color contrast; Color discrimination; Neuroscience; Red light; Biology; Psychology; Optics; Artificial intelligence; Physics; Computer science; Botany","score_opus":0.06676130920038362,"score_gpt":0.29600179508055074,"score_spread":0.22924048588016713,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2134463447","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9662269,0.000017142225,0.00019912492,0.00056871335,0.00032986532,0.00015796446,0.000007869154,0.00012380387,0.032368634],"genre_scores_gemma":[0.9897744,0.000018246892,0.000069388254,0.004085248,0.00006135769,0.0000120958875,0.0000012811846,0.000014575889,0.005963384],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99902195,0.000066765875,0.00017312034,0.00030630568,0.00016249031,0.0002693522],"domain_scores_gemma":[0.99968094,0.00004303953,0.00004482238,0.00012661428,0.00001365932,0.000090915906],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.000052831932,0.00011006832,0.00013078644,0.0000765779,0.00010542508,0.00006464731,0.00017522163,0.0000747141,0.005953168],"category_scores_gemma":[0.0001233773,0.00010204462,0.00003572909,0.00026681606,0.00006397048,0.00016103075,0.000029901636,0.00017342514,0.0019241379],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000031745163,0.00019195363,0.0010261432,0.000021783962,0.0000010364051,0.000062034655,0.00084465696,0.00000709532,0.9673555,0.009016633,0.0034392874,0.018002119],"study_design_scores_gemma":[0.00820239,0.0013895878,0.06718513,0.0002289737,0.0000282454,0.0003926241,0.0008821006,0.1381021,0.71639025,0.0156306,0.049462903,0.0021050943],"about_ca_topic_score_codex":0.000012367368,"about_ca_topic_score_gemma":0.00003181752,"teacher_disagreement_score":0.25096527,"about_ca_system_score_codex":0.00003424519,"about_ca_system_score_gemma":0.000010760941,"threshold_uncertainty_score":0.99885297},"labels":[],"label_agreement":null},{"id":"W2135335199","doi":"10.1093/cercor/bhn257","title":"Inverse Mapping the Neuronal Substrates of Face Categorizations","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Biotechnology and Biological Sciences Research Council; Directorate for Biological Sciences","keywords":"Information processing; Visual processing; Categorization; Stimulus (psychology); Face perception; Visual cortex; Perception; Extrastriate cortex; Computer science; Psychology; Magnetoencephalography; Visual perception; Neuroscience; Pattern recognition (psychology); Artificial intelligence; Cognitive psychology; Electroencephalography","score_opus":0.08057465444587283,"score_gpt":0.2725748606025346,"score_spread":0.19200020615666177,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135335199","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99022704,0.0000047963126,0.0005040422,0.0013979132,0.00014900183,0.00013272447,0.000014969819,0.00005087581,0.007518607],"genre_scores_gemma":[0.99765986,0.000024683548,0.000033993678,0.0015836975,0.000036194673,0.0000022349566,0.000010521222,0.0000045530815,0.00064427184],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99937147,0.00006433979,0.00014239085,0.00015701534,0.00013526769,0.00012953118],"domain_scores_gemma":[0.999691,0.0000527398,0.000062614825,0.00012405854,0.000028285374,0.000041289535],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000047188347,0.00007272524,0.000069518836,0.000044981298,0.00013268946,0.000029194855,0.00013682542,0.000032200733,0.0005622935],"category_scores_gemma":[0.00008079607,0.00005420521,0.00004611075,0.00028019346,0.000085707856,0.00013918971,0.000012108404,0.000106865715,0.00017768898],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000087367225,0.000058216894,0.0012712877,0.0000069280723,0.0000013994982,0.0000015545395,0.000815453,0.0001271489,0.9838644,0.005452123,0.0012968545,0.0070958715],"study_design_scores_gemma":[0.0006003609,0.0002004268,0.76900744,0.000024925057,0.000018392793,0.000037607908,0.0013048688,0.010228428,0.20824486,0.006264462,0.0037664163,0.00030179688],"about_ca_topic_score_codex":0.00001027941,"about_ca_topic_score_gemma":0.000013194419,"teacher_disagreement_score":0.77561957,"about_ca_system_score_codex":0.000009307447,"about_ca_system_score_gemma":0.000027263166,"threshold_uncertainty_score":0.61567193},"labels":[],"label_agreement":null},{"id":"W2135629523","doi":"10.1093/cercor/bhr297","title":"Dopamine D1/D5 Receptors Contribute to De Novo Hippocampal LTD Mediated by Novel Spatial Exploration or Locus Coeruleus Activity","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":73,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Locus coeruleus; Neuroscience; Stimulation; Agonist; Long-term depression; Dopaminergic; Dopamine; Schaffer collateral; Hippocampal formation; Receptor; Psychology; Chemistry; Glutamate receptor; Central nervous system; AMPA receptor; Excitatory postsynaptic potential; Inhibitory postsynaptic potential","score_opus":0.08625685031181636,"score_gpt":0.3231176216936651,"score_spread":0.23686077138184874,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135629523","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9924636,0.000005456523,0.0035778803,0.0010162445,0.0014032,0.0008149652,0.00021588172,0.00020585985,0.00029694845],"genre_scores_gemma":[0.99494994,0.000042662567,0.000044558517,0.003073259,0.00016508895,0.00010908388,0.00000864232,0.00004716831,0.001559584],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9965189,0.00039386496,0.00034391205,0.0010075532,0.00065568654,0.001080049],"domain_scores_gemma":[0.9982186,0.0004566041,0.00015832191,0.0003901015,0.0001242921,0.00065208145],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003970995,0.00033029777,0.00035047918,0.0002105225,0.00046291747,0.00012617577,0.0007841583,0.00015149021,0.0010583624],"category_scores_gemma":[0.0020093545,0.00027992876,0.00007892329,0.0010179736,0.0004916971,0.0007594073,0.00028181516,0.0005654977,0.0006278501],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014538075,0.0004560592,0.0014199807,0.000008887028,0.0000044596104,0.00018648601,0.00025350606,0.0000021631743,0.99053866,0.000023636028,0.0029161533,0.002736195],"study_design_scores_gemma":[0.0018509786,0.0013060652,0.0036937501,0.0000091582,0.000016928821,0.000088932684,0.000026304326,0.00067685527,0.9873763,0.000032443517,0.004574763,0.00034757511],"about_ca_topic_score_codex":0.00020473984,"about_ca_topic_score_gemma":0.00014329642,"teacher_disagreement_score":0.003533322,"about_ca_system_score_codex":0.00013944891,"about_ca_system_score_gemma":0.00035905515,"threshold_uncertainty_score":0.9999653},"labels":[],"label_agreement":null},{"id":"W2135835864","doi":"10.1093/cercor/bhh134","title":"A Contralateral Preference in the Lateral Occipital Area: Sensory and Attentional Mechanisms","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":77,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Visual field; Visual N1; Visual cortex; N2pc; Visual system; Psychology; Visual processing; Sensory system; Neuroscience; Occipital lobe; Visual perception; Perception","score_opus":0.07424702126218594,"score_gpt":0.28596311106086203,"score_spread":0.2117160897986761,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135835864","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967748,0.000008854812,0.0009916464,0.00080334337,0.00020450141,0.00021451773,0.000019580384,0.0000639275,0.000918848],"genre_scores_gemma":[0.99605095,0.0000075883518,0.00022686833,0.0031949067,0.000042471576,0.000018073653,0.000007800358,0.000011484176,0.00043987687],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99872524,0.00010289709,0.00020038706,0.0003896419,0.00027441076,0.00030741893],"domain_scores_gemma":[0.9996689,0.000041230738,0.0000556813,0.00014012255,0.000019875719,0.0000741647],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015618432,0.00016294254,0.00013834194,0.00006738673,0.00018938535,0.00016960014,0.00020872235,0.00007876421,0.0002354924],"category_scores_gemma":[0.00004455861,0.00011480769,0.00004670356,0.00015069508,0.0001060095,0.00028643405,0.000050416464,0.00024292462,0.00008039016],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000117487114,0.00021161546,0.0020525,0.00003198203,0.0000042215133,0.00011168464,0.003183095,0.00003248539,0.8554945,0.13739796,0.000058004407,0.001304481],"study_design_scores_gemma":[0.0057955766,0.0009156173,0.50837016,0.00018468706,0.00003012468,0.0011217336,0.0009143585,0.002260941,0.051812775,0.42744917,0.00020859054,0.00093630113],"about_ca_topic_score_codex":0.000023492687,"about_ca_topic_score_gemma":0.00003618806,"teacher_disagreement_score":0.80368173,"about_ca_system_score_codex":0.000031432795,"about_ca_system_score_gemma":0.000039177303,"threshold_uncertainty_score":0.46817216},"labels":[],"label_agreement":null},{"id":"W2135861359","doi":"10.1093/cercor/bhr181","title":"Resting-State Connectivity Identifies Distinct Functional Networks in Macaque Cingulate Cortex","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":74,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Macaque; Neuroscience; Cingulate cortex; Functional connectivity; Anterior cingulate cortex; Psychology; Cortex (anatomy); Biology; Cognition; Central nervous system","score_opus":0.041754234605938384,"score_gpt":0.24127323028007602,"score_spread":0.19951899567413764,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135861359","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98919535,0.000012094776,0.0022731381,0.00006051107,0.001928116,0.00029908313,0.000017893759,0.00018289211,0.0060309195],"genre_scores_gemma":[0.99697566,0.000010389806,0.000025700525,0.00043546793,0.0001360487,0.000023411061,0.000017470617,0.000036027333,0.0023398367],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9978441,0.00017965639,0.00041027297,0.0007632191,0.00028077193,0.0005219735],"domain_scores_gemma":[0.99900717,0.00027242972,0.00020683801,0.0003258921,0.000055634515,0.00013202144],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002266602,0.0002631184,0.00026440015,0.00015109901,0.00025626062,0.000094039715,0.0002283426,0.000099838755,0.00045960647],"category_scores_gemma":[0.0004457529,0.0002473871,0.000105725354,0.000504585,0.00019689542,0.0003898516,0.00015810318,0.0004528401,0.000093176786],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018892544,0.0008255306,0.57986367,0.00013091981,0.000045042547,0.0011668795,0.00090776716,0.0026814237,0.36785427,0.020071996,0.0025024258,0.022060808],"study_design_scores_gemma":[0.0005516923,0.00011977663,0.9291257,0.000036625155,0.000010679129,0.00007692165,0.000019165358,0.05581409,0.004546161,0.009286278,0.00008949682,0.000323409],"about_ca_topic_score_codex":0.00045672932,"about_ca_topic_score_gemma":0.0012206559,"teacher_disagreement_score":0.3633081,"about_ca_system_score_codex":0.00008331493,"about_ca_system_score_gemma":0.00004283885,"threshold_uncertainty_score":0.99999785},"labels":[],"label_agreement":null},{"id":"W2135962938","doi":"10.1093/cercor/bhs266","title":"The Role of the Anterior Cingulate Cortex in Choices based on Reward Value and Reward Contingency","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institutes of Health","keywords":"Anterior cingulate cortex; Psychology; Contingency; Cognitive psychology; Object (grammar); Action (physics); Reinforcement learning; Action selection; Neuroscience; Reinforcement; Reward system; Task (project management); Value (mathematics); Cingulate cortex; Cognition; Social psychology; Computer science; Artificial intelligence; Machine learning; Perception","score_opus":0.03833794929750895,"score_gpt":0.3107920459069466,"score_spread":0.27245409660943765,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135962938","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952925,0.00046145025,3.149166e-7,0.000775788,0.0007384257,0.00029497803,0.000009251229,0.000027013892,0.0024002737],"genre_scores_gemma":[0.99864423,0.0000534563,0.0000071974173,0.0007826978,0.00006729498,0.0000142952795,2.3763226e-7,0.00001284691,0.00041773953],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985851,0.00019395024,0.00029589035,0.00031251725,0.00021298829,0.00039954748],"domain_scores_gemma":[0.99918175,0.00021132754,0.00018729133,0.0003389559,0.00002139868,0.00005927676],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002105152,0.00017014454,0.00022075958,0.000042945383,0.00030632393,0.000026834707,0.0003259207,0.000060146547,0.000016633168],"category_scores_gemma":[0.00018031578,0.000089161455,0.000082137936,0.00023033957,0.000438929,0.0001172053,0.00013521298,0.00023795826,0.000011207286],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000947674,0.00009625458,0.63958764,0.000008098161,0.0000026488083,0.0000030911228,0.00022757001,7.6083035e-7,0.35287553,0.00023718899,0.0000667406,0.0067997],"study_design_scores_gemma":[0.00040842174,0.00013902666,0.9286422,0.000058185582,0.000017204176,0.000010364106,0.00010420033,0.00008846046,0.06845945,0.00033224953,0.0016178449,0.00012237673],"about_ca_topic_score_codex":0.000079625526,"about_ca_topic_score_gemma":0.00006897568,"teacher_disagreement_score":0.28905457,"about_ca_system_score_codex":0.000015092546,"about_ca_system_score_gemma":0.000012151947,"threshold_uncertainty_score":0.36358985},"labels":[],"label_agreement":null},{"id":"W2135987364","doi":"10.1093/cercor/bhs025","title":"Prefrontal Dopamine Levels Determine the Balance between Cognitive Stability and Flexibility","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":76,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Cognitive flexibility; Prefrontal cortex; Catechol-O-methyl transferase; Psychology; Functional magnetic resonance imaging; Dopamine; Neuroscience; Cognition; Working memory; Ventrolateral prefrontal cortex; Audiology; Genotype; Medicine; Biology; Genetics; Gene","score_opus":0.241489936090435,"score_gpt":0.37744630420865494,"score_spread":0.13595636811821993,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2135987364","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973145,0.00016616871,0.000013825335,0.00044162376,0.0003218766,0.00042424767,0.00020652573,0.00007061909,0.0010405902],"genre_scores_gemma":[0.99888635,0.000007767333,0.000015659629,0.00054430094,0.00021188284,0.000025463987,0.0000035159478,0.000010576506,0.00029445914],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99844474,0.00020314162,0.00023256498,0.00048519703,0.0001781365,0.00045620915],"domain_scores_gemma":[0.9990684,0.00041470482,0.00008814072,0.000262676,0.000033965396,0.0001321632],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025402062,0.00020277906,0.00024628438,0.000016911094,0.0003199268,0.000026667625,0.00019145379,0.00006074499,0.00017163377],"category_scores_gemma":[0.00024866112,0.00012227312,0.000057083478,0.00012930951,0.0008912328,0.0003334152,0.0002327024,0.00026346877,0.00005348371],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000050303403,0.000112350885,0.8372215,0.0000100381685,0.000005288456,0.000003158365,0.00029948098,5.259752e-9,0.14852037,0.000022316432,0.00005701296,0.0136981495],"study_design_scores_gemma":[0.00034603957,0.00011358078,0.8638337,0.0000068175827,0.000035532237,0.000023055296,0.00011731261,0.000004219913,0.13501734,0.00018294969,0.00017366323,0.00014577925],"about_ca_topic_score_codex":0.000021285598,"about_ca_topic_score_gemma":0.000021642223,"teacher_disagreement_score":0.026612185,"about_ca_system_score_codex":0.000023893519,"about_ca_system_score_gemma":0.00000898029,"threshold_uncertainty_score":0.4986153},"labels":[],"label_agreement":null},{"id":"W2136041765","doi":"10.1093/cercor/bhu015","title":"Disruption of Locomotor Adaptation with Repetitive Transcranial Magnetic Stimulation Over the Motor Cortex","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; Centre for Interdisciplinary Research in Rehabilitation","funders":"Medical Research Council; Sundhed og Sygdom, Det Frie Forskningsråd; Whitaker International Program","keywords":"Transcranial magnetic stimulation; Neuroscience; Motor cortex; Adaptation (eye); Stimulation; Transcranial alternating current stimulation; Cortex (anatomy); Physical medicine and rehabilitation; Psychology; Medicine","score_opus":0.016007956183388707,"score_gpt":0.23103929560646908,"score_spread":0.21503133942308036,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2136041765","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96299845,0.000015240416,0.034966484,0.0001328652,0.00018396864,0.0008314774,0.000027228178,0.000059371156,0.0007849419],"genre_scores_gemma":[0.9988281,0.0000058038804,0.00019524759,0.00025087834,0.00015649955,0.000047121088,0.000015180486,0.000022224634,0.00047890557],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99847907,0.00021286428,0.0003106966,0.00036396136,0.00043327952,0.00020010961],"domain_scores_gemma":[0.999102,0.000247453,0.00023514418,0.00026215054,0.000092275244,0.000061003382],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016016627,0.00016830096,0.00018453955,0.00006674323,0.00014981603,0.00004458544,0.0001623324,0.000061151906,0.00025133725],"category_scores_gemma":[0.00014488115,0.00011281319,0.00007502379,0.0002133633,0.00016013566,0.00028484693,0.000012332149,0.00012770965,0.000023046607],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011704302,0.00015001446,0.002561102,0.000047092937,0.000009520375,0.000003820943,0.0015237374,0.0008939898,0.93483967,0.0128009105,0.000012885459,0.045986824],"study_design_scores_gemma":[0.0018106509,0.001180463,0.8262109,0.000036036792,0.000058291567,0.000007333772,0.00007832761,0.16740692,0.0019686064,0.0007917434,0.00028255177,0.00016817948],"about_ca_topic_score_codex":0.00010653078,"about_ca_topic_score_gemma":0.000090747686,"teacher_disagreement_score":0.93287104,"about_ca_system_score_codex":0.000029581,"about_ca_system_score_gemma":0.000036405618,"threshold_uncertainty_score":0.46003884},"labels":[],"label_agreement":null},{"id":"W2136503220","doi":"10.1093/cercor/bhr046","title":"Ascl1 Participates in Cajal–Retzius Cell Development in the Neocortex","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurogenesis and neuroplasticity mechanisms","field":"Neuroscience","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Alberta Children's Hospital; University of Calgary","funders":"Canadian Institutes of Health Research","keywords":"Neocortex; Reelin; Biology; Neuroscience; Progenitor cell; DAB1; Progenitor; Cell fate determination; Cell biology; Stem cell; Gene; Genetics; Transcription factor","score_opus":0.09999660123999994,"score_gpt":0.25136345687725803,"score_spread":0.1513668556372581,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2136503220","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99342495,0.000021273512,0.00003275307,0.0000470762,0.00031311435,0.0003976142,0.000003034376,0.000050059094,0.005710143],"genre_scores_gemma":[0.9980105,0.000014210195,0.000095182935,0.0015280643,0.000026311156,0.00008631959,0.0000010964459,0.00002892497,0.00020938591],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977262,0.00031067463,0.00044369505,0.0005767329,0.00034254146,0.0006001703],"domain_scores_gemma":[0.9992231,0.00021143297,0.000100317746,0.0003540927,0.00001528832,0.00009575729],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026626102,0.0002366439,0.00022204523,0.00014540416,0.00011691242,0.000046972087,0.0005859939,0.000065696106,0.00030554656],"category_scores_gemma":[0.00014012949,0.00017515369,0.000054672953,0.0005334455,0.00007386941,0.00014906445,0.0001217556,0.00028996824,0.00033670597],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014763551,0.0011946764,0.035662178,0.00004794948,0.0000027425797,0.0014952562,0.008115948,0.000015597976,0.9425197,0.007847678,0.00022854151,0.0027220494],"study_design_scores_gemma":[0.00044698865,0.00013977535,0.13485259,0.00001366609,0.00000538655,0.00003303169,0.00012648113,0.00017811281,0.8628989,0.0003050939,0.0007858951,0.0002141062],"about_ca_topic_score_codex":0.00007256948,"about_ca_topic_score_gemma":0.00030406145,"teacher_disagreement_score":0.09919041,"about_ca_system_score_codex":0.000031592488,"about_ca_system_score_gemma":0.0000823959,"threshold_uncertainty_score":0.71425605},"labels":[],"label_agreement":null},{"id":"W2136584538","doi":"10.1093/cercor/bhl135","title":"Interactions between Olfaction and the Trigeminal System: What Can Be Learned from Olfactory Loss","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":149,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"","keywords":"Olfaction; Trigeminal nerve; Olfactory system; Neuroscience; Sensory system; Anosmia; Trigeminal ganglion; Psychology; Electrophysiology; Sensory processing; Medicine; Anatomy; Internal medicine","score_opus":0.13985617911647721,"score_gpt":0.2702415550699896,"score_spread":0.13038537595351238,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2136584538","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99220145,0.00014191295,0.00012860712,0.0020021799,0.0019372333,0.0002636729,0.00009157494,0.00017590508,0.003057441],"genre_scores_gemma":[0.99526024,0.00006366894,0.0000060917637,0.0003741307,0.0006335342,0.000019474282,0.000025070362,0.00001880526,0.0035989801],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99830914,0.00033755496,0.0003298586,0.00048886205,0.00027188993,0.00026271513],"domain_scores_gemma":[0.99857384,0.000837957,0.00018694418,0.00027897418,0.00004633795,0.000075975004],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013356826,0.0002181642,0.00031410347,0.000075990785,0.00082005234,0.00028100068,0.00014355243,0.000073254865,0.00019757728],"category_scores_gemma":[0.00011367162,0.00015163366,0.000111425754,0.00016733978,0.00044673137,0.0006250096,0.000072340496,0.00036220383,0.00007711248],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0071269586,0.0007898189,0.37823796,0.0005551108,0.00090889394,0.00036941672,0.02189253,0.00023354507,0.38809693,0.07344861,0.036571868,0.09176835],"study_design_scores_gemma":[0.008657999,0.0002892617,0.73261565,0.0002669643,0.0006983721,0.00017036457,0.029816857,0.0009017703,0.0815513,0.003935205,0.13964519,0.0014510436],"about_ca_topic_score_codex":0.00070077245,"about_ca_topic_score_gemma":0.00033241868,"teacher_disagreement_score":0.35437772,"about_ca_system_score_codex":0.00010168889,"about_ca_system_score_gemma":0.000024500154,"threshold_uncertainty_score":0.6307262},"labels":[],"label_agreement":null},{"id":"W2136589070","doi":"10.1093/cercor/bhl052","title":"Interactions of Pain Intensity and Cognitive Load: The Brain Stays on Task","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Pain Mechanisms and Treatments","field":"Medicine","cited_by":195,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network","funders":"","keywords":"Cognition; Anterior cingulate cortex; Psychology; Insula; Functional magnetic resonance imaging; Neuroscience; Brain activity and meditation; Cingulate cortex; Secondary somatosensory cortex; Physical medicine and rehabilitation; Audiology; Medicine; Electroencephalography; Central nervous system","score_opus":0.013526497971267128,"score_gpt":0.26336092493178503,"score_spread":0.2498344269605179,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2136589070","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9905766,0.00006195346,0.0008120327,0.0016380117,0.00008199109,0.00029793428,0.00003208708,0.000024100089,0.0064752577],"genre_scores_gemma":[0.99589175,0.0000029454695,0.00008455787,0.0019133226,0.00005739605,0.000008724417,0.000038057828,0.000009108005,0.0019941088],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99939036,0.000068113106,0.00012895133,0.000152845,0.00014138623,0.00011835593],"domain_scores_gemma":[0.9993814,0.00026904666,0.00006335769,0.00013054305,0.00011126002,0.000044347395],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022970705,0.00009598569,0.00016655512,0.000033954115,0.00007213413,0.000008081137,0.000026653042,0.000031477415,0.0001088566],"category_scores_gemma":[0.00019176932,0.00006025949,0.000051857372,0.00007178364,0.00007580841,0.000030965308,0.000022893728,0.00012512766,0.000018545767],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0047460636,0.004312987,0.533679,0.00030695932,0.0017868056,0.00057779596,0.0035459592,0.0000038516805,0.078937724,0.022260446,0.092806555,0.25703588],"study_design_scores_gemma":[0.0032153125,0.0015122077,0.97590595,0.00034088147,0.00025943955,0.00008448495,0.0016737125,0.0007799366,0.0074851452,0.0056906645,0.002882159,0.00017007394],"about_ca_topic_score_codex":0.00034025358,"about_ca_topic_score_gemma":0.00022792497,"teacher_disagreement_score":0.442227,"about_ca_system_score_codex":0.000039381997,"about_ca_system_score_gemma":0.000033536322,"threshold_uncertainty_score":0.24573106},"labels":[],"label_agreement":null},{"id":"W2136857862","doi":"10.1093/cercor/bht124","title":"Insular Cortex Mediates Increased Pain Tolerance in Yoga Practitioners","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Pain Mechanisms and Treatments","field":"Medicine","cited_by":155,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Center for Complementary and Alternative Medicine; National Institutes of Health","keywords":"Insular cortex; Interoception; Insula; Sensory system; Pain tolerance; Psychology; Functional magnetic resonance imaging; Cognition; Nociception; White matter; Neuroscience; Magnetic resonance imaging; Medicine; Threshold of pain; Anesthesia; Internal medicine","score_opus":0.010487187252688306,"score_gpt":0.24377482866582284,"score_spread":0.23328764141313454,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2136857862","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99484044,0.00024661567,0.00016431359,0.00082867953,0.00014862996,0.00073207397,0.000010664557,0.00009798347,0.002930579],"genre_scores_gemma":[0.9945051,0.00004775129,0.00152867,0.0025507046,0.00010377276,0.00043803928,0.00016482743,0.00002991831,0.00063118065],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985588,0.00014633332,0.00030129022,0.00034554608,0.00028624604,0.00036173666],"domain_scores_gemma":[0.99911326,0.00012418072,0.00010839635,0.0003205332,0.000090955036,0.00024266767],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00034824022,0.00020897026,0.0003425819,0.00013772745,0.00006357774,0.000028937551,0.00008670895,0.00012955102,0.0026219862],"category_scores_gemma":[0.0002934422,0.00017704122,0.000079886806,0.00026343658,0.00004998788,0.00024885975,0.000027940998,0.00022104992,0.0005896503],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040965527,0.0022191503,0.8763947,0.00026552728,0.00033866236,0.0010266406,0.00077680196,0.000010649506,0.06926047,0.0023926515,0.0175147,0.029390391],"study_design_scores_gemma":[0.0040670666,0.00041326677,0.98521036,0.00016072956,0.000058040994,0.000036344332,0.00030341334,0.0037146236,0.0015506272,0.002105479,0.0021299582,0.00025009643],"about_ca_topic_score_codex":0.0016267042,"about_ca_topic_score_gemma":0.000093546776,"teacher_disagreement_score":0.108815655,"about_ca_system_score_codex":0.00012751114,"about_ca_system_score_gemma":0.00010557311,"threshold_uncertainty_score":0.99828976},"labels":[],"label_agreement":null},{"id":"W2136993666","doi":"10.1093/cercor/bhj145","title":"Waking-Sleep Modulation of Paroxysmal Activities Induced by Partial Cortical Deafferentation","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"National Institute of Neurological Disorders and Stroke; National Institutes of Health","keywords":"Disinhibition; Neuroscience; Vigilance (psychology); Slow-wave sleep; Electrophysiology; Eye movement; Cortical neurons; Wakefulness; Psychology; Tonic (physiology); Electroencephalography","score_opus":0.046669176994634944,"score_gpt":0.3274981318866499,"score_spread":0.2808289548920149,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2136993666","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99833316,0.0000037966606,0.00023138,0.00014676143,0.0004027349,0.00026090877,0.000019368701,0.00006983308,0.0005320662],"genre_scores_gemma":[0.99934554,0.0000036933557,0.00000711398,0.0002593215,0.00010614559,0.000022107086,0.0000054103443,0.00001782718,0.00023283267],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979926,0.00030111682,0.00031157734,0.00047800277,0.00049654406,0.00042018702],"domain_scores_gemma":[0.99929863,0.00026589292,0.0001392382,0.00017678419,0.000032883298,0.00008655165],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011279198,0.00015107621,0.00019038428,0.00011435699,0.00022534134,0.000051394938,0.00024961834,0.00007970466,0.00016288715],"category_scores_gemma":[0.00015170377,0.00014203112,0.00006569339,0.00036364974,0.0003135309,0.00039963785,0.000083267376,0.0002938573,0.000030923817],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000114174705,0.00017048266,0.008281897,0.000008877412,0.0000013033334,0.000010566294,0.000028412158,0.000034765315,0.98899186,0.0010727345,0.00028491678,0.0009999858],"study_design_scores_gemma":[0.0005137198,0.00025801972,0.08862655,0.0000032730268,0.00000973596,0.000010188442,0.000012681585,0.010857778,0.89929163,0.00023272642,0.00006064673,0.00012304072],"about_ca_topic_score_codex":0.000043252032,"about_ca_topic_score_gemma":0.0000053627164,"teacher_disagreement_score":0.089700244,"about_ca_system_score_codex":0.000029571152,"about_ca_system_score_gemma":0.00004896327,"threshold_uncertainty_score":0.5791861},"labels":[],"label_agreement":null},{"id":"W2137070699","doi":"10.1093/cercor/bhs209","title":"Activation Patterns in Superficial Layers of Neocortex Change Between Experiences Independent of Behavior, Environment, or the Hippocampus","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Addiction and Mental Health; University of Toronto","funders":"National Institute on Aging","keywords":"Neocortex; Hippocampal formation; Neuroscience; Entorhinal cortex; Hippocampus; Arc (geometry); Subiculum; Context (archaeology); Laminar organization; Biology; Psychology; Dentate gyrus","score_opus":0.1495542018100787,"score_gpt":0.3214386104020752,"score_spread":0.17188440859199652,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2137070699","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99886674,0.000007831915,0.000035988833,0.000056552228,0.0003345289,0.00059472735,0.000024183335,0.000013372608,0.00006610506],"genre_scores_gemma":[0.99942666,0.000022219283,0.000009529215,0.00015668325,0.00016157501,0.00016141988,0.000004447793,0.0000139625445,0.000043499167],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99846184,0.00019372496,0.00036219606,0.00026088403,0.00039248163,0.00032888944],"domain_scores_gemma":[0.9992462,0.00016884007,0.000227005,0.00027057776,0.000007815812,0.00007956932],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020632157,0.00015601605,0.00023267815,0.00009129222,0.0000766174,0.000009866912,0.00034659903,0.00009354346,0.00067482126],"category_scores_gemma":[0.000065302425,0.000094756935,0.000061220664,0.00019072635,0.00012248842,0.0004564009,0.00011430382,0.00018794867,0.0000120210625],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009225426,0.00021666229,0.30445957,0.000024358233,0.0000028168367,0.0000047607605,0.009503529,7.222549e-7,0.6575271,0.00014493235,0.000003993623,0.028019289],"study_design_scores_gemma":[0.00022158455,0.0001805831,0.34578416,0.00001802251,0.000011138724,0.000004322324,0.0020214259,0.000009320097,0.6515604,0.00008194717,0.000014522966,0.00009254368],"about_ca_topic_score_codex":0.000077621626,"about_ca_topic_score_gemma":0.000021747463,"teacher_disagreement_score":0.041324567,"about_ca_system_score_codex":0.000032007705,"about_ca_system_score_gemma":0.000017865286,"threshold_uncertainty_score":0.73888195},"labels":[],"label_agreement":null},{"id":"W2137303555","doi":"10.1093/cercor/bhn198","title":"Interneuron Diversity in Layers 2–3 of Monkey Prefrontal Cortex","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":132,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Trinity College","funders":"National Institute of Mental Health","keywords":"Interneuron; Parvalbumin; Neocortex; Calretinin; Primate; Neuroscience; Biology; Prefrontal cortex; Calbindin; Rodent; Electrophysiology; Inhibitory postsynaptic potential; Cognition; Immunohistochemistry","score_opus":0.09145091918954677,"score_gpt":0.31797611961725814,"score_spread":0.22652520042771135,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2137303555","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963132,0.000011198226,0.000005162777,0.00010036009,0.0004808307,0.00028580363,0.000017273158,0.000052616448,0.0027335535],"genre_scores_gemma":[0.99759436,0.00011533641,0.0000050117856,0.0007599786,0.000026646494,0.000006262525,4.9041955e-7,0.000015598416,0.0014762908],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9978561,0.00022599734,0.00027823457,0.00064246386,0.0005006806,0.0004965247],"domain_scores_gemma":[0.99927056,0.00016417017,0.00010297914,0.0002769317,0.0000302598,0.00015511038],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010386925,0.00016742911,0.00025343712,0.000240516,0.00025927447,0.000010750994,0.0007921886,0.00006383534,0.00023740754],"category_scores_gemma":[0.0002172313,0.0001612184,0.00009205174,0.00056276977,0.00074612733,0.00035638764,0.0009033711,0.00043472773,0.00011742616],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016819923,0.00018582,0.13764662,0.000010343077,0.0000012219498,0.0006772316,0.0003044311,0.000006284598,0.8603351,0.00007220053,0.00039097053,0.0002015823],"study_design_scores_gemma":[0.0008241265,0.0003714111,0.52181244,0.0000077647,0.0000039186552,0.00013371572,0.000028205191,0.00061233394,0.47585547,0.000052015508,0.00015824653,0.00014033538],"about_ca_topic_score_codex":0.0001312101,"about_ca_topic_score_gemma":0.000030320412,"teacher_disagreement_score":0.3844796,"about_ca_system_score_codex":0.00004839309,"about_ca_system_score_gemma":0.000085056454,"threshold_uncertainty_score":0.6574295},"labels":[],"label_agreement":null},{"id":"W2137721816","doi":"10.1093/cercor/bhp210","title":"Integrated Cannabinoid CB1 Receptor Transmission within the Amygdala-Prefrontal Cortical Pathway Modulates Neuronal Plasticity and Emotional Memory Encoding","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cannabis and Cannabinoid Research","field":"Medicine","cited_by":81,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Neuroscience; Basolateral amygdala; Cannabinoid receptor; Long-term potentiation; Prefrontal cortex; Psychology; Infralimbic cortex; Synaptic plasticity; Amygdala; Cannabinoid; Neurotransmission; Chemistry; Receptor; Cognition","score_opus":0.014639697996474169,"score_gpt":0.25259574009500896,"score_spread":0.2379560420985348,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2137721816","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.986567,0.00020642893,0.00033919344,0.010813116,0.00023801645,0.00053802895,0.000048248072,0.00009745593,0.0011525056],"genre_scores_gemma":[0.99305475,0.000022271004,0.00024453073,0.0009294739,0.00030526225,0.000017658833,0.00009268052,0.000029236728,0.0053041605],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99764246,0.00015788602,0.0004475531,0.00054183183,0.0006992882,0.0005110052],"domain_scores_gemma":[0.9989327,0.000037245325,0.00008434685,0.00022869042,0.00020196251,0.00051506446],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030561187,0.00030821236,0.00037759347,0.00011123585,0.00040780654,0.00009137858,0.0001797114,0.00017418907,0.00089968427],"category_scores_gemma":[0.00022003762,0.00019547064,0.00014905416,0.00026745908,0.00036730108,0.00014621878,0.000057596368,0.0009997884,0.000022881917],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0023740751,0.0006762172,0.0059958436,0.00015841082,0.00010826441,0.00013981758,0.0015984346,0.00009770375,0.88049704,0.002994688,0.037436444,0.06792306],"study_design_scores_gemma":[0.0026941667,0.002048216,0.9306471,0.00025746287,0.000088584035,0.00052608264,0.00075883983,0.02635594,0.029470917,0.00041309686,0.00628982,0.00044981495],"about_ca_topic_score_codex":0.00012959228,"about_ca_topic_score_gemma":0.000034133427,"teacher_disagreement_score":0.9246512,"about_ca_system_score_codex":0.0001513386,"about_ca_system_score_gemma":0.00047299714,"threshold_uncertainty_score":0.9850912},"labels":[],"label_agreement":null},{"id":"W2138246486","doi":"10.1093/cercor/bhu154","title":"Dorsolateral Prefrontal Cortex Deactivation in Monkeys Reduces Preparatory Beta and Gamma Power in the Superior Colliculus","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Robarts Clinical Trials; Western University; York University","funders":"Canadian Institutes of Health Research","keywords":"Dorsolateral prefrontal cortex; Neuroscience; Stimulus (psychology); Superior colliculus; Antisaccade task; Local field potential; Psychology; Prefrontal cortex; Cognition; Saccade; Eye movement; Cognitive psychology","score_opus":0.01293199784803042,"score_gpt":0.23368962081990688,"score_spread":0.22075762297187645,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2138246486","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99710685,0.000013053728,0.000011949471,0.00036570537,0.0003197817,0.0004546731,0.0000062326903,0.000032013337,0.0016897281],"genre_scores_gemma":[0.9988834,0.000008189455,0.000012264434,0.00077534944,0.000055267265,0.000039267445,0.0000063462094,0.000015273026,0.00020464345],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99847335,0.00024816763,0.00028094105,0.0004764865,0.00023245961,0.000288593],"domain_scores_gemma":[0.99949884,0.00012537059,0.000088752175,0.00021615697,0.0000165087,0.000054348282],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002145925,0.00017157149,0.00018313054,0.00010611057,0.00011837989,0.0001217294,0.00019934845,0.00008615023,0.000030534728],"category_scores_gemma":[0.00010839677,0.00012557278,0.00003910038,0.00026800064,0.00010616686,0.00043870872,0.0000618237,0.00024384727,0.00001385425],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016276196,0.00011805458,0.04158612,0.000012455126,0.0000020723437,0.00001857053,0.0011524749,0.000021076512,0.9530198,0.0016563828,0.00012608903,0.0021241254],"study_design_scores_gemma":[0.000684235,0.00028893718,0.97326136,0.000025594129,0.0000048142533,0.00004320596,0.00016301626,0.009820607,0.014452073,0.0005360778,0.0005197473,0.00020031269],"about_ca_topic_score_codex":0.0001247123,"about_ca_topic_score_gemma":0.00034491727,"teacher_disagreement_score":0.93856776,"about_ca_system_score_codex":0.00006137794,"about_ca_system_score_gemma":0.000027404165,"threshold_uncertainty_score":0.51207095},"labels":[],"label_agreement":null},{"id":"W2138866057","doi":"10.1093/cercor/bhi085","title":"Modulation of Antisaccades by Transcranial Magnetic Stimulation of the Human Frontal Eye Field","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Saccade; Saccadic masking; Transcranial magnetic stimulation; Antisaccade task; Eye movement; Psychology; Neuroscience; Frontal eye fields; Saccadic eye movement; Supplementary eye field; Visual field; Stimulation","score_opus":0.026902300599087714,"score_gpt":0.302111043648746,"score_spread":0.2752087430496583,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2138866057","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99657226,0.00001539532,0.0020009894,0.0002057556,0.00011656551,0.00013689877,0.000015215398,0.000023181014,0.0009137675],"genre_scores_gemma":[0.9988705,0.0000022381805,0.00012044535,0.00027443413,0.000050607097,0.000001507328,0.000004132372,0.000008346318,0.0006678117],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99924284,0.0000575167,0.00022689633,0.00015931104,0.00021476387,0.00009866113],"domain_scores_gemma":[0.9997011,0.000023678462,0.000104923005,0.0001228335,0.000022690538,0.00002476917],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000052463383,0.00007753487,0.00010489477,0.000030409668,0.0001023741,0.000014024853,0.00015528353,0.00006750915,0.00096916355],"category_scores_gemma":[0.000031780077,0.00006110628,0.00006156305,0.00011894781,0.00006159842,0.00014908086,0.0000151795775,0.00008618744,0.000008773046],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000016844955,0.000054524284,0.0019007188,0.000015257997,5.9281666e-7,5.3489234e-8,0.00031784465,0.0001013565,0.985533,0.00049399305,0.00014514862,0.01142069],"study_design_scores_gemma":[0.0006071663,0.00027155093,0.14648479,0.000027303748,0.000013557173,0.0000014272587,0.000031136104,0.017724354,0.8336544,0.00094343984,0.00013918766,0.000101681726],"about_ca_topic_score_codex":0.000024969211,"about_ca_topic_score_gemma":0.000015356925,"teacher_disagreement_score":0.15187857,"about_ca_system_score_codex":0.000010638225,"about_ca_system_score_gemma":0.000012085331,"threshold_uncertainty_score":0.9999441},"labels":[],"label_agreement":null},{"id":"W2139338873","doi":"10.1093/cercor/bhj175","title":"Sequential Auditory Scene Analysis Is Preserved in Normal Aging Adults","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital","funders":"","keywords":"Psychology; Auditory scene analysis; Audiology; Cognitive psychology; Neuroscience; Communication; Perception; Medicine","score_opus":0.0234153701860145,"score_gpt":0.26573658615285695,"score_spread":0.24232121596684245,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2139338873","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99469966,0.000004633343,0.00012068071,0.00022407826,0.0007566299,0.0001516462,0.000018827459,0.000083942396,0.0039399033],"genre_scores_gemma":[0.9956533,0.000008058881,0.00003812475,0.0013569567,0.00052844104,0.000012146457,0.0000113949345,0.00001224185,0.0023793397],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99805003,0.000103892904,0.00029985543,0.00066968764,0.0004176981,0.00045884177],"domain_scores_gemma":[0.99942386,0.00003163113,0.00010224132,0.00033555538,0.000027051343,0.00007967714],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00013093956,0.00015837218,0.00019715277,0.00036104568,0.00016357123,0.000095324336,0.0003482829,0.00006603472,0.0011321361],"category_scores_gemma":[0.000048066733,0.00015690265,0.00015088232,0.0011878429,0.00014063847,0.0006017594,0.00011940583,0.00018911378,0.00022719847],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000045227007,0.00012924854,0.0370348,0.000015722122,0.0000038475273,0.00006400085,0.00022652102,0.0003019772,0.95666164,0.00005922729,0.0040982137,0.0013595492],"study_design_scores_gemma":[0.0006887273,0.000053686083,0.91287553,0.000017413106,0.00004940082,0.0000075457356,0.000039900995,0.015863005,0.06827862,0.000116277406,0.0017404706,0.00026944498],"about_ca_topic_score_codex":0.0011055274,"about_ca_topic_score_gemma":0.00088074233,"teacher_disagreement_score":0.88838303,"about_ca_system_score_codex":0.000069447255,"about_ca_system_score_gemma":0.00005071039,"threshold_uncertainty_score":0.99978095},"labels":[],"label_agreement":null},{"id":"W2139843696","doi":"10.1093/cercor/13.5.500","title":"Long-term Potentiation of Polysynaptic Responses in Layer V of the Sensorimotor Cortex Induced by Theta-patterned Tetanization in the Awake Rat","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":48,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"","keywords":"Long-term potentiation; Neuroscience; NMDA receptor; LTP induction; Facilitation; Neocortex; Stimulation; Tetanic stimulation; Excitatory postsynaptic potential; Chemistry; Psychology; Receptor; Inhibitory postsynaptic potential","score_opus":0.05322050172909046,"score_gpt":0.3239837566468173,"score_spread":0.2707632549177268,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2139843696","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983568,0.000019242963,0.000006926941,0.00039653096,0.0003694009,0.0006786203,0.000013757354,0.000010692742,0.00014798334],"genre_scores_gemma":[0.9985602,0.000030148214,8.312395e-7,0.0009646743,0.00001086322,0.000017764169,9.305307e-7,0.000016217766,0.00039838548],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99644274,0.0018236684,0.00043382114,0.0004183965,0.00053940184,0.000341962],"domain_scores_gemma":[0.9987598,0.0004994673,0.00023264746,0.00041364125,0.000055136406,0.000039281425],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005383075,0.00015283327,0.00021607109,0.00019506367,0.000110032815,0.00003180142,0.00063677004,0.00007905057,0.000103599945],"category_scores_gemma":[0.0009977634,0.00009696116,0.00007231018,0.0013136984,0.00027766777,0.00021670104,0.00007843343,0.00036023653,0.000010260247],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006611288,0.00015011673,0.24721093,0.000010965544,0.0000012469608,0.000017886729,0.00013902465,0.000003567261,0.7521988,0.00009292205,0.000025554706,0.000082871],"study_design_scores_gemma":[0.00042535746,0.000090406465,0.47244427,0.000009416885,0.000006524531,0.0000169825,0.000029840749,0.000096090334,0.5267864,0.000034580367,0.000005557194,0.0000545813],"about_ca_topic_score_codex":0.00002573352,"about_ca_topic_score_gemma":0.000032181582,"teacher_disagreement_score":0.22541238,"about_ca_system_score_codex":0.000032802025,"about_ca_system_score_gemma":0.00012555334,"threshold_uncertainty_score":0.3953961},"labels":[],"label_agreement":null},{"id":"W2139927483","doi":"10.1093/cercor/bhh214","title":"Loss of Neurofilament Labeling in the Primary Visual Cortex of Monocularly Deprived Monkeys","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"National Eye Institute","keywords":"Monocular deprivation; Visual cortex; Neurofilament; Neuroscience; Ocular dominance; Macaque; Visual system; Biology; Sensory deprivation; Monocular; Psychology; Sensory system; Optics","score_opus":0.03880082809661395,"score_gpt":0.30178585306754274,"score_spread":0.2629850249709288,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2139927483","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970152,0.000030300089,0.001493026,0.00018432538,0.00015686816,0.00028145112,0.000006747177,0.000034593544,0.0007975094],"genre_scores_gemma":[0.9978398,0.000046067064,0.0004056534,0.0015989534,0.0000274274,0.000010200444,0.00000510009,0.000019318977,0.000047460097],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982901,0.00015563483,0.00045726955,0.00036060534,0.00047522475,0.00026115362],"domain_scores_gemma":[0.99932283,0.00007674185,0.00022130602,0.00027007214,0.000052770563,0.000056281395],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021607822,0.00016537144,0.00026294985,0.00011493077,0.00008486252,0.000035963556,0.0004283814,0.000077935205,0.000075578864],"category_scores_gemma":[0.00011536855,0.00012821204,0.00009384372,0.00045943994,0.00016257752,0.0001877831,0.000087466644,0.00023800806,0.00003002172],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000059378814,0.00028766468,0.0018696656,0.000059299382,0.0000023742657,0.000023915336,0.0014205223,0.00012387197,0.99153304,0.0019173765,0.00000592639,0.0026969898],"study_design_scores_gemma":[0.0027141152,0.0009991315,0.20536779,0.00018424905,0.000034724224,0.000061158564,0.0007894824,0.001465762,0.7817765,0.006141945,0.000078935394,0.00038621778],"about_ca_topic_score_codex":0.0000698135,"about_ca_topic_score_gemma":0.000012861792,"teacher_disagreement_score":0.20975652,"about_ca_system_score_codex":0.000044833832,"about_ca_system_score_gemma":0.00010868533,"threshold_uncertainty_score":0.5228335},"labels":[],"label_agreement":null},{"id":"W2140007015","doi":"10.1093/cercor/bhk022","title":"Attention to Form or Surface Properties Modulates Different Regions of Human Occipitotemporal Cortex","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":301,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institutes of Health Research; Western University","funders":"","keywords":"Visual cortex; Functional magnetic resonance imaging; Neuroscience; Fusiform gyrus; Psychology; Texture (cosmology); Superior temporal sulcus; Cortex (anatomy); Computer vision; Computer science","score_opus":0.07193999882614263,"score_gpt":0.2859190141327369,"score_spread":0.21397901530659427,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2140007015","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99701196,0.000008280269,0.00016687083,0.00035398125,0.00025255067,0.00050944963,0.00003731015,0.00013980364,0.0015197984],"genre_scores_gemma":[0.9902464,0.0000086184555,0.00005585355,0.00017759766,0.00008260298,0.000016359605,0.000047625497,0.000025460164,0.009339443],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99852693,0.00007699217,0.00039514317,0.0004003044,0.0003018268,0.00029883024],"domain_scores_gemma":[0.9993986,0.000025384263,0.00014117315,0.0002543049,0.00007728202,0.0001032936],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000060847484,0.00020080306,0.00024979247,0.00010182647,0.00022628227,0.000059447942,0.0001761679,0.000087009015,0.00054522255],"category_scores_gemma":[0.000038491886,0.0001470027,0.000120008575,0.0002460255,0.000113642716,0.00023926058,0.00006590619,0.000119869,0.00018136209],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008434057,0.00018127561,0.009701345,0.00004532822,0.0000028324787,0.0000028152601,0.00014843706,0.000025513267,0.98722845,0.0006847856,0.001454832,0.00044005734],"study_design_scores_gemma":[0.00091338175,0.00069743406,0.73035467,0.00017215138,0.00002927722,0.000020947935,0.00027166895,0.0016019341,0.2633548,0.0016349604,0.0004984691,0.00045028274],"about_ca_topic_score_codex":0.0003442721,"about_ca_topic_score_gemma":0.00063961215,"teacher_disagreement_score":0.7238736,"about_ca_system_score_codex":0.00006073638,"about_ca_system_score_gemma":0.000023474917,"threshold_uncertainty_score":0.5994596},"labels":[],"label_agreement":null},{"id":"W2140038153","doi":"10.1093/cercor/bhg089","title":"Human Auditory Cortical Dynamics During Perception of Long Acoustic Sequences: Phase Tracking of Carrier Frequency by the Auditory Steady-state Response","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"John Jay College of Criminal Justice; McGill University; Johns Hopkins University","keywords":"Auditory cortex; Perception; Steady state (chemistry); Auditory perception; Auditory scene analysis; Dynamics (music); Psychology; Audiology; Acoustics; Neuroscience; Physics; Medicine; Chemistry","score_opus":0.027329854017872513,"score_gpt":0.2983171456972926,"score_spread":0.2709872916794201,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2140038153","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99682534,0.000008283008,0.0010731834,0.000037408903,0.0011967598,0.00034134198,0.00013546106,0.000058491587,0.00032376],"genre_scores_gemma":[0.9989159,0.000013553215,0.000015417125,0.00014910934,0.000112251495,0.00001658683,0.000006306612,0.000029506258,0.0007413731],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99691,0.0007695827,0.0006095961,0.00059718505,0.00064500043,0.00046866568],"domain_scores_gemma":[0.9986563,0.00022369107,0.00036939356,0.00050704327,0.00010288593,0.00014072086],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006346968,0.00024243108,0.00029112244,0.00013245257,0.0005260098,0.00004968493,0.0004391565,0.0001063407,0.0002823032],"category_scores_gemma":[0.0008447692,0.00019820794,0.00013737041,0.00041667293,0.0011721122,0.0005216646,0.00005114557,0.00043531295,0.000012197431],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010474971,0.00015164862,0.0006457297,0.000048421694,0.0000029030039,0.000030505787,0.0010127814,0.00009746487,0.9972093,0.00010075545,0.00015969906,0.00043605277],"study_design_scores_gemma":[0.003946625,0.0019854908,0.5231026,0.00025308868,0.00019145846,0.00041672974,0.00608803,0.005342706,0.45643666,0.0009659598,0.00011121665,0.0011594411],"about_ca_topic_score_codex":0.00004439397,"about_ca_topic_score_gemma":0.000052204865,"teacher_disagreement_score":0.5407726,"about_ca_system_score_codex":0.00022757889,"about_ca_system_score_gemma":0.00021429702,"threshold_uncertainty_score":0.8082685},"labels":[],"label_agreement":null},{"id":"W2140093162","doi":"10.1093/cercor/bhs304","title":"Disrupted Cortical Conductivity in Schizophrenia: TMS-EEG Study","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":81,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University of Toronto; Centre for Addiction and Mental Health","funders":"Canadian Institutes of Health Research; BrainsWay; Centre for Addiction and Mental Health; Pfizer","keywords":"Schizophrenia (object-oriented programming); Transcranial magnetic stimulation; Neuroscience; Electroencephalography; Stimulation; Psychology; Cortex (anatomy); Motor cortex; Psychiatry","score_opus":0.0548198120062814,"score_gpt":0.30208636062997396,"score_spread":0.24726654862369257,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2140093162","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99439895,0.000054180364,0.0000331418,0.0007386584,0.0012308446,0.000626847,0.00001491986,0.00016614431,0.0027363403],"genre_scores_gemma":[0.9983738,0.00000228918,0.000039987855,0.0009413502,0.0002219607,0.000077873716,0.0000017837932,0.00002928092,0.00031165613],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99738824,0.00048490404,0.0003181496,0.0006562712,0.00047565467,0.00067677855],"domain_scores_gemma":[0.9966523,0.0026134471,0.00008288212,0.0004178058,0.000039650928,0.00019393032],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00047825056,0.00026629365,0.0003748383,0.00015236554,0.00028965878,0.000046787838,0.00024052842,0.00008056895,0.0002716696],"category_scores_gemma":[0.0075732656,0.00024133819,0.000084224936,0.00065104663,0.00025955768,0.0007026194,0.00030059597,0.0005655858,0.00041900546],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00044773237,0.0029642382,0.8823013,0.000016646665,0.000030020483,0.000063840525,0.0012656836,0.0000067561346,0.10168597,0.007825313,0.0016796442,0.0017129086],"study_design_scores_gemma":[0.0015488975,0.00027223103,0.9927598,0.000007681228,0.000020468826,0.000035032383,0.00060185976,0.00013754563,0.0033857003,0.00043218807,0.0005019519,0.00029660235],"about_ca_topic_score_codex":0.00009069912,"about_ca_topic_score_gemma":0.00025152022,"teacher_disagreement_score":0.1104586,"about_ca_system_score_codex":0.00013969853,"about_ca_system_score_gemma":0.000051088824,"threshold_uncertainty_score":0.98414856},"labels":[],"label_agreement":null},{"id":"W2140222641","doi":"10.1093/cercor/bhr031","title":"Acquisition, Extinction, and Recall of Opiate Reward Memory Are Signaled by Dynamic Neuronal Activity Patterns in the Prefrontal Cortex","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Recall; Neuroscience; Psychology; Prefrontal cortex; Opiate; Tonic (physiology); Associative learning; Extinction (optical mineralogy); Bursting; Content-addressable memory; Stimulus (psychology); Premovement neuronal activity; Cognitive psychology; Cognition; Computer science; Biology; Artificial neural network; Artificial intelligence","score_opus":0.04864641193417037,"score_gpt":0.26109020902963953,"score_spread":0.21244379709546918,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2140222641","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981639,0.000020592384,0.00019646196,0.0001281749,0.00031603506,0.0004441944,0.00010588302,0.000045289824,0.00057949644],"genre_scores_gemma":[0.9986535,0.000034833763,0.00001913457,0.0008432027,0.000028541455,0.000030729854,0.000008051435,0.000020944512,0.0003610727],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9980065,0.00047839203,0.00031695567,0.0005719367,0.00031605616,0.0003101215],"domain_scores_gemma":[0.99910325,0.0001496887,0.0002750539,0.0003489893,0.00003076087,0.00009224831],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023499905,0.00022440671,0.00027160574,0.000073795585,0.0001477669,0.00002737714,0.00036309438,0.00009692801,0.00054596894],"category_scores_gemma":[0.00007921053,0.00017337366,0.00007119171,0.00018371434,0.00014603137,0.0003482804,0.000107145366,0.0003143495,0.000016078911],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003106433,0.0002165663,0.003544647,0.000047716956,0.000003920498,0.000043577737,0.0005728201,6.5025273e-7,0.9934958,0.00006080275,0.00010281315,0.0015999974],"study_design_scores_gemma":[0.00064998737,0.00044076558,0.5811273,0.000038955714,0.000018406568,0.000083945684,0.00020548546,0.0004739071,0.41584894,0.00089855806,0.000013910502,0.00019986175],"about_ca_topic_score_codex":0.000040667786,"about_ca_topic_score_gemma":0.000121745215,"teacher_disagreement_score":0.5776469,"about_ca_system_score_codex":0.0000279121,"about_ca_system_score_gemma":0.000023069377,"threshold_uncertainty_score":0.7069973},"labels":[],"label_agreement":null},{"id":"W2140530105","doi":"10.1093/cercor/13.10.1094","title":"Experience-dependent Regulation of the Zincergic Innervation of Visual Cortex in Adult Monkeys","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Enucleation; Visual cortex; Monocular deprivation; Neuroscience; Ocular dominance; Biology; Sensory deprivation; Cortex (anatomy); Anatomy; Staining; Sensory system","score_opus":0.03803778042340208,"score_gpt":0.3288423841029061,"score_spread":0.29080460367950406,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2140530105","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9978288,0.000005510768,0.000014903165,0.00010919402,0.00045657906,0.00038940588,0.000004261392,0.000016197953,0.001175172],"genre_scores_gemma":[0.99889195,0.00003193781,0.000006319314,0.00041567103,0.000014719908,0.000024484269,3.0412411e-7,0.000012430118,0.00060220377],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977344,0.0004307042,0.00045306448,0.0004381066,0.0006325428,0.0003111482],"domain_scores_gemma":[0.9991414,0.00015417098,0.00024644085,0.0002974561,0.00010244826,0.000058089678],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016923372,0.00012805677,0.00019220129,0.00015925732,0.000118328324,0.00001483462,0.00044587583,0.000066506385,0.00018140263],"category_scores_gemma":[0.00076934684,0.00009763686,0.000067854555,0.0011795266,0.00051323144,0.00030024294,0.00010787311,0.0002388699,0.000011705708],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000047635884,0.00015291832,0.044397607,0.000013400009,6.27554e-7,0.000005386559,0.00027308578,0.000064690124,0.9514895,0.0032380903,0.000026136553,0.00029092035],"study_design_scores_gemma":[0.00049950357,0.00014074853,0.18832885,0.000014466884,0.0000030107278,0.000010944684,0.000089655194,0.0018555502,0.8086118,0.00033356453,0.00003713449,0.00007475653],"about_ca_topic_score_codex":0.000038347065,"about_ca_topic_score_gemma":0.00002245537,"teacher_disagreement_score":0.14393124,"about_ca_system_score_codex":0.000040487907,"about_ca_system_score_gemma":0.00012843923,"threshold_uncertainty_score":0.39815158},"labels":[],"label_agreement":null},{"id":"W2140641176","doi":"10.1093/cercor/bhh041","title":"Kindling Changes Burst Firing, Neural Synchrony and Tonotopic Organization of Cat Primary Auditory Cortex","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Kindling; Tonotopy; Auditory cortex; Neuroscience; Stimulation; Brainstem; Amygdala; Cortex (anatomy); Psychology","score_opus":0.013008423353659643,"score_gpt":0.21763909206082652,"score_spread":0.20463066870716687,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2140641176","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99742573,0.000043833545,0.0003387875,0.0004819725,0.0011151724,0.00023438215,0.000011208274,0.00008911202,0.00025979945],"genre_scores_gemma":[0.9984532,0.00006211653,0.00011559952,0.0008019078,0.00027498248,0.0000047084445,0.000020822596,0.000028379032,0.00023830551],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988975,0.000033871056,0.00020741619,0.0004093445,0.00021509395,0.00023680997],"domain_scores_gemma":[0.9994233,0.0000576729,0.00017298455,0.00020523863,0.00005791457,0.000082876635],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005423599,0.00016482788,0.00019667082,0.000091511065,0.00016748266,0.000047126185,0.00015080796,0.00008228836,0.000056151508],"category_scores_gemma":[0.0001376483,0.0001559351,0.00003170822,0.00028608434,0.00012815859,0.0002113715,0.0001107337,0.00012383808,0.000012053473],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000152082075,0.000050895218,0.0076077376,0.000115886,0.000005463284,0.000019399185,0.00018060538,0.00013968625,0.9804201,0.00310248,0.00006101652,0.008281485],"study_design_scores_gemma":[0.0014708161,0.000532404,0.8539824,0.00011632318,0.000051331914,0.00015125851,0.00007053447,0.0026386857,0.1376306,0.0023716341,0.0004512789,0.00053276133],"about_ca_topic_score_codex":0.00004152846,"about_ca_topic_score_gemma":0.000050740728,"teacher_disagreement_score":0.84637463,"about_ca_system_score_codex":0.00010268873,"about_ca_system_score_gemma":0.000056751862,"threshold_uncertainty_score":0.6358849},"labels":[],"label_agreement":null},{"id":"W2141437797","doi":"10.1093/cercor/bhp250","title":"Prefrontal Cortical Contribution to Risk-Based Decision Making","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":227,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Canadian Institutes of Health Research","keywords":"Prefrontal cortex; Orbitofrontal cortex; Anterior cingulate cortex; Muscimol; Psychology; Insular cortex; Neuroscience; Discounting; Ventral striatum; Cingulate cortex; Infralimbic cortex; Striatum; Agonist; Dopamine; Medicine; Internal medicine; Central nervous system; Receptor; Cognition; Economics","score_opus":0.06004156498158684,"score_gpt":0.3684249910387281,"score_spread":0.30838342605714125,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2141437797","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952538,0.000018144703,0.0023301532,0.00077007845,0.0005440555,0.00034628506,0.000029944642,0.00016104296,0.00054648926],"genre_scores_gemma":[0.9942631,0.0000025653221,0.000413383,0.0051261485,0.000088317276,0.00000979604,0.0000025208758,0.000008404133,0.00008574636],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984155,0.00010418174,0.00025421532,0.0005506447,0.00026723873,0.0004082068],"domain_scores_gemma":[0.99934053,0.00016572427,0.000082140745,0.00023465407,0.000044998807,0.00013192713],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010102084,0.00017714062,0.0002100254,0.0000715878,0.00035870902,0.000045150915,0.0002173342,0.000080536025,0.00012542291],"category_scores_gemma":[0.00056496385,0.00013906407,0.00009405468,0.0002584246,0.00009247701,0.00011845725,0.000051437793,0.00027909473,0.0003995612],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010684618,0.0004274889,0.045484304,0.000002139751,0.0000031005984,0.00013399615,0.00005293286,0.000026327461,0.8398973,0.00086074974,0.0043697497,0.10767346],"study_design_scores_gemma":[0.0008157021,0.0009903829,0.91954494,0.0000342976,0.000029035577,0.000023077315,0.0000084877565,0.00029272077,0.07509349,0.001948311,0.00097035995,0.00024918682],"about_ca_topic_score_codex":0.0000034253985,"about_ca_topic_score_gemma":0.000019566563,"teacher_disagreement_score":0.87406063,"about_ca_system_score_codex":0.0000569232,"about_ca_system_score_gemma":0.000013861387,"threshold_uncertainty_score":0.56708676},"labels":[],"label_agreement":null},{"id":"W2141556360","doi":"10.1093/cercor/bhl073","title":"Thalamic-Prefrontal Cortical-Ventral Striatal Circuitry Mediates Dissociable Components of Strategy Set Shifting","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":209,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Michael Smith Health Research BC; National Alliance for Research on Schizophrenia and Depression","keywords":"Neuroscience; Perseveration; Cognitive flexibility; Psychology; Prefrontal cortex; Thalamus; Nucleus accumbens; Disconnection; Flexibility (engineering); Set (abstract data type); Basal ganglia; Nerve net; Central nervous system; Cognition; Computer science","score_opus":0.07162521427102894,"score_gpt":0.2886903360002874,"score_spread":0.21706512172925843,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2141556360","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9955031,0.000028260281,0.000057688347,0.000038965336,0.00064114435,0.00029355654,0.0002525713,0.0001156184,0.0030690595],"genre_scores_gemma":[0.9990274,0.0000048038464,0.00003709107,0.00009641703,0.0002201749,0.000008486725,0.000107398795,0.00003180562,0.00046644395],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997515,0.00020966295,0.000569827,0.0005518188,0.0005000216,0.0006536403],"domain_scores_gemma":[0.99896216,0.00027821268,0.00028097496,0.00029483397,0.000028344126,0.00015548365],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00017409015,0.00026743836,0.00039528435,0.00006240744,0.00024297,0.00006129528,0.00042838414,0.00013584302,0.0006762081],"category_scores_gemma":[0.00016511508,0.00024665002,0.00015298992,0.0002335974,0.00017798627,0.00035123125,0.00012845185,0.000357383,0.00007926703],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048879516,0.0001525805,0.0067550167,0.000036337435,0.0000065855256,0.00004322394,0.00006417089,0.00002609738,0.98633397,0.0061495504,0.00010321045,0.0002803657],"study_design_scores_gemma":[0.00081406377,0.00019041564,0.09953997,0.000036086163,0.000029393845,0.000027713097,0.00013055984,0.0012354691,0.8914437,0.006260844,0.000014399397,0.0002773489],"about_ca_topic_score_codex":0.00010409899,"about_ca_topic_score_gemma":0.00003206827,"teacher_disagreement_score":0.09489025,"about_ca_system_score_codex":0.0000512063,"about_ca_system_score_gemma":0.000048443075,"threshold_uncertainty_score":0.99999857},"labels":[],"label_agreement":null},{"id":"W2141601474","doi":"10.1093/cercor/bht320","title":"Intraparietal Sulcus Activity and Functional Connectivity Supporting Spatial Working Memory Manipulation","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary; Hotchkiss Brain Institute; Alberta Children's Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; University of Calgary","keywords":"Intraparietal sulcus; Working memory; Neuroscience; Covert; Psychology; Functional connectivity; Visual spatial attention; Cognitive psychology; Visual space; Posterior parietal cortex; Functional magnetic resonance imaging; Visual perception; Cognition; Perception","score_opus":0.06449762434149582,"score_gpt":0.2898431502436564,"score_spread":0.22534552590216061,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2141601474","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98248535,0.0000040997297,0.013951219,0.00024610592,0.00059096137,0.00024107604,0.0000021977748,0.00015898286,0.0023199848],"genre_scores_gemma":[0.9987154,0.0000018013542,0.000091176946,0.00048180527,0.00024014669,0.000019324953,0.0000064417395,0.000018788684,0.000425121],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986622,0.000119212265,0.00019505214,0.00046592948,0.00026413455,0.00029348422],"domain_scores_gemma":[0.9994384,0.00011062811,0.00015747812,0.0001256899,0.00003990624,0.00012790605],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0001866416,0.00016213785,0.0001636537,0.0000696163,0.0004015681,0.00022662239,0.000070526396,0.000100872036,0.0020873542],"category_scores_gemma":[0.00021974088,0.00015575014,0.000046745892,0.00014787797,0.00010586613,0.0005886054,0.00007665106,0.0002477339,0.00017023263],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004493737,0.000053102787,0.0041198083,0.000018573859,0.000002854754,0.0000030547897,0.00020386338,0.000012724453,0.85412675,0.0009127924,0.000091571834,0.14040999],"study_design_scores_gemma":[0.0007229549,0.00015957303,0.7731915,0.000025037507,0.000016458349,0.00008405537,0.00015939352,0.05137114,0.1681448,0.0056370953,0.00008997129,0.00039797998],"about_ca_topic_score_codex":0.00024042939,"about_ca_topic_score_gemma":0.00007826868,"teacher_disagreement_score":0.7690717,"about_ca_system_score_codex":0.000040290528,"about_ca_system_score_gemma":0.00004150156,"threshold_uncertainty_score":0.9988249},"labels":[],"label_agreement":null},{"id":"W2141782614","doi":"10.1093/cercor/bhv149","title":"Laser-Evoked Vertex Potentials Predict Defensive Motor Actions","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institutes of Health Research; Wellcome Trust","keywords":"Vertex (graph theory); Neuroscience; Evoked potential; Psychology; Laser; Physics; Computer science; Optics; Graph; Theoretical computer science","score_opus":0.05934346053571212,"score_gpt":0.2857791791100832,"score_spread":0.2264357185743711,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2141782614","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9821593,0.000048488484,0.0008084564,0.00056254666,0.0025257505,0.00033503174,0.000084332634,0.00034805632,0.013128014],"genre_scores_gemma":[0.9908944,0.000006376699,0.0002373164,0.0019978415,0.0002581308,0.000017782719,0.000009080447,0.000028392617,0.0065507153],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99824774,0.00014547027,0.0002651164,0.00054146565,0.00038564185,0.0004145412],"domain_scores_gemma":[0.99888015,0.00015812351,0.00011578005,0.00039897332,0.00012174545,0.0003252269],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00011206822,0.00021589348,0.00023880815,0.00010802375,0.00017205921,0.00014120745,0.00044052355,0.000100942336,0.00030783957],"category_scores_gemma":[0.00040717612,0.00018803983,0.00012730359,0.00023904731,0.00014467149,0.00038585914,0.00017865957,0.00022897683,0.0008427547],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002637518,0.00049797195,0.0021513286,0.000040177485,0.00007649014,0.00024628665,0.0013372978,0.00020058181,0.7500056,0.002942199,0.22855169,0.0136865955],"study_design_scores_gemma":[0.0037598845,0.0016312499,0.021919305,0.00012420285,0.00012549495,0.00048275522,0.00085839775,0.025185999,0.8655199,0.006531658,0.07264428,0.0012168814],"about_ca_topic_score_codex":0.000040423125,"about_ca_topic_score_gemma":0.0000145750755,"teacher_disagreement_score":0.1559074,"about_ca_system_score_codex":0.000066325636,"about_ca_system_score_gemma":0.00011046549,"threshold_uncertainty_score":0.9999352},"labels":[],"label_agreement":null},{"id":"W2141942412","doi":"10.1093/cercor/bhr153","title":"Encoding of Smooth-Pursuit Eye Movement Initiation by a Population of Vermal Purkinje Cells","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Vestibular and auditory disorders","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"Deutsche Forschungsgemeinschaft","keywords":"Smooth pursuit; Eye movement; Kinematics; Neuroscience; Purkinje cell; Population; Cerebellar vermis; Biology; Movement (music); Cerebellum; Psychology; Physics; Medicine","score_opus":0.02953858559961596,"score_gpt":0.24355384312280728,"score_spread":0.21401525752319134,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2141942412","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.994474,0.000019794017,0.00052655675,0.000015785237,0.0004565646,0.00017941579,0.000042082138,0.000027586388,0.0042582294],"genre_scores_gemma":[0.9995309,0.000009232729,0.00009695158,0.00017821667,0.00003268348,0.0000046978407,0.000016820246,0.0000126348805,0.00011786581],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99895877,0.0000598442,0.00030488483,0.00022105288,0.00028739386,0.00016804948],"domain_scores_gemma":[0.9994644,0.000024496303,0.00026330177,0.00017048873,0.000030723946,0.000046591915],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000087079,0.000105087536,0.00015255838,0.000071784016,0.000052242212,0.000009412762,0.00018662991,0.000054629814,0.00027977698],"category_scores_gemma":[0.000065460925,0.00010676,0.000058861,0.00015899264,0.00006719326,0.00022795006,0.00004633441,0.00007154626,0.000017316981],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000029100418,0.0001251553,0.026923683,0.000033505832,0.0000035301505,0.0000014188638,0.00043015424,0.000042950134,0.9695681,0.0013336168,0.00043233938,0.0010764519],"study_design_scores_gemma":[0.00040328238,0.00018643892,0.108936846,0.0000273162,0.00001726894,3.28046e-7,0.00006849738,0.0005593511,0.8886331,0.0008818659,0.00015236653,0.00013335675],"about_ca_topic_score_codex":0.0001337267,"about_ca_topic_score_gemma":0.0000074716636,"teacher_disagreement_score":0.08201317,"about_ca_system_score_codex":0.000022695318,"about_ca_system_score_gemma":0.00002034973,"threshold_uncertainty_score":0.43535465},"labels":[],"label_agreement":null},{"id":"W2142016817","doi":"10.1093/cercor/10.1.32","title":"Auditory Cortical Responses to the Interactive Effects of Interaural Intensity Disparities and Frequency","year":2000,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Stimulus (psychology); Audiology; Auditory cortex; Natural sounds; Acoustics; Psychology; Neuroscience; Physics; Cognitive psychology","score_opus":0.011951933873430036,"score_gpt":0.2443961037580653,"score_spread":0.23244416988463526,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2142016817","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99669874,0.000018038934,0.000049864193,0.0012188955,0.0010280912,0.00025647585,0.000014849321,0.000035765916,0.00067925284],"genre_scores_gemma":[0.9964237,0.000015954514,0.000022787623,0.002100179,0.000121345875,0.000013404165,0.0000013403896,0.0000101105,0.0012911696],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9989896,0.00018438237,0.00018214397,0.00029330078,0.00015770216,0.0001929019],"domain_scores_gemma":[0.9988231,0.0008014431,0.000048359438,0.0002012271,0.000041942938,0.00008393129],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007780769,0.00012635664,0.00017378837,0.000048699738,0.00014944276,0.000047986658,0.00016474047,0.00003838467,0.00011832022],"category_scores_gemma":[0.00090429315,0.00008379404,0.00005443664,0.0001346838,0.00024267011,0.00018630516,0.000089893234,0.0002490754,0.000046228666],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0023722677,0.00017679558,0.017360553,0.000100969664,0.000027550348,0.000088847955,0.0014680839,0.0000068672866,0.93562526,0.0054793116,0.0052341484,0.032059338],"study_design_scores_gemma":[0.0003377004,0.0008331278,0.9413596,0.00009860287,0.000025614452,0.00009030625,0.000090328205,0.001459326,0.05294687,0.0018932512,0.00065775384,0.00020754778],"about_ca_topic_score_codex":0.00009956368,"about_ca_topic_score_gemma":0.000047903366,"teacher_disagreement_score":0.923999,"about_ca_system_score_codex":0.000029427534,"about_ca_system_score_gemma":0.000016576076,"threshold_uncertainty_score":0.3417022},"labels":[],"label_agreement":null},{"id":"W2142026709","doi":"10.1093/cercor/bhs165","title":"Multivariate Activation and Connectivity Patterns Discriminate Speech Intelligibility in Wernicke's, Broca's, and Geschwind's Areas","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute on Deafness and Other Communication Disorders","keywords":"Psychology; Intelligibility (philosophy); Broca's area; Speech perception; Audiology; Cognitive psychology; Neuroscience; Perception; Medicine; Philosophy","score_opus":0.04039956274083921,"score_gpt":0.2998054293048706,"score_spread":0.25940586656403136,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2142026709","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99840486,0.00002342176,0.00045065698,0.0003032762,0.00017600603,0.00033901367,0.000010575941,0.000043775304,0.0002484176],"genre_scores_gemma":[0.999585,0.000023574312,0.00011750232,0.0001312295,0.000059308473,0.000011849303,0.0000035872881,0.000014042043,0.00005393727],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9986216,0.00023406392,0.00022996137,0.00044094076,0.00014976347,0.00032367904],"domain_scores_gemma":[0.99905336,0.00049100275,0.00007843364,0.00020846976,0.000022691804,0.00014602636],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004339159,0.00015331834,0.00019010922,0.000079795565,0.00010869364,0.00006112743,0.00007256327,0.000098023906,0.000027166667],"category_scores_gemma":[0.0010793615,0.00012940707,0.000028211625,0.00012391059,0.00014217419,0.0006634748,0.00012160007,0.00024420882,0.000009183248],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000046876663,0.00016891827,0.78787565,0.00008637241,0.0000019610993,0.0000016894431,0.0014078112,0.0000011623409,0.17794022,0.0009693571,0.0000048588154,0.03149511],"study_design_scores_gemma":[0.00038699145,0.00006438872,0.9550292,0.000061316256,0.000005272295,0.000012195119,0.00021295958,0.00066240475,0.04227489,0.0010890741,0.000042012438,0.00015929062],"about_ca_topic_score_codex":0.0010681457,"about_ca_topic_score_gemma":0.00009813682,"teacher_disagreement_score":0.16715354,"about_ca_system_score_codex":0.00007036354,"about_ca_system_score_gemma":0.000017758495,"threshold_uncertainty_score":0.5277067},"labels":[],"label_agreement":null},{"id":"W2142061972","doi":"10.1093/cercor/bhn201","title":"Two Phases of Interhemispheric Inhibition between Motor Related Cortical Areas and the Primary Motor Cortex in Human","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":252,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Motor cortex; Transcranial magnetic stimulation; Primary motor cortex; Corpus callosum; Psychology; Premotor cortex; Somatosensory system; Stimulation; Dorsum; Anatomy; Medicine","score_opus":0.03170676986700916,"score_gpt":0.27385661274279777,"score_spread":0.2421498428757886,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2142061972","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99544746,0.00014151799,0.00006722717,0.0001419139,0.000085002546,0.00061287417,0.000032508186,0.000069793285,0.0034016813],"genre_scores_gemma":[0.9992538,0.00004996935,0.000068444184,0.00020211158,0.000046384153,0.000028866334,0.000007669827,0.000019773046,0.00032300068],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99822277,0.00019275527,0.00062743743,0.00039637572,0.00031498325,0.0002456916],"domain_scores_gemma":[0.9987248,0.0007467814,0.00017043117,0.00023147414,0.00004967815,0.00007684317],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013558914,0.00019351345,0.000438085,0.000078593126,0.000215742,0.000017196915,0.00014929085,0.00006876173,0.00017841844],"category_scores_gemma":[0.0003720272,0.00014855985,0.00009122648,0.00035284198,0.0012797479,0.00013843412,0.00009076918,0.00026697907,0.000007958665],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00046850552,0.00014298233,0.071751885,0.00003666843,0.000014233394,0.00003434164,0.0009671716,0.0000041799944,0.92455435,0.001334478,0.000049447426,0.00064176606],"study_design_scores_gemma":[0.0066973637,0.00029365768,0.98718435,0.00006090049,0.000042840595,0.000042062013,0.0000627125,0.0003195637,0.004047692,0.0010620108,0.000021586093,0.00016527895],"about_ca_topic_score_codex":0.000109524575,"about_ca_topic_score_gemma":0.000011585926,"teacher_disagreement_score":0.92050666,"about_ca_system_score_codex":0.000038179136,"about_ca_system_score_gemma":0.000031883752,"threshold_uncertainty_score":0.60580945},"labels":[],"label_agreement":null},{"id":"W2142829299","doi":"10.1093/cercor/bhs247","title":"Acute Stress, But not Corticosterone, Disrupts Short- and Long-Term Synaptic Plasticity in Rat Dorsal Subiculum Via Glucocorticoid Receptor Activation","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Saskatchewan","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; National Alliance for Research on Schizophrenia and Depression","keywords":"Subiculum; Long-term potentiation; Corticosterone; Synaptic plasticity; Neuroscience; Hippocampus; Hippocampal formation; Glucocorticoid receptor; Glucocorticoid; Antiglucocorticoid; Endocrinology; Internal medicine; Neuroplasticity; Nonsynaptic plasticity; Neural facilitation; NMDA receptor; Dentate gyrus; Biology; Metaplasticity; Medicine; Receptor; Hormone","score_opus":0.03765746145458479,"score_gpt":0.31682865082269235,"score_spread":0.2791711893681076,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2142829299","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997491,0.000021972319,0.00013431848,0.00020764027,0.0011497814,0.000841207,0.000036590503,0.00008487514,0.000032597964],"genre_scores_gemma":[0.99824125,0.00011334273,0.000005245427,0.0011771776,0.00011859748,0.00006230257,0.000006731161,0.00004185512,0.00023351563],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99666643,0.00031550266,0.0004529675,0.00086293754,0.00057762454,0.0011245421],"domain_scores_gemma":[0.9987149,0.00046920776,0.00013002768,0.00029330116,0.00004088299,0.0003516439],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00013604324,0.000333418,0.0003674967,0.00023111788,0.00024621762,0.00013287054,0.00041398033,0.00014168763,0.00027192515],"category_scores_gemma":[0.0003426198,0.00030220486,0.00006379435,0.00054858817,0.0005198974,0.0012906896,0.00037848193,0.00066791335,0.00019557917],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00031855708,0.0002636759,0.21385673,0.000035601868,0.0000064648257,0.00007558539,0.000062352054,0.000002991986,0.7842498,0.000030038429,0.000022142758,0.0010760565],"study_design_scores_gemma":[0.00055977335,0.0002334993,0.3593573,0.000022034457,0.000022920432,0.0000703264,0.00000744533,0.0008030113,0.6386938,0.0000034497755,0.000012875508,0.00021354904],"about_ca_topic_score_codex":0.000012343361,"about_ca_topic_score_gemma":0.000014580408,"teacher_disagreement_score":0.14555599,"about_ca_system_score_codex":0.000105932246,"about_ca_system_score_gemma":0.000075223215,"threshold_uncertainty_score":0.999943},"labels":[],"label_agreement":null},{"id":"W2142835174","doi":"10.1093/cercor/bht102","title":"The Role of the Posterior Temporal and Medial Prefrontal Cortices in Mediating Learning from Romantic Interest and Rejection","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Death Anxiety and Social Exclusion","field":"Psychology","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Trinity College","funders":"National Institute of Mental Health; Irish Research Council; Wellcome Trust; Gordon and Betty Moore Foundation","keywords":"Psychology; Mentalization; Romance; Functional magnetic resonance imaging; Prefrontal cortex; Cognitive psychology; Ventromedial prefrontal cortex; Superior temporal sulcus; Neuroscience; Reinforcement learning; Cognition; Computer science; Artificial intelligence; Psychoanalysis","score_opus":0.010284082746645854,"score_gpt":0.24160344625349509,"score_spread":0.23131936350684923,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2142835174","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970243,0.00075595017,0.0000010234922,0.0002497773,0.0005569977,0.00022086463,0.0000028583706,0.0000130029875,0.0011752183],"genre_scores_gemma":[0.99956423,0.000025140387,0.00001286627,0.000044409226,0.00012959856,0.000009556393,0.0000073295428,0.000008859824,0.00019803173],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9991871,0.0001753627,0.00022194898,0.00016539947,0.00009303844,0.00015712864],"domain_scores_gemma":[0.99951744,0.00016196622,0.00015366616,0.00010436799,0.000020779222,0.00004179152],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013942098,0.000083447834,0.000127924,0.000018787152,0.00021643222,0.000043489123,0.00010634488,0.00009352598,0.00012577184],"category_scores_gemma":[0.000107635045,0.000052280437,0.000029962282,0.00006274297,0.00016296732,0.00011829447,0.00014359172,0.00023978122,0.000009961209],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":true,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000075991244,0.000020507927,0.91874474,0.000005301027,0.0000179001,9.877076e-7,0.012016899,2.0637009e-7,0.0131988125,0.00028355897,0.000025019828,0.05561005],"study_design_scores_gemma":[0.00039579606,0.00009832205,0.9862875,0.000028522642,0.000012654713,0.000004891858,0.010868123,0.0004917635,0.00014476679,0.0013884889,0.00021661425,0.00006260007],"about_ca_topic_score_codex":0.0074655255,"about_ca_topic_score_gemma":0.006485569,"teacher_disagreement_score":0.067542695,"about_ca_system_score_codex":0.000013300019,"about_ca_system_score_gemma":0.000013936488,"threshold_uncertainty_score":0.99914384},"labels":[],"label_agreement":null},{"id":"W2142993178","doi":"10.1093/cercor/bhn223","title":"Which Way Do I Go? Neural Activation in Response to Feedback and Spatial Processing in a Virtual T-Maze","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":103,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria","funders":"","keywords":"Neuroscience; Psychology; Stimulus (psychology); Negativity effect; Event-related potential; Neural correlates of consciousness; Cognition; Cognitive psychology","score_opus":0.07599830617129602,"score_gpt":0.33037747076886315,"score_spread":0.25437916459756715,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2142993178","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996951,0.000010873396,0.000011694426,0.0022733798,0.00016879033,0.00030332612,0.0000035743774,0.00004448959,0.00023291074],"genre_scores_gemma":[0.9983889,0.0000055191404,0.00001637733,0.0011012702,0.00004776776,0.000026924452,9.369441e-7,0.000014539506,0.0003977584],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984424,0.00018446175,0.0002601961,0.0005778681,0.00018955675,0.00034549535],"domain_scores_gemma":[0.9995983,0.00008922196,0.00006202732,0.00013466983,0.000032165684,0.00008359564],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013145166,0.00017890829,0.00021633062,0.0002039339,0.00013661839,0.00003576566,0.00014460583,0.00008012392,0.00002326323],"category_scores_gemma":[0.0003324909,0.0001537544,0.000021229554,0.0007165573,0.00014573836,0.0003243461,0.00011764668,0.00029252714,0.0000336962],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018599215,0.00013712632,0.10894516,0.0000061747724,4.50189e-7,0.0000700007,0.001925674,0.000015150972,0.86568147,0.0000069660846,0.00014591568,0.021205992],"study_design_scores_gemma":[0.0010249863,0.0004381978,0.96816224,0.000037855778,0.0000022915922,0.000055866694,0.00014844444,0.00024116151,0.029531905,0.000046310306,0.00010423326,0.00020653088],"about_ca_topic_score_codex":0.00013053475,"about_ca_topic_score_gemma":0.000676183,"teacher_disagreement_score":0.85921705,"about_ca_system_score_codex":0.00005044978,"about_ca_system_score_gemma":0.000029896184,"threshold_uncertainty_score":0.6269922},"labels":[],"label_agreement":null},{"id":"W2143017382","doi":"10.1093/cercor/bhh200","title":"Focal Decline of Cortical Thickness in Alzheimer's Disease Identified by Computational Neuroanatomy","year":2004,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":440,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Mental Health","keywords":"Atrophy; Parahippocampal gyrus; Neuroscience; Magnetic resonance imaging; Pathology; Temporal lobe; Posterior cortical atrophy; Medicine; Disease; Dementia; Psychology; Radiology; Epilepsy","score_opus":0.029527182815948207,"score_gpt":0.28495252293333334,"score_spread":0.25542534011738516,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2143017382","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99009246,0.00017852809,0.0019628794,0.0063848924,0.00045517783,0.00030113824,0.00009190262,0.00007270767,0.00046031587],"genre_scores_gemma":[0.99600047,0.000004330066,0.00012057444,0.0037415086,0.000043640473,0.000020951136,0.000018881128,0.000019671905,0.000029963147],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.99807274,0.00013916998,0.00038643164,0.00055622077,0.0005657455,0.00027971406],"domain_scores_gemma":[0.9976286,0.0018257843,0.00010556465,0.00020421243,0.00008197979,0.00015380897],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015962316,0.00017500686,0.00025119432,0.00010894687,0.00013263982,0.00003117342,0.0002482032,0.00005130869,0.00006845346],"category_scores_gemma":[0.0032083208,0.00017354632,0.000091723465,0.00043154435,0.00038479728,0.00023660128,0.00021051987,0.00026579853,0.00005484722],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0038689526,0.0069081984,0.2968541,0.00030083908,0.00021674944,0.0012527753,0.0010549392,0.05000841,0.14160028,0.47100943,0.020106524,0.0068187905],"study_design_scores_gemma":[0.0032368228,0.00019298347,0.9003675,0.00005056367,0.00007243569,0.000037426675,0.00005896943,0.0060524503,0.010010951,0.07905923,0.00043163824,0.00042905516],"about_ca_topic_score_codex":0.00006889818,"about_ca_topic_score_gemma":0.00006628553,"teacher_disagreement_score":0.60351336,"about_ca_system_score_codex":0.00005158129,"about_ca_system_score_gemma":0.00015969061,"threshold_uncertainty_score":0.7077013},"labels":[],"label_agreement":null},{"id":"W2143149828","doi":"10.1093/cercor/bht364","title":"Transient Maternal Hypothyroxinemia Potentiates the Transcriptional Response to Exogenous Thyroid Hormone in the Fetal Cerebral Cortex Before the Onset of Fetal Thyroid Function: A Messenger and MicroRNA Profiling Study","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Thyroid Disorders and Treatments","field":"Medicine","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Health Canada","funders":"","keywords":"Fetus; Thyroid; Endocrinology; Internal medicine; Hormone; Microarray; Gene expression; Cerebral cortex; microRNA; Thyroid function; Biology; Gene; Medicine; Pregnancy; Genetics","score_opus":0.010242107151747424,"score_gpt":0.232789995902369,"score_spread":0.2225478887506216,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2143149828","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9909995,0.001981265,0.00011005308,0.003767215,0.00019451349,0.0026199236,0.000115826966,0.00004493295,0.00016676563],"genre_scores_gemma":[0.9981266,0.00002247013,0.00013288998,0.00091350096,0.00014949762,0.0001781543,0.000065079315,0.000053727246,0.0003580356],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9968532,0.0005499566,0.0006812873,0.0005991093,0.00075093826,0.00056551537],"domain_scores_gemma":[0.9986752,0.00017628983,0.00017919554,0.00067781913,0.00012534598,0.00016611363],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0010385384,0.0004609541,0.00055335363,0.00016254245,0.0004535647,0.00009878242,0.00039895313,0.00012139879,0.00006578987],"category_scores_gemma":[0.000060307804,0.00023316371,0.00025831285,0.00043543236,0.00030429175,0.00013578265,0.00007360581,0.00048544107,0.000024466312],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.032917723,0.004743086,0.38802317,0.00012533143,0.0014491567,0.00032521386,0.03117607,0.000053613887,0.5332963,0.00056079536,0.0015254007,0.0058041727],"study_design_scores_gemma":[0.00704332,0.005580767,0.97674674,0.000034751334,0.0005400423,0.00057762204,0.007979727,0.00021372136,0.0005983,0.00022145912,0.00024632516,0.00021720449],"about_ca_topic_score_codex":0.00028101073,"about_ca_topic_score_gemma":0.00059992983,"teacher_disagreement_score":0.5887236,"about_ca_system_score_codex":0.000066718676,"about_ca_system_score_gemma":0.00011473302,"threshold_uncertainty_score":0.950814},"labels":[],"label_agreement":null},{"id":"W2143552920","doi":"10.1093/cercor/bhq004","title":"Influence of Conceptual Knowledge on Visual Object Discrimination: Insights from Semantic Dementia and MTL Amnesia","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Carnegie Mellon University","keywords":"Perirhinal cortex; Semantic dementia; Psychology; Semantic memory; Temporal lobe; Amnesia; Cognitive psychology; Perception; Temporal cortex; Cognitive neuroscience of visual object recognition; Recognition memory; Episodic memory; Neuroscience; Dementia; Cognition; Object (grammar); Artificial intelligence; Computer science; Medicine; Pathology; Frontotemporal dementia","score_opus":0.03565698824584555,"score_gpt":0.29820681668055193,"score_spread":0.26254982843470637,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2143552920","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980419,0.00003688375,0.000024588238,0.000043614025,0.0004975625,0.00022275023,0.00001373538,0.000052828687,0.0010661153],"genre_scores_gemma":[0.9993293,0.000007556641,0.000036112604,0.00031829526,0.00010015091,0.000009365092,0.0000054681427,0.000015873624,0.0001778517],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99868774,0.000120846475,0.0002678174,0.0004895745,0.00023341757,0.00020059285],"domain_scores_gemma":[0.99916935,0.0002721689,0.00013939546,0.00025050328,0.000045869714,0.00012269143],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000052414453,0.00019055116,0.00022312984,0.000082156235,0.00016776416,0.000033690372,0.00023783187,0.00009646632,0.00016679364],"category_scores_gemma":[0.00023991083,0.00015801094,0.00004513451,0.00017896455,0.00041587715,0.00029589224,0.00011237545,0.0002711016,0.00009239233],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000044041786,0.000094105744,0.0006394343,0.000017618291,0.00000471544,0.000013107253,0.00091685785,0.0000028434115,0.97708046,0.02039903,0.000022079977,0.00076568546],"study_design_scores_gemma":[0.00047958002,0.00035276214,0.077327944,0.0000392255,0.000032859007,0.000009521289,0.0001250693,0.00055893563,0.91816294,0.0026500341,0.000078486686,0.00018266895],"about_ca_topic_score_codex":0.000015003412,"about_ca_topic_score_gemma":0.000093916286,"teacher_disagreement_score":0.07668851,"about_ca_system_score_codex":0.0000065680842,"about_ca_system_score_gemma":0.00003694817,"threshold_uncertainty_score":0.64434993},"labels":[],"label_agreement":null},{"id":"W2144015309","doi":"10.1093/cercor/bhp127","title":"Spatial Distribution of Deep Sulcal Landmarks and Hemispherical Asymmetry on the Cortical Surface","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":149,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Korea Science and Engineering Foundation","keywords":"Sulcus; Central sulcus; Lateralization of brain function; Spatial distribution; Anatomy; Psychology; Neuroscience; Geology; Biology","score_opus":0.015682475248360285,"score_gpt":0.25184658918185215,"score_spread":0.23616411393349188,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2144015309","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.988486,0.000016256781,0.005702623,0.0011765414,0.00020942738,0.00021552632,0.000026455695,0.00006399394,0.0041032108],"genre_scores_gemma":[0.9979915,0.000014492379,0.00009072027,0.0017226223,0.00006466745,0.0000022561342,0.0000042803376,0.000011203402,0.0000982704],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9978507,0.00023237063,0.0003380937,0.00057040533,0.00057076255,0.0004376222],"domain_scores_gemma":[0.99830854,0.0009189847,0.00012872477,0.00040551205,0.00003896728,0.00019926045],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025116542,0.00021179483,0.0002523083,0.000010693031,0.0002319045,0.000060294977,0.00041586076,0.0001122822,0.00012696495],"category_scores_gemma":[0.0025767477,0.00014723696,0.0000728852,0.00052785274,0.0005551214,0.000110679764,0.00010185973,0.00046825194,0.000024549281],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038384652,0.00054296834,0.015917446,0.000022561026,0.0000051675706,0.00007103245,0.00011942364,0.000072142335,0.92546034,0.023207128,0.0019309516,0.032266993],"study_design_scores_gemma":[0.0007421375,0.0010747898,0.51904947,0.000030331716,0.000024289371,0.00011924715,0.00007715698,0.05160696,0.42486402,0.0010078708,0.00097011396,0.0004336149],"about_ca_topic_score_codex":0.000016623813,"about_ca_topic_score_gemma":0.0000019599079,"teacher_disagreement_score":0.50313205,"about_ca_system_score_codex":0.00004797849,"about_ca_system_score_gemma":0.00004154336,"threshold_uncertainty_score":0.60041493},"labels":[],"label_agreement":null},{"id":"W2144112898","doi":"10.1093/cercor/bhs389","title":"Effects of Neural Synchrony on Surface EEG","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":130,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"","keywords":"Electroencephalography; Neuroscience; Psychology; Neural correlates of consciousness; EEG-fMRI; Cognitive psychology; Computer science; Cognition","score_opus":0.015313794459314327,"score_gpt":0.24111184891593235,"score_spread":0.22579805445661802,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2144112898","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99539196,0.00004455223,0.000038131537,0.00012293694,0.0014931745,0.00022170565,0.00000613804,0.000066391,0.0026150027],"genre_scores_gemma":[0.99807215,0.000007691954,0.00002056402,0.00085183664,0.00009725594,0.0000033556084,0.0000021134138,0.000019413,0.0009256027],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99893117,0.000094113784,0.00015701215,0.00023922787,0.0002363394,0.00034212117],"domain_scores_gemma":[0.9992527,0.00031860764,0.000094284755,0.00020266985,0.000015917934,0.00011583231],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007164377,0.00014061733,0.00016032804,0.000039412414,0.00007881204,0.000017011136,0.00015464041,0.000054661807,0.00008087448],"category_scores_gemma":[0.00019438652,0.00011491235,0.000081863356,0.00019022715,0.000073417126,0.00021443193,0.00005580786,0.00015486892,0.00015261138],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004894844,0.0001463422,0.0040464005,0.00006085817,0.000002806503,0.0000061782603,0.000043989854,0.00006398007,0.98737246,0.004629916,0.00064533786,0.0029327746],"study_design_scores_gemma":[0.0006562566,0.0005741058,0.30825216,0.000036092326,0.000022719336,0.000025227326,0.000008883361,0.008633036,0.6803456,0.00028015298,0.00088609656,0.0002796664],"about_ca_topic_score_codex":0.0000127585845,"about_ca_topic_score_gemma":0.0000011324931,"teacher_disagreement_score":0.30702686,"about_ca_system_score_codex":0.000029221292,"about_ca_system_score_gemma":0.000009708858,"threshold_uncertainty_score":0.46859896},"labels":[],"label_agreement":null},{"id":"W2144312503","doi":"10.1093/cercor/bht347","title":"Orthographic Dependency in the Neural Correlates of Reading: Evidence from Audiovisual Integration in English Readers","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Reading (process); Orthography; Psychology; Numeral system; Dyslexia; Cognitive psychology; Contrast (vision); Linguistics; Functional magnetic resonance imaging; Computer science; Artificial intelligence; Neuroscience","score_opus":0.056472969273323445,"score_gpt":0.3276880404536607,"score_spread":0.2712150711803372,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2144312503","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9953359,0.0001299247,0.00013671868,0.00021733415,0.0006955332,0.0005015436,0.000005720141,0.00004242174,0.0029349052],"genre_scores_gemma":[0.9990665,0.000036260277,0.00009292621,0.00022523536,0.000092345435,0.00008618471,0.000059088863,0.0000133250405,0.0003281554],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9982119,0.00046654,0.0005296697,0.00034304496,0.00021540603,0.00023343542],"domain_scores_gemma":[0.9989941,0.00032346896,0.00016512994,0.00034454267,0.00012949598,0.000043265678],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00029850175,0.00016472106,0.00021771288,0.0002582707,0.000036409052,0.000045688044,0.00026888555,0.00018872225,0.0048966147],"category_scores_gemma":[0.0003460032,0.00011972891,0.000091049624,0.0004591066,0.000116975425,0.0004948671,0.000017131035,0.00048030025,0.00021021247],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":true,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009147706,0.00015105902,0.91643274,0.000006416245,0.00001212861,0.0000069793336,0.04826153,0.00001307325,0.008339019,0.0013276228,0.0020084837,0.02334947],"study_design_scores_gemma":[0.00042318064,0.00013583332,0.9709446,0.00011537767,0.000011163469,0.000003961361,0.024024459,0.0037118846,0.000078441946,0.00040766466,0.000017467935,0.00012596826],"about_ca_topic_score_codex":0.0075037144,"about_ca_topic_score_gemma":0.004431092,"teacher_disagreement_score":0.054511856,"about_ca_system_score_codex":0.00003474327,"about_ca_system_score_gemma":0.000017447039,"threshold_uncertainty_score":0.9991054},"labels":[],"label_agreement":null},{"id":"W2144398166","doi":"10.1093/cercor/bhq009","title":"Origin of Active States in Local Neocortical Networks during Slow Sleep Oscillation","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":276,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"National Institute of Neurological Disorders and Stroke; Canadian Institutes of Health Research","keywords":"Neuroscience; Local field potential; Neuron; Slow-wave sleep; Premovement neuronal activity; Electrophysiology; Cortex (anatomy); Sleep (system call); Biology; Physics; Electroencephalography; Computer science","score_opus":0.012363783828806853,"score_gpt":0.24241076890654858,"score_spread":0.23004698507774174,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2144398166","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9965074,0.000002094436,0.0018051399,0.00012911632,0.0007526235,0.00019100636,0.000007527099,0.00004134889,0.0005637668],"genre_scores_gemma":[0.99957347,0.000006792906,0.000041397616,0.00010805981,0.00008441266,0.0000069124926,0.000008191577,0.0000150670585,0.00015567747],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99888754,0.00004894374,0.00025768686,0.000337008,0.00019042318,0.00027837043],"domain_scores_gemma":[0.9994773,0.0001371049,0.000098505676,0.00017664666,0.000032316504,0.00007812202],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007113119,0.00012373406,0.00016034354,0.000093944946,0.00006814538,0.000025552836,0.00012506657,0.000099051285,0.00010444354],"category_scores_gemma":[0.000119146134,0.00011107092,0.000051821917,0.00033528663,0.00015430829,0.0002281711,0.000056751378,0.0004080231,0.000013937889],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035662128,0.00012200588,0.047617346,0.000025132538,0.000004409632,0.000033758475,0.00011450209,0.008882284,0.9024286,0.009703948,0.000026453286,0.030684887],"study_design_scores_gemma":[0.000525194,0.000091423404,0.48374122,0.000011053311,0.000005203366,0.000016990503,0.000026875025,0.4706221,0.043250844,0.0014770082,0.000082240935,0.00014985012],"about_ca_topic_score_codex":0.00008561621,"about_ca_topic_score_gemma":0.000292575,"teacher_disagreement_score":0.8591778,"about_ca_system_score_codex":0.00003774558,"about_ca_system_score_gemma":0.000019795265,"threshold_uncertainty_score":0.45293406},"labels":[],"label_agreement":null},{"id":"W2145237906","doi":"10.1093/cercor/bhn179","title":"Semaphorin 5B Is a Novel Inhibitory Cue for Corticofugal Axons","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Axon Guidance and Neuronal Signaling","field":"Neuroscience","cited_by":29,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Semaphorin; Neuroscience; Axon guidance; Cortex (anatomy); Biology; Inhibitory postsynaptic potential; Cell biology; Axon; Anatomy; Receptor","score_opus":0.09739392805027118,"score_gpt":0.28515289065024124,"score_spread":0.18775896259997005,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2145237906","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.993625,0.00006353876,0.002463886,0.000356897,0.0007029331,0.00047897553,0.00008521617,0.00016096636,0.0020625794],"genre_scores_gemma":[0.9912798,0.000030367668,0.00034804465,0.005054915,0.0004474726,0.00006729958,0.0000038691196,0.000044155844,0.0027241101],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99804926,0.000029403755,0.00036681638,0.00064845686,0.0003674068,0.00053865905],"domain_scores_gemma":[0.9990836,0.000219896,0.00013790383,0.00030886504,0.000059738348,0.00019004707],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000077089746,0.00023415347,0.00025756774,0.00008486339,0.00048649605,0.00003198954,0.00030667766,0.0000970796,0.00021696492],"category_scores_gemma":[0.00023994196,0.00022573708,0.00019770043,0.00026463912,0.00021815412,0.00025818872,0.00009474909,0.00023247834,0.00020184088],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010398807,0.00015180388,0.0022975858,0.00002369885,0.000005827461,0.000043236207,0.0002987721,0.000010565844,0.98246706,0.001941464,0.012192578,0.0004634258],"study_design_scores_gemma":[0.0016779313,0.0004109217,0.014205935,0.000045392455,0.000026257996,0.00032142064,0.000054426127,0.0019609788,0.9320456,0.00046222148,0.048239727,0.00054917997],"about_ca_topic_score_codex":0.000020329278,"about_ca_topic_score_gemma":0.0000060785937,"teacher_disagreement_score":0.050421447,"about_ca_system_score_codex":0.00004752726,"about_ca_system_score_gemma":0.00014456264,"threshold_uncertainty_score":0.9205291},"labels":[],"label_agreement":null},{"id":"W2145448242","doi":"10.1093/cercor/12.3.329","title":"Aging Causes a Preferential Loss of Cholinergic Innervation of Characterized Neocortical Pyramidal Neurons","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Cholinergic; Neuroscience; Pyramidal cell; Cholinergic neuron; Basal forebrain; Population; Biology; Cerebral cortex; Cortex (anatomy); Anatomy; Hippocampal formation; Medicine","score_opus":0.08261220493703599,"score_gpt":0.3243005890932644,"score_spread":0.24168838415622845,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2145448242","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983948,0.000009050128,0.000020488098,0.00038924385,0.00045311148,0.00030089187,0.000029170697,0.000059304773,0.00034397971],"genre_scores_gemma":[0.9984699,0.00008955125,0.000007104096,0.0006372577,0.00009627116,0.0000167593,0.0000014882387,0.000023206458,0.00065845135],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9977594,0.00024855012,0.0004940512,0.00052753644,0.0005091558,0.00046128788],"domain_scores_gemma":[0.99902004,0.0002133543,0.00022604458,0.00031539515,0.00008292301,0.00014224015],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010077367,0.00017709518,0.00031672738,0.00022524809,0.00012087452,0.000037122114,0.00048684917,0.000068578316,0.00080341694],"category_scores_gemma":[0.00046645242,0.00016006683,0.00010996573,0.0007218847,0.00072513433,0.00038062927,0.00020946837,0.00036093502,0.000046932983],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008526849,0.00027424694,0.008919589,0.000036973568,0.000002790376,0.000048513688,0.00007743639,0.000010869411,0.98900384,0.0006676558,0.00006888192,0.0008039205],"study_design_scores_gemma":[0.0009316306,0.00030227064,0.06939192,0.000014628198,0.000020120944,0.000051369745,0.000004310179,0.007092027,0.92174023,0.000058446316,0.00025359853,0.00013941672],"about_ca_topic_score_codex":0.000008534583,"about_ca_topic_score_gemma":0.0000011925808,"teacher_disagreement_score":0.067263596,"about_ca_system_score_codex":0.000013120654,"about_ca_system_score_gemma":0.00004321912,"threshold_uncertainty_score":0.8796852},"labels":[],"label_agreement":null},{"id":"W2145454584","doi":"10.1093/cercor/bht030","title":"Spatiotemporal Dependency of Age-Related Changes in Brain Signal Variability","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":218,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary; Baycrest Hospital","funders":"Canadian Institutes of Health Research","keywords":"Magnetoencephalography; Entropy (arrow of time); Transfer entropy; Functional connectivity; Statistical physics; Principle of maximum entropy; Psychology; Electroencephalography; Mathematics; Statistics; Neuroscience; Physics","score_opus":0.026569857725659677,"score_gpt":0.24890823377897395,"score_spread":0.22233837605331427,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2145454584","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98564315,0.000014638966,0.000075644224,0.0072060633,0.00029575103,0.00052132487,0.000015373742,0.00007523111,0.006152823],"genre_scores_gemma":[0.9977769,0.0000026442306,0.000096477816,0.0012299896,0.00004199874,0.00005380682,0.000004276552,0.000015841046,0.0007780574],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981468,0.00033955503,0.00033396902,0.00054373813,0.00033105523,0.0003049121],"domain_scores_gemma":[0.99646056,0.0029681707,0.00014869041,0.0002856342,0.000070028385,0.00006694351],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004119676,0.00017396966,0.0002906372,0.0001434648,0.00008070511,0.000024552946,0.00023245334,0.00010675217,0.0016619653],"category_scores_gemma":[0.005070273,0.0001632765,0.000067214765,0.000483149,0.0002617913,0.00027604468,0.00015394937,0.00025126385,0.00013647073],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007988533,0.0005258237,0.23603372,0.00012260735,0.000028359085,0.00005027021,0.0010794145,0.000068576475,0.7279547,0.013193357,0.00575102,0.015112257],"study_design_scores_gemma":[0.0008088057,0.0003006878,0.89023393,0.000034940535,0.000007497246,0.000012808657,0.00008930145,0.0019463875,0.058604147,0.04739617,0.00026648748,0.00029884104],"about_ca_topic_score_codex":0.0007617129,"about_ca_topic_score_gemma":0.00085926824,"teacher_disagreement_score":0.66935056,"about_ca_system_score_codex":0.00007820333,"about_ca_system_score_gemma":0.00005983769,"threshold_uncertainty_score":0.99925065},"labels":[],"label_agreement":null},{"id":"W2145641540","doi":"10.1093/cercor/13.9.962","title":"The Role of Parietal Cortex in Awareness of Self-generated Movements: a Transcranial Magnetic Stimulation Study","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":124,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"","keywords":"Efference copy; Transcranial magnetic stimulation; Posterior parietal cortex; Proprioception; Psychology; Neuroscience; Apraxia; Supramarginal gyrus; Audiology; Physical medicine and rehabilitation; Stimulation; Functional magnetic resonance imaging; Eye movement; Medicine; Aphasia","score_opus":0.018071439484220145,"score_gpt":0.28420211700933384,"score_spread":0.2661306775251137,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2145641540","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99554163,0.00012604901,0.00067488936,0.000013180113,0.00038449359,0.00060941087,0.0000081570915,0.000029826359,0.002612351],"genre_scores_gemma":[0.99935555,0.0000054131933,0.00004621586,0.00003049373,0.000020601228,0.00003460028,0.000031511598,0.000016117983,0.0004595018],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99850315,0.00032636296,0.0005663136,0.00021702333,0.00022140668,0.00016576485],"domain_scores_gemma":[0.9992732,0.000059127575,0.0002079821,0.00025200934,0.00017380863,0.000033881377],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00025903372,0.000121112294,0.00019948976,0.00008007633,0.000088486726,0.000014168667,0.00011772386,0.00007666404,0.0009575136],"category_scores_gemma":[0.000032602922,0.000102081634,0.000046475347,0.00047510196,0.0000455792,0.00009092288,0.000007820037,0.0000966132,0.00001323368],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016927501,0.0013159735,0.9761025,0.000009682882,0.000074179225,0.0000016886526,0.003904906,0.00038450386,0.0062874546,0.005431372,0.00003707363,0.0062814197],"study_design_scores_gemma":[0.0024923657,0.00046800493,0.9864386,0.00000506102,0.00003209429,0.0000012272142,0.0032513887,0.005874294,0.0004687362,0.00032040046,0.00054474274,0.00010311006],"about_ca_topic_score_codex":0.0002924153,"about_ca_topic_score_gemma":0.00041285352,"teacher_disagreement_score":0.010336105,"about_ca_system_score_codex":0.00004083683,"about_ca_system_score_gemma":0.00007608324,"threshold_uncertainty_score":0.9999558},"labels":[],"label_agreement":null},{"id":"W2146357663","doi":"10.1093/cercor/bhr107","title":"The Glutamatergic Component of the Mesocortical Pathway Emanating from Different Subregions of the Ventral Midbrain","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":100,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute on Alcohol Abuse and Alcoholism; Canadian Institutes of Health Research","keywords":"Glutamatergic; Neuroscience; Dopamine; Ventral tegmental area; Glutamate receptor; Midbrain; Tyrosine hydroxylase; Dopaminergic; Nucleus; Biology; Chemistry; Central nervous system; Biochemistry","score_opus":0.06768977439273109,"score_gpt":0.27957379534056676,"score_spread":0.21188402094783565,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2146357663","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99727815,0.00002322424,0.0000040829536,0.0008859845,0.00093609665,0.00043502953,0.000036981204,0.000018736966,0.0003816928],"genre_scores_gemma":[0.99907833,0.000020885533,0.0000020492469,0.000535851,0.00003536095,0.000019395591,2.0845263e-7,0.000014484749,0.00029342045],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99748665,0.0007101105,0.00038750784,0.0003621597,0.00059658795,0.00045698564],"domain_scores_gemma":[0.99842364,0.0006004339,0.00023141394,0.0006181418,0.000034206027,0.00009214704],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016952887,0.00015566018,0.00019917572,0.000028816801,0.0005894284,0.000026861951,0.0016153045,0.000047764854,0.00010834216],"category_scores_gemma":[0.00030970422,0.00006881133,0.00021786909,0.00032230996,0.0017339884,0.00007176896,0.00066745456,0.00041064824,0.000009710118],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000052728363,0.00015431206,0.024287872,0.0000073533106,0.0000053729773,0.000010083479,0.0003735842,8.023803e-7,0.97107744,0.0037048932,0.00008399367,0.0002415654],"study_design_scores_gemma":[0.00020697767,0.000059587815,0.37603316,0.000014786121,0.000011764052,0.000008500602,0.000042668806,0.00044504539,0.62218976,0.000868181,0.00006865045,0.000050895516],"about_ca_topic_score_codex":0.00006445401,"about_ca_topic_score_gemma":0.000028271115,"teacher_disagreement_score":0.35174528,"about_ca_system_score_codex":0.00002170914,"about_ca_system_score_gemma":0.000076743956,"threshold_uncertainty_score":0.6388952},"labels":[],"label_agreement":null},{"id":"W2147227398","doi":"10.1093/cercor/bhq018","title":"Transient Swelling, Acidification, and Mitochondrial Depolarization Occurs in Neurons but not Astrocytes during Spreading Depression","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":148,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Canadian Institutes of Health Research; Fondation pour la Recherche Médicale; Fondation Leducq; Michael Smith Health Research BC; Heart and Stroke Foundation of Canada","keywords":"Depolarization; Cortical spreading depression; Neuroscience; Membrane potential; Electrophysiology; Extracellular; Biophysics; Mitochondrion; Astrocyte; Intracellular; Neuron; Biology; Chemistry; Cell biology; Central nervous system; Internal medicine; Medicine","score_opus":0.02669176100060753,"score_gpt":0.295125506897781,"score_spread":0.26843374589717345,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2147227398","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99798256,0.00000886258,0.0001971093,0.00019779612,0.0010082573,0.00040883492,0.000011199493,0.00007896073,0.00010643323],"genre_scores_gemma":[0.99920213,0.000057490644,0.00007987266,0.0003081207,0.00013544361,0.00002881046,0.0000014583981,0.000024016877,0.00016267753],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979072,0.0001676028,0.00028767562,0.0008078605,0.000337206,0.00049243623],"domain_scores_gemma":[0.99923813,0.0001914178,0.000089432186,0.0002559049,0.000029480556,0.00019565264],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010189252,0.0001788553,0.00015976217,0.00025428942,0.0004153689,0.000129978,0.00035410607,0.000098520446,0.000049733106],"category_scores_gemma":[0.00039873587,0.00017246285,0.000040421048,0.00043026078,0.00028493349,0.0004913856,0.00010525315,0.00074591924,0.000020378766],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001386609,0.00006293051,0.024005946,0.000013381052,5.037896e-7,0.000050847666,0.00012214911,0.000027395847,0.9749648,0.00007226116,0.00000975923,0.0005313925],"study_design_scores_gemma":[0.0007040509,0.000053007327,0.15780017,0.000009013972,0.000005401587,0.00008172742,0.00001200074,0.002717074,0.8384098,0.000011984106,0.000066017295,0.00012980802],"about_ca_topic_score_codex":0.000018649442,"about_ca_topic_score_gemma":0.000036061112,"teacher_disagreement_score":0.13655502,"about_ca_system_score_codex":0.000015287886,"about_ca_system_score_gemma":0.000056258887,"threshold_uncertainty_score":0.7032831},"labels":[],"label_agreement":null},{"id":"W2147362123","doi":"10.1093/cercor/bhr358","title":"Investigating the Long-Lasting Residual Effect of a Set Shift on Frontostriatal Activity","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; Université de Montréal; Institut Universitaire de Gériatrie de Montréal","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Caudate nucleus; Set (abstract data type); Functional magnetic resonance imaging; Neuroscience; Psychology; Prefrontal cortex; Dorsolateral prefrontal cortex; Cognition; Computer science","score_opus":0.17927777475077372,"score_gpt":0.35321623907555055,"score_spread":0.17393846432477683,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2147362123","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99660456,0.000009781751,0.00000306103,0.00021966924,0.0004114632,0.0002838701,0.000027885624,0.00006779918,0.0023719184],"genre_scores_gemma":[0.9994541,0.0000011183221,0.000013509999,0.00028324372,0.0000897798,0.000015476508,0.0000010908104,0.000013332575,0.00012838583],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984966,0.00035441553,0.00019814231,0.00041764154,0.00023240027,0.00030078678],"domain_scores_gemma":[0.99895775,0.0004888006,0.00019232262,0.0002858721,0.000012634728,0.00006261164],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023377218,0.00019745732,0.00025056186,0.000037756345,0.00028218908,0.000016430986,0.00032636872,0.0000643103,0.0000636042],"category_scores_gemma":[0.0005052161,0.000113094065,0.0000850222,0.0001785638,0.0004802573,0.00014445726,0.0001649407,0.00035511903,0.000054222422],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00048700479,0.00013864634,0.4535921,0.00004595153,0.000018176293,0.00005345208,0.0018082579,9.933615e-7,0.529402,0.00018803916,0.001002792,0.0132625615],"study_design_scores_gemma":[0.00036871267,0.00083123357,0.46759963,0.000027781598,0.0000250422,0.000008734607,0.000022197557,0.000007918872,0.5308601,0.0001466806,0.000005012964,0.00009690651],"about_ca_topic_score_codex":0.00015890879,"about_ca_topic_score_gemma":0.00007490685,"teacher_disagreement_score":0.014007556,"about_ca_system_score_codex":0.000013286182,"about_ca_system_score_gemma":0.000012832489,"threshold_uncertainty_score":0.46118423},"labels":[],"label_agreement":null},{"id":"W2147508163","doi":"10.1093/cercor/bhs060","title":"Principal Component and Cluster Analysis of Layer V Pyramidal Cells in Visual and Non-Visual Cortical Areas Projecting to the Primary Visual Cortex of the Mouse","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":29,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Université du Québec à Trois-Rivières","funders":"","keywords":"Somatosensory system; Sensory system; Neuroscience; Visual cortex; Retinotopy; Cortex (anatomy); Biology; Population; Pyramidal cell; Anatomy; Hippocampus; Medicine","score_opus":0.020082010566244108,"score_gpt":0.2780468325705832,"score_spread":0.2579648220043391,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2147508163","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.998647,0.0000115885,0.00011474773,0.00016286447,0.00024594198,0.0006621673,0.00002624492,0.000014562866,0.00011487821],"genre_scores_gemma":[0.9989091,0.0000066372513,0.00002350317,0.0008163836,0.000065918335,0.000014349338,0.0000067134374,0.000019922767,0.00013745406],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9979662,0.00025655545,0.0005100918,0.00041469958,0.0004401834,0.0004123003],"domain_scores_gemma":[0.9989803,0.00036761272,0.0002330057,0.0002285535,0.00004914967,0.00014137579],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000462762,0.0002130962,0.0004176948,0.00020265851,0.0001608522,0.000047357673,0.00019426236,0.000087314824,0.000016972755],"category_scores_gemma":[0.00016106109,0.0001314089,0.00012214133,0.00083605,0.00028651603,0.00017922565,0.0004861437,0.00031677567,0.000002668804],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000217227,0.0003288012,0.27574006,0.000042936783,0.000042435226,0.0000016047766,0.000679691,0.00013497123,0.72181857,0.00013177021,0.000023519447,0.000838416],"study_design_scores_gemma":[0.00044263186,0.00021934666,0.876498,0.000016871243,0.00015124072,0.0000097254,0.00017376502,0.08256812,0.039731465,0.0000047418175,0.00003157828,0.00015250832],"about_ca_topic_score_codex":0.00014391931,"about_ca_topic_score_gemma":0.0001772789,"teacher_disagreement_score":0.6820871,"about_ca_system_score_codex":0.000052892978,"about_ca_system_score_gemma":0.000041584142,"threshold_uncertainty_score":0.53586996},"labels":[],"label_agreement":null},{"id":"W2147682570","doi":"10.1093/cercor/bhn042","title":"Listening to Musical Rhythms Recruits Motor Regions of the Brain","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":792,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University; McGill University; International Laboratory for Brain, Music and Sound Research; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; McGill University","keywords":"Psychology; Premotor cortex; Rhythm; Perception; Neuroscience; Functional magnetic resonance imaging; Anticipation (artificial intelligence); Context (archaeology); Cognitive psychology; Motor system; Mirror neuron; Action (physics); Supplementary motor area; Communication; Dorsum; Biology; Computer science","score_opus":0.07450825980617369,"score_gpt":0.2906209641262449,"score_spread":0.21611270432007118,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2147682570","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99245614,0.0000013055956,0.00017056554,0.0028880143,0.0007957468,0.00033071253,0.00001042695,0.00005777312,0.003289318],"genre_scores_gemma":[0.9823119,0.000005044318,0.000078695164,0.009337209,0.00015319476,0.000016750091,4.0327276e-7,0.0000129649015,0.008083835],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985988,0.000101715756,0.00020764774,0.0004323309,0.0003687412,0.00029074465],"domain_scores_gemma":[0.9991887,0.00010517974,0.00008293042,0.00046205605,0.00003144516,0.00012968393],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008720294,0.000114638286,0.00014041277,0.000068026064,0.0003610224,0.000018627452,0.0004130446,0.000047769834,0.000082437895],"category_scores_gemma":[0.00089894846,0.00008185521,0.0001151209,0.0006301218,0.00032563737,0.00017860411,0.00018712816,0.00017113225,0.00008757616],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000013700929,0.000033965054,0.00019090227,0.0000031405734,3.225253e-7,0.000014385075,0.00073624623,0.0000054318907,0.9897211,0.0010854227,0.0071570985,0.0010382398],"study_design_scores_gemma":[0.0007217329,0.00054069725,0.7506473,0.00010170324,0.0000132559,0.0009132781,0.00016165541,0.00078832556,0.19519123,0.00061810546,0.04984241,0.00046031168],"about_ca_topic_score_codex":0.000026464724,"about_ca_topic_score_gemma":0.000016562344,"teacher_disagreement_score":0.7945299,"about_ca_system_score_codex":0.00002854304,"about_ca_system_score_gemma":0.00007518774,"threshold_uncertainty_score":0.33379588},"labels":[],"label_agreement":null},{"id":"W2147884077","doi":"10.1093/cercor/bhi109","title":"Postnatal Expression Profile of OBCAM Implies its Involvement in Visual Cortex Development and Plasticity","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuropeptides and Animal Physiology","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Eye Institute","keywords":"Visual cortex; Immunocytochemistry; Immunostaining; Biology; Cortex (anatomy); Neurite; Neuroscience; Neuroplasticity; Neuron; Neural cell adhesion molecule; Cerebral cortex; Anatomy; Immunohistochemistry; Cell; Endocrinology; Cell adhesion; In vitro","score_opus":0.02873750250673619,"score_gpt":0.27055144176828855,"score_spread":0.24181393926155237,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2147884077","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99906623,0.00002996192,0.0000042902057,0.000019438025,0.00006228633,0.0002378336,0.000016263079,0.000029311186,0.00053435966],"genre_scores_gemma":[0.9991897,0.00001360702,0.00023031647,0.0002991862,0.000047387104,0.000014652816,0.000005251108,0.000014665341,0.00018523617],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99871993,0.000047060283,0.00033819408,0.00041989132,0.00018141746,0.00029350017],"domain_scores_gemma":[0.99961126,0.000077371384,0.00011846707,0.00008146121,0.000025627183,0.000085794345],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000042282343,0.0001626207,0.00021891127,0.00007941402,0.000083098384,0.000018191957,0.00014825242,0.00004840304,0.00013493953],"category_scores_gemma":[0.000068427784,0.00013650938,0.000026995669,0.00012096572,0.000100390556,0.00019683018,0.00027352275,0.00014324964,0.00004857805],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011044715,0.00014974008,0.0019092992,0.00004137359,0.0000014253391,0.000014198471,0.00024407446,0.0000056562308,0.99428046,0.000499251,0.00008510716,0.0026589404],"study_design_scores_gemma":[0.0004007224,0.00022636712,0.2620133,0.00004227719,0.0000018178321,0.000009447111,0.000063801905,0.00036012125,0.73623663,0.000019996243,0.0005012954,0.00012425649],"about_ca_topic_score_codex":0.000008521208,"about_ca_topic_score_gemma":0.00002580028,"teacher_disagreement_score":0.26010397,"about_ca_system_score_codex":0.000030390665,"about_ca_system_score_gemma":0.00005390814,"threshold_uncertainty_score":0.5566691},"labels":[],"label_agreement":null},{"id":"W2148145881","doi":"10.1093/cercor/bhj160","title":"Induction of Neocortical Long-Term Depression Results in Smaller Movement Representations, Fewer Excitatory Perforated Synapses, and More Inhibitory Synapses","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary; University of Lethbridge","funders":"","keywords":"Neocortex; Inhibitory postsynaptic potential; Excitatory postsynaptic potential; Neuroscience; Corpus callosum; Forelimb; Psychology; Sensory system; Pyramidal cell; Stimulation; Long-term depression; Biology; NMDA receptor; Hippocampus; Receptor","score_opus":0.03782303220154724,"score_gpt":0.3249710188941224,"score_spread":0.28714798669257513,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2148145881","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99831605,0.00007589617,0.000008648477,0.00035287274,0.00035280152,0.0005192614,0.000018989875,0.000050558974,0.00030493882],"genre_scores_gemma":[0.99871147,0.00010748754,0.00001071613,0.00038804096,0.00008191245,0.00004680933,0.000007664797,0.000020264004,0.00062566256],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99734414,0.00033031325,0.0005621822,0.0008386019,0.0004894155,0.00043533402],"domain_scores_gemma":[0.9990708,0.00024873257,0.00017222684,0.00030967483,0.00007512122,0.00012342454],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024163394,0.00019281889,0.00023546282,0.00033298213,0.00019127855,0.000048088208,0.00024059268,0.00011822659,0.00006188815],"category_scores_gemma":[0.00040842738,0.00015789989,0.000046434783,0.00061888207,0.000718423,0.00044533442,0.00023169722,0.00042920266,0.0000114988625],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00032466842,0.00024496214,0.19952574,0.000028666964,0.0000017714495,0.00019426634,0.00005957007,0.000042550208,0.7983658,0.000051445288,0.00045093993,0.0007096135],"study_design_scores_gemma":[0.0009235362,0.00012539627,0.5601551,0.000027586391,0.000006187613,0.000027069524,0.000031636886,0.0003717198,0.43814862,0.00006693689,0.000012891613,0.00010334596],"about_ca_topic_score_codex":0.000101067846,"about_ca_topic_score_gemma":0.000037711106,"teacher_disagreement_score":0.36062932,"about_ca_system_score_codex":0.000050249528,"about_ca_system_score_gemma":0.00010336845,"threshold_uncertainty_score":0.64389706},"labels":[],"label_agreement":null},{"id":"W2148384586","doi":"10.1093/cercor/bhs083","title":"Finding and Feeling the Musical Beat: Striatal Dissociations between Detection and Prediction of Regularity","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":279,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Wellcome Trust","keywords":"Beat (acoustics); Perception; Stimulus (psychology); Speech recognition; Psychology; Communication; Computer science; Neuroscience; Cognitive psychology; Acoustics; Physics","score_opus":0.05820673803244809,"score_gpt":0.2820125680693075,"score_spread":0.22380583003685944,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2148384586","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99850315,0.0000068481977,0.0007152968,0.0001277734,0.00030499016,0.0001514772,0.00004053804,0.000030265535,0.000119633165],"genre_scores_gemma":[0.99957615,0.000014360064,0.000016951193,0.00007126362,0.00026454538,0.0000050342687,0.0000029249325,0.000005176683,0.00004358313],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9992182,0.00007966643,0.00014519309,0.00019440522,0.0001809611,0.00018155905],"domain_scores_gemma":[0.9995918,0.00013317194,0.00008472237,0.00010792338,0.000012826263,0.0000695175],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002519433,0.00007013168,0.00008872073,0.00004470859,0.00040201863,0.00004094911,0.00006456584,0.00005348421,0.000009639141],"category_scores_gemma":[0.00031426045,0.000053537013,0.000026067566,0.00018307185,0.00017932126,0.0004657922,0.00007033225,0.0001401813,0.00000229206],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000063591906,0.000021647014,0.074861676,0.000008070268,0.000001569268,1.0907423e-7,0.00089810876,5.773366e-7,0.91112643,0.00047957723,0.000023284829,0.012572567],"study_design_scores_gemma":[0.00015529302,0.000041668343,0.9729023,0.0000075060684,0.000026140604,0.00000888637,0.00014614506,0.00045662367,0.025789527,0.00024492896,0.00017030918,0.000050677678],"about_ca_topic_score_codex":0.000023489783,"about_ca_topic_score_gemma":0.000009304943,"teacher_disagreement_score":0.8980406,"about_ca_system_score_codex":0.00002230296,"about_ca_system_score_gemma":0.000009890184,"threshold_uncertainty_score":0.30920428},"labels":[],"label_agreement":null},{"id":"W2148633911","doi":"10.1093/cercor/bhs157","title":"Anatomical and Functional Enhancements of the Insula after Loss of Large Primary Somatosensory Fibers","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; McGill University Health Centre","funders":"Canadian Institutes of Health Research","keywords":"Somatosensory system; Insula; Neuroscience; Insular cortex; Sensory system; Secondary somatosensory cortex; Psychology; Functional magnetic resonance imaging; Magnetic resonance imaging; Visual cortex; Anatomy; Medicine; Radiology","score_opus":0.014114984690850315,"score_gpt":0.23071815177986305,"score_spread":0.21660316708901273,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2148633911","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9984652,0.000047846734,0.000032780317,0.00007863583,0.0005705619,0.00012768689,0.00004775938,0.000009888681,0.00061964197],"genre_scores_gemma":[0.99870735,0.0000104308665,0.000018028257,0.00075620436,0.000048922513,0.000005233663,0.0000034326765,0.000008922699,0.00044149233],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991448,0.000060746785,0.00019022118,0.00016847109,0.0002366042,0.00019919341],"domain_scores_gemma":[0.9995808,0.00006191598,0.00011162115,0.0001678298,0.000022815562,0.00005504651],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008429971,0.00008998981,0.00012466943,0.000034734647,0.00005829662,0.000006151395,0.00007756639,0.000048386,0.00012901772],"category_scores_gemma":[0.000047526948,0.00006287114,0.000062558,0.00012775796,0.00016718356,0.00017053573,0.00013125963,0.000100846766,0.000007391947],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016606151,0.00019878283,0.2821883,0.000072091505,0.0000093132,0.0000012529295,0.0000977693,0.0000012462664,0.7110091,0.0054307473,0.00022899559,0.0005963356],"study_design_scores_gemma":[0.00040365415,0.00003589564,0.9096577,0.000016166878,0.000011737278,0.00001528788,0.000011403182,0.00021953825,0.08883279,0.0003260461,0.00039314816,0.00007663573],"about_ca_topic_score_codex":0.000002960051,"about_ca_topic_score_gemma":0.0000016516975,"teacher_disagreement_score":0.6274694,"about_ca_system_score_codex":0.000020196714,"about_ca_system_score_gemma":0.00001976575,"threshold_uncertainty_score":0.25638106},"labels":[],"label_agreement":null},{"id":"W2149180409","doi":"10.1093/cercor/bhm086","title":"Ventrolateral Prefrontal Neuronal Activity Related to Active Controlled Memory Retrieval in Nonhuman Primates","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Macaque; Ventrolateral prefrontal cortex; Prefrontal cortex; Recall; Neuroscience; Psychology; Neurophysiology; Neuroanatomy of memory; Interference theory; Working memory; Cognitive psychology; Cognition","score_opus":0.03218789714610427,"score_gpt":0.3019699944265228,"score_spread":0.2697820972804185,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2149180409","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99343884,0.0000064904957,0.00004516416,0.00023309996,0.001068206,0.0013437363,0.000021934202,0.00016275696,0.003679777],"genre_scores_gemma":[0.9972356,0.0000019248234,0.000046782177,0.0009128986,0.00008916438,0.00001712512,0.0000044985136,0.00004060331,0.0016513789],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970262,0.00029715174,0.00051258714,0.0008516303,0.00049707823,0.000815366],"domain_scores_gemma":[0.99871004,0.00039084704,0.00020367131,0.00034747558,0.00003380057,0.00031415728],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004977856,0.00034662875,0.00056161045,0.00025956426,0.00021089718,0.00006332695,0.0004035052,0.00017261413,0.0004945805],"category_scores_gemma":[0.0005394547,0.00031284333,0.00017190819,0.0004773781,0.00008946359,0.00050385983,0.00017423576,0.0006447918,0.00023630893],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.010368002,0.0002057279,0.00023337008,0.000011285777,0.000007724213,0.00025129225,0.00036719991,0.000015387655,0.98609716,0.00047320814,0.000020490033,0.001949145],"study_design_scores_gemma":[0.005490871,0.0006682862,0.11757893,0.000022114691,0.000015895786,0.00006278313,0.000035267243,0.0006733632,0.87437266,0.000746545,0.000021881619,0.00031137624],"about_ca_topic_score_codex":0.000012074084,"about_ca_topic_score_gemma":0.0000489664,"teacher_disagreement_score":0.117345564,"about_ca_system_score_codex":0.00018942103,"about_ca_system_score_gemma":0.00005977779,"threshold_uncertainty_score":0.99993235},"labels":[],"label_agreement":null},{"id":"W2150051646","doi":"10.1093/cercor/bhs145","title":"Postnatal Aversive Experience Impairs Sensitivity to Natural Rewards and Increases Susceptibility to Negative Events in Adult Life","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroendocrine regulation and behavior","field":"Psychology","cited_by":69,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut Universitaire en Santé Mentale de Québec; Université Laval","funders":"","keywords":"Prefrontal cortex; Aversive Stimulus; Psychology; Neuroscience; Microdialysis; Dopamine; Conditioned place preference; Salience (neuroscience); Saccharin; Developmental psychology; Medicine; Endocrinology; Cognition","score_opus":0.017807717541289292,"score_gpt":0.3211358008580056,"score_spread":0.3033280833167163,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2150051646","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9979652,0.000016176633,0.000008980487,0.0006278519,0.00056102633,0.00057885033,0.000057141566,0.00005103421,0.00013370816],"genre_scores_gemma":[0.99761975,3.205589e-7,0.00010699143,0.0013998193,0.00011633267,0.000035344092,0.000014646939,0.000015952735,0.0006908187],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983447,0.00028489373,0.00023268409,0.00044512085,0.00020146056,0.0004911054],"domain_scores_gemma":[0.9988776,0.00012652388,0.000059020935,0.00029578366,0.000112740694,0.00052831724],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000114485665,0.00020004832,0.0002390301,0.00013238675,0.00007209533,0.000012162918,0.000091912116,0.00004691535,0.00039604545],"category_scores_gemma":[0.00044370093,0.00018967644,0.00005877556,0.00028905575,0.000073230505,0.00027935262,0.00017975674,0.0001902422,0.00017610201],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00047817937,0.0002831432,0.98212177,0.000006794501,0.000010546261,0.00006850282,0.009644855,7.126747e-7,0.0048663043,0.00015616213,0.0008973659,0.0014656459],"study_design_scores_gemma":[0.0007066368,0.00015880026,0.9932072,0.000015492249,0.000010071716,0.00013070728,0.0036984656,0.000011637102,0.0017533053,0.0000066295593,0.00008647127,0.0002145723],"about_ca_topic_score_codex":0.0020452987,"about_ca_topic_score_gemma":0.0010248012,"teacher_disagreement_score":0.011085422,"about_ca_system_score_codex":0.000119173616,"about_ca_system_score_gemma":0.000038674858,"threshold_uncertainty_score":0.7734781},"labels":[],"label_agreement":null},{"id":"W2150816251","doi":"10.1093/cercor/11.10.989","title":"Functional Sub-regions for Optic Flow Processing in the Posteromedial Lateral Suprasylvian Cortex of the Cat","year":2001,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"","keywords":"Receptive field; Neuroscience; Visual cortex; Physics; Visual field; Geology; Optics; Biology","score_opus":0.061056782798420584,"score_gpt":0.29482182923673184,"score_spread":0.23376504643831125,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2150816251","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9951119,0.00001121885,0.0014236944,0.0018162762,0.0006879607,0.0004623731,0.000022083756,0.00003853987,0.00042597097],"genre_scores_gemma":[0.9968087,0.0000052162454,0.00012464677,0.0021550965,0.00018813573,0.000048573376,0.00001605352,0.000020339254,0.00063321384],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998562,0.00012726842,0.00029453987,0.00033068188,0.00035898428,0.00032656858],"domain_scores_gemma":[0.9994105,0.00010097172,0.00013118522,0.00023515383,0.00006472438,0.0000574716],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021258381,0.00016151185,0.0001618171,0.00007883472,0.00036218402,0.00010402334,0.0004179096,0.00008693407,0.00014070881],"category_scores_gemma":[0.00015427933,0.00009811962,0.000111801164,0.00048141726,0.0001919487,0.00024363672,0.000052283853,0.00018198093,0.00002603564],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033585308,0.00034420186,0.003920361,0.00011423875,0.0000040296236,0.000013778529,0.003962013,0.000085595624,0.97639376,0.0033426885,0.0015422252,0.009941245],"study_design_scores_gemma":[0.005839126,0.0013929416,0.81434643,0.0004287616,0.00012882562,0.0012484207,0.0019742583,0.08000884,0.06306597,0.026872171,0.0035509765,0.0011432735],"about_ca_topic_score_codex":0.0000126071,"about_ca_topic_score_gemma":0.000121188394,"teacher_disagreement_score":0.9133278,"about_ca_system_score_codex":0.00003897612,"about_ca_system_score_gemma":0.00013261753,"threshold_uncertainty_score":0.4001202},"labels":[],"label_agreement":null},{"id":"W2151028858","doi":"10.1093/cercor/bhs024","title":"Image-Invariant Responses in Face-Selective Regions Do Not Explain the Perceptual Advantage for Familiar Face Recognition","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"Wellcome Trust","keywords":"Fusiform face area; Perception; Face perception; Psychology; Face (sociological concept); Facial recognition system; Invariant (physics); Cognitive psychology; Functional magnetic resonance imaging; Artificial intelligence; Communication; Computer vision; Pattern recognition (psychology); Computer science; Neuroscience; Mathematics","score_opus":0.0848795296192314,"score_gpt":0.32012575468741566,"score_spread":0.23524622506818427,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2151028858","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9866063,0.000028003065,0.005347487,0.0015577757,0.00054027897,0.001431351,0.00049801206,0.00014298475,0.0038477809],"genre_scores_gemma":[0.9954107,0.00018934328,0.0006345642,0.0019030047,0.00019285231,0.00028400344,0.000069016416,0.0000398437,0.0012766944],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9976585,0.0006155581,0.0003346175,0.0004946786,0.00027271395,0.00062391924],"domain_scores_gemma":[0.9984639,0.0009033606,0.00012395933,0.0002840104,0.00007508305,0.00014966274],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0005682687,0.00025083855,0.00021870238,0.00017971861,0.0004012913,0.000095342264,0.00023525077,0.00014795906,0.00048138588],"category_scores_gemma":[0.0013664238,0.00019868575,0.00014684128,0.00038712606,0.00022241645,0.0008070205,0.000060216476,0.00037825553,0.00085789466],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013152265,0.00035624907,0.0008404529,0.000039907583,0.000009043814,0.000008116226,0.01432738,0.0000041412613,0.9513809,0.0011530338,0.005191116,0.025374442],"study_design_scores_gemma":[0.010309722,0.0018819548,0.36837873,0.000442916,0.00022838397,0.00065455894,0.13197975,0.008406739,0.42929628,0.0076386565,0.03739905,0.003383238],"about_ca_topic_score_codex":0.000038374634,"about_ca_topic_score_gemma":0.00009975044,"teacher_disagreement_score":0.5220846,"about_ca_system_score_codex":0.00014580248,"about_ca_system_score_gemma":0.000064571395,"threshold_uncertainty_score":0.99992007},"labels":[],"label_agreement":null},{"id":"W2151566456","doi":"10.1093/cercor/11.9.868","title":"Structural Asymmetries in the Human Brain: a Voxel-based Statistical Analysis of 142 MRI Scans","year":2001,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":476,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"","keywords":"Planum temporale; Voxel; Human brain; Laterality; Gyrus; Brain asymmetry; Corpus callosum; Magnetic resonance imaging; Voxel-based morphometry; Psychology; Sulcus; Neuroscience; Caudate nucleus; Cortex (anatomy); Anatomy; Medicine; Lateralization of brain function; Radiology; White matter","score_opus":0.03607044194707329,"score_gpt":0.3158021953196146,"score_spread":0.2797317533725413,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2151566456","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9908826,0.000008260296,0.0037224086,0.00088995043,0.00014069509,0.0002518265,0.00010646363,0.00004916657,0.0039486475],"genre_scores_gemma":[0.9963004,0.000002169811,0.00032158432,0.003096206,0.000031942323,0.000013036011,0.000012523599,0.000016210131,0.00020592364],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9969572,0.00041367457,0.0005373934,0.00068704854,0.0008453139,0.0005593651],"domain_scores_gemma":[0.9973967,0.0015399089,0.00020177543,0.0006855052,0.000049331513,0.00012676354],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00040505046,0.00023686847,0.00042853097,0.0002879749,0.00024691224,0.00010744134,0.0010858892,0.00007554937,0.0005236612],"category_scores_gemma":[0.0020356337,0.00017493856,0.00015212232,0.0064111403,0.0008967218,0.00019991308,0.00009428687,0.00033552508,0.000012027024],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000109985776,0.0003336097,0.742673,0.000053685482,0.0000491274,0.0004463618,0.0011040707,0.0036098338,0.20591268,0.039244324,0.002228683,0.0042346762],"study_design_scores_gemma":[0.00053862284,0.00020600679,0.9049724,0.000010809323,0.000118801836,0.00002538075,0.00021680657,0.08192977,0.010435115,0.000645833,0.0006078084,0.0002926927],"about_ca_topic_score_codex":0.00022000926,"about_ca_topic_score_gemma":0.00024284776,"teacher_disagreement_score":0.19547756,"about_ca_system_score_codex":0.000062679515,"about_ca_system_score_gemma":0.00010197242,"threshold_uncertainty_score":0.7133787},"labels":[],"label_agreement":null},{"id":"W2151765069","doi":"10.1093/cercor/bhm244","title":"Brain Size and Cortical Structure in the Adult Human Brain","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":437,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Gyrification; Human brain; Brain size; Cerebral cortex; Cortex (anatomy); Anatomy; Normalization (sociology); Neuroscience; Psychology; Magnetic resonance imaging; Biology; Medicine","score_opus":0.028381364219298228,"score_gpt":0.2671016195754156,"score_spread":0.23872025535611738,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2151765069","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96814287,0.000025022811,0.0000066874636,0.029410753,0.00014642536,0.00024912314,0.00002107866,0.000054420707,0.0019436505],"genre_scores_gemma":[0.9574737,0.0000050307945,0.000028792016,0.0416681,0.0001343041,0.000013427129,0.0000017974932,0.000014793535,0.00066008983],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983024,0.00031123488,0.00020108411,0.0005144585,0.00035257207,0.0003182702],"domain_scores_gemma":[0.991694,0.007886621,0.00005171414,0.00027475436,0.000031832948,0.000061098086],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00015508191,0.0001798591,0.00019568445,0.000050902403,0.00058451446,0.000041732343,0.00024816702,0.00007511647,0.00013159572],"category_scores_gemma":[0.014335538,0.00012892143,0.000048264414,0.0003161158,0.0005270655,0.00016024498,0.00012092784,0.00043876565,0.000019392233],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001575427,0.0002290634,0.12549779,0.000044440472,0.00001861919,0.00045375916,0.0054635345,0.000008830053,0.6862008,0.07988484,0.10120681,0.0008339376],"study_design_scores_gemma":[0.0008339829,0.00019715352,0.98678,0.000009627227,0.000004578174,0.0003722503,0.00025214095,0.00009995463,0.0023807767,0.0062983474,0.0025688694,0.00020231999],"about_ca_topic_score_codex":0.000061305145,"about_ca_topic_score_gemma":0.0004629914,"teacher_disagreement_score":0.8612822,"about_ca_system_score_codex":0.00003295245,"about_ca_system_score_gemma":0.00003161155,"threshold_uncertainty_score":0.9939671},"labels":[],"label_agreement":null},{"id":"W2151804576","doi":"10.1093/cercor/bhr371","title":"The Association between Resting Functional Connectivity and Creativity","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":244,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institute of Aging","funders":"","keywords":"Default mode network; Creativity; Prefrontal cortex; Association (psychology); Psychology; Posterior cingulate; Schizotypy; Functional connectivity; Functional magnetic resonance imaging; Resting state fMRI; Neuroscience; Schizophrenia (object-oriented programming); Cognitive psychology; Cognition; Social psychology","score_opus":0.05863355310569957,"score_gpt":0.27587079695114003,"score_spread":0.21723724384544046,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2151804576","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9847932,0.00011154585,0.00024647728,0.003423457,0.0007355218,0.00018417233,0.000020080495,0.000117858144,0.010367708],"genre_scores_gemma":[0.99645734,0.000010424183,0.000022194397,0.0007117935,0.00073814066,0.000025690251,0.0000021372557,0.000013455285,0.0020188424],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983428,0.00033434172,0.00015950612,0.00032634055,0.0004052963,0.00043172386],"domain_scores_gemma":[0.97689956,0.02259914,0.00016537488,0.00016825694,0.0000658906,0.00010176457],"candidate_categories":["metaresearch","sts"],"consensus_categories":[],"category_scores_codex":[0.0010521619,0.0001446985,0.00016389003,0.00003489615,0.0013153313,0.00011537253,0.00008751005,0.00007153446,0.00003056387],"category_scores_gemma":[0.026178494,0.00010986248,0.00005319936,0.00021403687,0.00015121329,0.0005080371,0.00016726917,0.00027047668,0.000064929816],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000022692302,0.000026028201,0.9750019,0.0000049896007,0.000024810604,3.3971187e-7,0.00009728087,0.0000013612911,0.0069237775,0.010259339,0.0032959299,0.004341604],"study_design_scores_gemma":[0.00022396566,0.00004050747,0.98185235,0.0000051428165,0.000024893128,0.000007919739,0.000057723482,0.00006850443,0.0036196485,0.0021192445,0.011846275,0.00013382545],"about_ca_topic_score_codex":0.00003690381,"about_ca_topic_score_gemma":0.000031303243,"teacher_disagreement_score":0.025126332,"about_ca_system_score_codex":0.00020221998,"about_ca_system_score_gemma":0.000031365442,"threshold_uncertainty_score":0.9999848},"labels":[],"label_agreement":null},{"id":"W2152476757","doi":"10.1093/cercor/bhm073","title":"Large-Scale Gamma-Band Phase Synchronization and Selective Attention","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":266,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Percept; Cued speech; Synchronization (alternating current); Phase synchronization; Context (archaeology); Neuroscience; Computer science; Visual cortex; Psychology; Perception; Cognitive psychology; Biology; Telecommunications","score_opus":0.012876204185394294,"score_gpt":0.2656480597912814,"score_spread":0.2527718556058871,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2152476757","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9696526,0.000019243344,0.026907692,0.00011018887,0.00038240018,0.0002221425,0.00001567027,0.00008746066,0.0026026322],"genre_scores_gemma":[0.99824995,0.000015620895,0.000047468217,0.0004345577,0.00012303708,0.0000035002793,0.000023363165,0.00001617127,0.0010863248],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989546,0.000039054397,0.0001700766,0.00038136894,0.00016920787,0.00028571513],"domain_scores_gemma":[0.9996029,0.00006302361,0.00008250393,0.00011257941,0.000047000536,0.00009198517],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017646232,0.00011709142,0.00010438184,0.0000838861,0.00023479805,0.00006134756,0.00006107578,0.00006501297,0.00006401135],"category_scores_gemma":[0.00008851657,0.00010881777,0.000035567435,0.0003080158,0.000057695404,0.00026715262,0.00002746329,0.00012755848,0.000030959083],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015132311,0.00020987753,0.008815672,0.000021943019,0.0000045642378,0.000021016722,0.00020774594,0.0000057212587,0.9700311,0.0020711552,0.00048124418,0.01797865],"study_design_scores_gemma":[0.009110022,0.0019406884,0.42735684,0.000075125994,0.00009986184,0.00034443318,0.00050282764,0.10801362,0.43947977,0.0061405036,0.005825706,0.0011106059],"about_ca_topic_score_codex":0.000006168879,"about_ca_topic_score_gemma":0.00006944587,"teacher_disagreement_score":0.5305513,"about_ca_system_score_codex":0.00005320036,"about_ca_system_score_gemma":0.000014650445,"threshold_uncertainty_score":0.44374597},"labels":[],"label_agreement":null},{"id":"W2152504597","doi":"10.1093/cercor/bhl130","title":"Empathy and Judging Other's Pain: An fMRI Study of Alexithymia","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Psychosomatic Disorders and Their Treatments","field":"Medicine","cited_by":443,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Empathy; Alexithymia; Psychology; Functional magnetic resonance imaging; Dorsolateral prefrontal cortex; Anterior cingulate cortex; Insula; Toronto Alexithymia Scale; Socioemotional selectivity theory; Medial frontal gyrus; Inferior frontal gyrus; Audiology; Neuroscience; Prefrontal cortex; Cognition; Clinical psychology; Psychiatry; Medicine","score_opus":0.01609860010180753,"score_gpt":0.26726714055668505,"score_spread":0.2511685404548775,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2152504597","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99139184,0.00017942603,0.00005445638,0.00009374906,0.00005764447,0.00043291104,0.0000044057965,0.000043071115,0.007742525],"genre_scores_gemma":[0.9989012,0.000002959927,0.0001941653,0.00020085182,0.00006092138,0.000013350771,0.000014093036,0.000021545464,0.0005909193],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99919057,0.00005188267,0.00021999526,0.00021855667,0.00015760818,0.00016139461],"domain_scores_gemma":[0.9995135,0.000020557949,0.00008053543,0.00027913338,0.000026336797,0.000079934645],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012369895,0.00013247514,0.00026239525,0.00006290621,0.00005046196,0.000013161807,0.00005266937,0.000039313618,0.0001160051],"category_scores_gemma":[0.000008619875,0.000102583406,0.000036576912,0.00009756716,0.000042912958,0.00006784833,0.000016416565,0.000054571934,0.0000066988296],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000082127626,0.002164139,0.9896335,0.00005880187,0.000093741364,0.000022302815,0.0016779841,9.2280726e-7,0.00026694348,0.0002046032,0.00045301035,0.005341945],"study_design_scores_gemma":[0.0039083334,0.0019373742,0.98725677,0.00015747045,0.00007478458,0.000013532029,0.004410954,0.00042611867,0.00006336655,0.0014716368,0.00016701542,0.00011263238],"about_ca_topic_score_codex":0.00077435025,"about_ca_topic_score_gemma":0.00022594236,"teacher_disagreement_score":0.007509382,"about_ca_system_score_codex":0.000012991231,"about_ca_system_score_gemma":0.000015466314,"threshold_uncertainty_score":0.41832298},"labels":[],"label_agreement":null},{"id":"W2152587029","doi":"10.1093/cercor/10.12.1185","title":"Origin of Slow Cortical Oscillations in Deafferented Cortical Slabs","year":2000,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":738,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"","keywords":"Neuroscience; Excitatory postsynaptic potential; Bursting; Cortex (anatomy); Postsynaptic potential; Depolarization; Inhibitory postsynaptic potential; Electrophysiology; Physics; Chemistry; Biology; Biophysics","score_opus":0.02981536872831009,"score_gpt":0.2721243278070217,"score_spread":0.24230895907871164,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2152587029","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99181837,0.0000055781293,0.00010576944,0.00027881126,0.00026650517,0.000212234,0.00002408429,0.00006267645,0.0072259773],"genre_scores_gemma":[0.9975323,0.000017751356,0.00006449481,0.0004016276,0.000045123394,0.000007720616,0.000011070461,0.000015957005,0.001903965],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99846214,0.00014320893,0.00040024307,0.00039109876,0.00028108375,0.00032223552],"domain_scores_gemma":[0.9992868,0.0002629067,0.000057371715,0.0002465501,0.000029477102,0.00011691815],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000091396316,0.000144375,0.00022602332,0.00010321137,0.00010035164,0.000027559663,0.00016794559,0.000085374864,0.0019224418],"category_scores_gemma":[0.00028391788,0.00012780825,0.00007924821,0.00052815885,0.00016887033,0.00014219074,0.000032838965,0.00031673358,0.00018651821],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003948548,0.00037111234,0.08361924,0.000033812852,0.000008491415,0.00006864096,0.00012818565,0.0002175864,0.8442499,0.052816454,0.00074401195,0.017347706],"study_design_scores_gemma":[0.0015053764,0.00042998625,0.86841977,0.00004815105,0.000025199512,0.000056307545,0.000026406437,0.10274202,0.020852959,0.002977084,0.0025288537,0.00038786491],"about_ca_topic_score_codex":0.000046012625,"about_ca_topic_score_gemma":0.00006756507,"teacher_disagreement_score":0.8233969,"about_ca_system_score_codex":0.00004638641,"about_ca_system_score_gemma":0.00004640471,"threshold_uncertainty_score":0.99898994},"labels":[],"label_agreement":null},{"id":"W2153152316","doi":"10.1093/cercor/bhm248","title":"Encoding, Rehearsal, and Recall in Signers and Speakers: Shared Network but Differential Engagement","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Impairment and Communication","field":"Psychology","cited_by":43,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"National Institute on Deafness and Other Communication Disorders; Canadian Institutes of Health Research; National Institutes of Health; James S. McDonnell Foundation","keywords":"Recall; Psychology; Encoding (memory); American Sign Language; Sign language; Spoken language; Cognitive psychology; Functional magnetic resonance imaging; Computer science; Linguistics; Neuroscience","score_opus":0.060947020789398496,"score_gpt":0.30042026884381295,"score_spread":0.23947324805441444,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2153152316","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9895033,0.00040750898,0.000048843674,0.00030883716,0.00022955937,0.00024026692,0.0000020375537,0.000055852535,0.009203797],"genre_scores_gemma":[0.99731225,0.0001857114,0.0002873701,0.00019108328,0.00012655917,0.000024029758,0.00002134773,0.00001621533,0.0018354418],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9988377,0.00023514383,0.00023123337,0.00028116922,0.000100665544,0.00031408525],"domain_scores_gemma":[0.9994352,0.00008053469,0.000057015943,0.00031559338,0.000013053085,0.0000986057],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002221975,0.00012999296,0.00017376055,0.00006425453,0.00015883135,0.000034775097,0.00013031121,0.000097158736,0.0006816461],"category_scores_gemma":[0.000020273814,0.00013018772,0.000026458913,0.00010685321,0.00010275145,0.000090999645,0.00014236981,0.0002726127,0.00003868328],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037693666,0.00030888812,0.93484074,0.00003280059,0.00009151916,0.000081496204,0.012424301,0.0000056307285,0.0016184674,0.0030189161,0.025497008,0.021703277],"study_design_scores_gemma":[0.0010353657,0.00018396795,0.99353045,0.000036441914,0.0000115943485,0.000024725034,0.00035330732,0.00028758956,0.000009760273,0.00019398844,0.004173223,0.00015959473],"about_ca_topic_score_codex":0.00028520575,"about_ca_topic_score_gemma":0.000081571816,"teacher_disagreement_score":0.058689684,"about_ca_system_score_codex":0.000033064985,"about_ca_system_score_gemma":0.000016023954,"threshold_uncertainty_score":0.7463547},"labels":[],"label_agreement":null},{"id":"W2153290964","doi":"10.1093/cercor/bhl072","title":"Neural Basis for Priming of Pop-Out during Visual Search Revealed with fMRI","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":142,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University Medical Centre","funders":"Wellcome Trust","keywords":"Functional magnetic resonance imaging; Priming (agriculture); Visual search; Psychology; Neuroscience; Cognitive psychology; Basis (linear algebra); Biology; Mathematics","score_opus":0.049162189667253296,"score_gpt":0.3202729903438042,"score_spread":0.2711108006765509,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2153290964","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99579066,0.00000843588,0.0024787027,0.000108638735,0.00012701367,0.00031581806,0.000014861966,0.00010136624,0.0010545192],"genre_scores_gemma":[0.9956007,0.0000017430506,0.00086623046,0.00021613008,0.00014053025,0.00001859202,0.000006802864,0.000035188536,0.0031140852],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99856246,0.00006724145,0.00026614463,0.00041014605,0.0003263269,0.00036767556],"domain_scores_gemma":[0.99949,0.000079075675,0.0001125927,0.00015836488,0.0000814486,0.00007850085],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013486148,0.0001599243,0.00021377581,0.0001128727,0.0002548169,0.000066225315,0.0001867798,0.00006439082,0.00015118637],"category_scores_gemma":[0.00007422364,0.00013441232,0.00007674182,0.00023174648,0.00009851641,0.00021062927,0.00004924023,0.00013711759,0.000020543594],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024162371,0.000083262516,0.0014967915,0.00017572218,0.0000021813619,0.000005577546,0.0003501586,0.000046422196,0.99521065,0.0005218914,0.000054005715,0.0018117158],"study_design_scores_gemma":[0.0013092445,0.0006041772,0.035288054,0.000118915006,0.000023794439,0.000040496023,0.00028259307,0.0060271705,0.95569485,0.00023875819,0.00007023808,0.0003017015],"about_ca_topic_score_codex":0.000032057185,"about_ca_topic_score_gemma":0.0000211714,"teacher_disagreement_score":0.03951579,"about_ca_system_score_codex":0.000036766174,"about_ca_system_score_gemma":0.00006598187,"threshold_uncertainty_score":0.5481175},"labels":[],"label_agreement":null},{"id":"W2153323774","doi":"10.1093/cercor/bhi086","title":"Growth of Neurites toward Neurite– Neurite Contact Sites Increases Synaptic Clustering and Secretion and Is Regulated by Synaptic Activity","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; University of Manitoba; University of Toronto","funders":"Ben-Gurion University of the Negev","keywords":"Neurite; Neuroscience; Synaptophysin; Hippocampus; Biology; Immunohistochemistry","score_opus":0.03243896035231733,"score_gpt":0.29197619070749714,"score_spread":0.25953723035517984,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2153323774","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99733084,0.00026932615,0.000015601447,0.0015924172,0.000097006676,0.00044108112,0.00007181325,0.000113194714,0.000068736306],"genre_scores_gemma":[0.9966719,0.0007177262,0.00001239928,0.0023548524,0.000055835168,0.00001491263,0.0000023890134,0.000036196347,0.0001337576],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99730235,0.00041890453,0.0003412241,0.00095619145,0.000401902,0.0005794096],"domain_scores_gemma":[0.9984689,0.0007019582,0.00018221694,0.00027204168,0.000069168476,0.00030574802],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00020261372,0.00031336423,0.00041110683,0.00023649808,0.000286193,0.00013608724,0.00033084233,0.00011841091,0.00011601666],"category_scores_gemma":[0.00056652114,0.00029897125,0.00006929189,0.00047799,0.0006589507,0.001042003,0.00039633032,0.00044320995,0.000012165002],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024069582,0.00014754815,0.008626244,0.000114248294,0.000010015663,0.00005944798,0.00011539948,0.0000014995093,0.9892337,0.000051403436,0.00033871477,0.0010610918],"study_design_scores_gemma":[0.0011192054,0.0009571454,0.062224515,0.000040485207,0.000057336103,0.0004355863,0.00001785503,0.03264001,0.9019551,0.00010139641,0.000109711276,0.00034163913],"about_ca_topic_score_codex":0.00009427453,"about_ca_topic_score_gemma":0.000010889159,"teacher_disagreement_score":0.087278575,"about_ca_system_score_codex":0.000024796089,"about_ca_system_score_gemma":0.00004257771,"threshold_uncertainty_score":0.99994624},"labels":[],"label_agreement":null},{"id":"W2153436764","doi":"10.1093/cercor/bhq291","title":"Graph-Theoretical Analysis Reveals Disrupted Small-World Organization of Cortical Thickness Correlation Networks in Temporal Lobe Epilepsy","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":474,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Savoy Foundation","keywords":"Epileptogenesis; Temporal lobe; Average path length; Clustering coefficient; Epilepsy; Neuroscience; Correlation; Cluster analysis; Small-world network; Hippocampus; Power graph analysis; Path length; Computer science; Graph; Psychology; Complex network; Artificial intelligence; Shortest path problem; Mathematics; Theoretical computer science","score_opus":0.028666925776545883,"score_gpt":0.24571399232935873,"score_spread":0.21704706655281283,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2153436764","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93455493,0.000016137177,0.061724678,0.0003621969,0.00043151222,0.0003647544,0.00001540884,0.00010994408,0.0024204084],"genre_scores_gemma":[0.99875736,0.000008636214,0.00033808802,0.0005908392,0.00005510301,0.000014316939,0.00003928155,0.000029643426,0.00016674674],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9974829,0.00049080467,0.00064912613,0.0006633516,0.0003503827,0.00036344523],"domain_scores_gemma":[0.9969742,0.0020582383,0.00026687866,0.00038194493,0.00020740823,0.00011138682],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00048370627,0.00023637027,0.00051901,0.0005427473,0.00017959655,0.000025366702,0.00025875325,0.00015054522,0.0009181186],"category_scores_gemma":[0.0054094326,0.00022222099,0.0001540747,0.005042647,0.0006676816,0.00021061926,0.00015343016,0.00040712496,0.000026009695],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000118636446,0.00020880859,0.86407226,0.000013668105,0.000058589278,0.00001612874,0.00029254792,0.00054440176,0.0018679858,0.13250984,0.00015617577,0.00014098495],"study_design_scores_gemma":[0.0004492131,0.00011202369,0.96399146,0.000028043722,0.00022615395,0.000009599812,0.00008480929,0.024650224,0.0016673596,0.00851703,0.000007826701,0.00025625338],"about_ca_topic_score_codex":0.000109221815,"about_ca_topic_score_gemma":0.00052869227,"teacher_disagreement_score":0.12399281,"about_ca_system_score_codex":0.000073877934,"about_ca_system_score_gemma":0.000042944615,"threshold_uncertainty_score":0.9999952},"labels":[],"label_agreement":null},{"id":"W2153913811","doi":"10.1093/cercor/bhs015","title":"The Development and Activity-Dependent Expression of Aggrecan in the Cat Visual Cortex","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Proteoglycans and glycosaminoglycans research","field":"Biochemistry, Genetics and Molecular Biology","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"National Eye Institute","keywords":"Aggrecan; Visual cortex; Chondroitin sulfate proteoglycan; Perineuronal net; Cortex (anatomy); Neuroscience; CATS; Chemistry; Cell biology; Endocrinology; Biology; Internal medicine; Proteoglycan; Neuroplasticity; Medicine; Pathology; Extracellular matrix","score_opus":0.017214476431264305,"score_gpt":0.29365149320846,"score_spread":0.27643701677719573,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2153913811","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9979269,0.00078486046,0.00012318138,0.00010090867,0.00007736619,0.00028607508,0.000004776304,0.0000028736763,0.00069307996],"genre_scores_gemma":[0.9991197,0.00012877498,0.00010619957,0.000047339894,0.00009277571,0.000053721506,0.000016415255,0.000010833552,0.00042423568],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99888563,0.00014048106,0.00017486497,0.0001924081,0.0002472622,0.00035936],"domain_scores_gemma":[0.9995125,0.000038166258,0.00007457042,0.00025904685,0.000036180845,0.00007953914],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005445129,0.000122024394,0.000108540065,0.000030446077,0.00016909772,0.000027698592,0.0002551554,0.00008996359,0.000010602024],"category_scores_gemma":[0.000049709823,0.000069446745,0.000033285956,0.00007848255,0.00012728236,0.000008591165,0.0002010368,0.00012459944,0.0000031601905],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021964217,0.00016299321,0.03955572,0.00002524722,0.000019586603,0.0000022340712,0.00070655864,6.077962e-7,0.89157736,0.000059955702,0.00030726366,0.06736283],"study_design_scores_gemma":[0.00044508747,0.00017826229,0.35827485,0.000020234585,0.000004877743,0.000017684899,0.00061574596,0.00002945052,0.6298344,0.000016353411,0.010427911,0.00013515545],"about_ca_topic_score_codex":0.00007808579,"about_ca_topic_score_gemma":0.00049042614,"teacher_disagreement_score":0.31871912,"about_ca_system_score_codex":0.000019793504,"about_ca_system_score_gemma":0.000111383735,"threshold_uncertainty_score":0.2831956},"labels":[],"label_agreement":null},{"id":"W2153979116","doi":"10.1093/cercor/11.5.474","title":"Early-generated Preplate Neurons in the Developing Telencephalon: Inward Migration into the Developing Striatum","year":2001,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurogenesis and neuroplasticity mechanisms","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Institute of Genetics; RIKEN","keywords":"Neuroscience; Striatum; Biology; Ganglionic eminence; Cerebral cortex; Cerebrum; Cortex (anatomy); Central nervous system; Dopamine","score_opus":0.046511313106448245,"score_gpt":0.2677569606245111,"score_spread":0.22124564751806286,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2153979116","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9940588,0.000028056898,0.0012267751,0.0030343607,0.0007434966,0.00058596,0.0000034401944,0.00011199128,0.00020713265],"genre_scores_gemma":[0.99390703,0.00021542089,0.00019669764,0.005312562,0.00013590812,0.000059509257,0.000003021518,0.000037008715,0.00013283078],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970693,0.0006744969,0.0004813363,0.0006994109,0.00050769356,0.0005677836],"domain_scores_gemma":[0.9987611,0.00047746376,0.00017449236,0.0004651063,0.000055936925,0.000065885186],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036891055,0.0003001205,0.00021975914,0.00013385186,0.0006424654,0.00029343308,0.00083384436,0.00008561123,0.00002851403],"category_scores_gemma":[0.0005008557,0.0001909059,0.00007744589,0.0013415464,0.00010721876,0.00032997213,0.00017527277,0.0004178438,0.00009250476],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015925903,0.00009774779,0.007762688,0.000025607284,0.000009569212,0.00045628435,0.0047589983,0.00027315647,0.96373254,0.016878882,0.00040294725,0.005442341],"study_design_scores_gemma":[0.00091126864,0.00031495435,0.21609098,0.00008525655,0.000032458534,0.00042516098,0.00033112132,0.0052445037,0.7657796,0.0015470169,0.008538889,0.000698801],"about_ca_topic_score_codex":0.00013577333,"about_ca_topic_score_gemma":0.00043251054,"teacher_disagreement_score":0.20832829,"about_ca_system_score_codex":0.00006304332,"about_ca_system_score_gemma":0.00017401393,"threshold_uncertainty_score":0.7784917},"labels":[],"label_agreement":null},{"id":"W2154241112","doi":"10.1093/cercor/bhm211","title":"Identification of Genetically Mediated Cortical Networks: A Multivariate Study of Pediatric Twins and Siblings","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":197,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; Montreal Neurological Institute and Hospital","funders":"National Institute on Drug Abuse; National Institute of Mental Health; National Institutes of Health","keywords":"Multivariate statistics; Multivariate analysis; Psychology; Functional magnetic resonance imaging; Genetic heterogeneity; Biology; Neuroscience; Genetics; Evolutionary biology; Gene; Phenotype; Computer science; Machine learning","score_opus":0.04209825125130147,"score_gpt":0.27376813730694544,"score_spread":0.23166988605564398,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2154241112","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983814,0.000064174026,0.0006691109,0.000111875444,0.00021148034,0.00042304795,0.00001179337,0.000044105484,0.00008304373],"genre_scores_gemma":[0.9995359,0.00009310195,0.000047317593,0.00013812036,0.000094804665,0.000018712954,0.0000015038626,0.000015313413,0.000055215165],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99822205,0.0001872682,0.00053360185,0.00046311505,0.00039415684,0.0001998165],"domain_scores_gemma":[0.99653405,0.0027392244,0.00025333563,0.00023870288,0.00015571518,0.00007894463],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021753064,0.00014016626,0.00028927936,0.00016046868,0.00017021864,0.000010307541,0.00015309404,0.000060667753,0.00002011593],"category_scores_gemma":[0.0061178217,0.00013018103,0.000045584737,0.0006667083,0.00026995208,0.00011622417,0.00014992447,0.00016185267,0.000008004011],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00037919928,0.0023712304,0.57832074,0.000073579504,0.000076963996,0.00003887752,0.0029820409,0.00088493276,0.41271716,0.00095702446,0.0008415897,0.00035669233],"study_design_scores_gemma":[0.0011600248,0.0006234427,0.9757168,0.0000037418642,0.00006643377,0.0000147499495,0.00021135634,0.018018516,0.0039349273,0.00009805945,0.000010431566,0.00014151455],"about_ca_topic_score_codex":0.000043459087,"about_ca_topic_score_gemma":0.000020682253,"teacher_disagreement_score":0.4087822,"about_ca_system_score_codex":0.000015831838,"about_ca_system_score_gemma":0.000043265245,"threshold_uncertainty_score":0.7324046},"labels":[],"label_agreement":null},{"id":"W2154478198","doi":"10.1093/cercor/bhu003","title":"Representations of Invariant Musical Categories Are Decodable by Pattern Analysis of Locally Distributed BOLD Responses in Superior Temporal and Intraparietal Sulci","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; International Laboratory for Brain, Music and Sound Research; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Psychology; Functional magnetic resonance imaging; Intraparietal sulcus; Perception; Voxel; Communication; Speech recognition; Computer science; Neuroscience; Artificial intelligence","score_opus":0.023988307321851116,"score_gpt":0.27521066512494513,"score_spread":0.251222357803094,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2154478198","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99530935,0.0000048189527,0.00382869,0.0002496448,0.00008174526,0.00014301065,0.00031826008,0.000018880717,0.000045584064],"genre_scores_gemma":[0.99951655,0.000013121272,0.000022772516,0.0002930557,0.000013533727,0.000010923818,0.000061517414,0.0000078608555,0.00006068871],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998352,0.00022464209,0.00043651494,0.00047902556,0.00027393276,0.00023387969],"domain_scores_gemma":[0.9991343,0.00022913198,0.00018524274,0.0003059343,0.00005145046,0.00009395406],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023086087,0.00013074775,0.0003755333,0.0002562348,0.00008630655,0.000049363127,0.0001999925,0.0000653705,0.000082889645],"category_scores_gemma":[0.0007652035,0.00011789556,0.00007646399,0.0011837385,0.0005402828,0.0002964809,0.00010057603,0.00012346295,0.0000018148429],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009380243,0.0001435114,0.25350717,0.000017681528,0.000009276935,0.000008577659,0.00044859995,0.000035544726,0.7443615,0.00026980846,0.00024475332,0.0008597652],"study_design_scores_gemma":[0.0004346139,0.00017384165,0.9371073,0.000014282982,0.00008446463,0.000007170236,0.00037353535,0.009104202,0.052321598,0.00013509027,0.00010412428,0.00013973712],"about_ca_topic_score_codex":0.001302392,"about_ca_topic_score_gemma":0.0017385365,"teacher_disagreement_score":0.6920399,"about_ca_system_score_codex":0.000019216146,"about_ca_system_score_gemma":0.000057932615,"threshold_uncertainty_score":0.48076415},"labels":[],"label_agreement":null},{"id":"W2154658047","doi":"10.1093/cercor/bhs104","title":"Action and Outcome Activity State Patterns in the Anterior Cingulate Cortex","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University; BC Mental Health & Substance Use Services; University of British Columbia; University of British Columbia Hospital","funders":"Canadian Institutes of Health Research; National Alliance for Research on Schizophrenia and Depression","keywords":"Anterior cingulate cortex; Outcome (game theory); Psychology; Neuroscience; Cingulate cortex; Error-related negativity; Action (physics); Task (project management); Cognition; Central nervous system","score_opus":0.18589781275352033,"score_gpt":0.39999854614090363,"score_spread":0.2141007333873833,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2154658047","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.998154,0.000029220637,0.000008236053,0.00063775136,0.00068237004,0.00022596268,0.00001681601,0.00004369829,0.00020193415],"genre_scores_gemma":[0.998167,0.000045537676,0.0000028489533,0.0013219406,0.000069425405,0.000014719582,5.7810684e-7,0.000010272182,0.000367702],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9988306,0.00015457452,0.00017891705,0.0002997353,0.00014802314,0.00038813837],"domain_scores_gemma":[0.9995751,0.000074538,0.000091581,0.00019069955,0.000008094564,0.000060025657],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016381792,0.00015867058,0.00018539067,0.000054212906,0.0001671861,0.000041360767,0.00014951442,0.000042812844,0.000041876898],"category_scores_gemma":[0.000030938794,0.00009966031,0.0000451425,0.00014293758,0.0001333923,0.00038525226,0.000087968074,0.00026972487,0.00003983929],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000034993205,0.00008974304,0.70010644,0.000008548591,0.0000013206711,0.000016282549,0.0004008744,4.5626606e-8,0.2865919,0.0000074848913,0.000037403028,0.012704964],"study_design_scores_gemma":[0.00030047662,0.000079490324,0.98355675,0.00000827639,0.000010523035,0.00007197157,0.000114824135,0.000009321131,0.015487844,0.0000592571,0.00017264095,0.00012860398],"about_ca_topic_score_codex":0.00011350304,"about_ca_topic_score_gemma":0.00016745391,"teacher_disagreement_score":0.2834503,"about_ca_system_score_codex":0.00001912104,"about_ca_system_score_gemma":0.000003226161,"threshold_uncertainty_score":0.40640295},"labels":[],"label_agreement":null},{"id":"W2154722002","doi":"10.1093/cercor/bhq149","title":"Hand Modulation of Visual, Preparatory, and Saccadic Activity in the Monkey Frontal Eye Field","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"","keywords":"Saccade; Saccadic suppression of image displacement; Saccadic masking; Proprioception; Neuroscience; Somatosensory system; Psychology; Eye movement; Supplementary eye field; Saccadic eye movement; Visual field; Communication; Computer vision; Computer science","score_opus":0.02877396046500271,"score_gpt":0.3264400254206265,"score_spread":0.2976660649556238,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2154722002","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99820286,0.000004688746,0.0004242685,0.00014099864,0.00018387672,0.00014181575,0.0000028931597,0.000016989436,0.0008815894],"genre_scores_gemma":[0.9993538,0.0000031000445,0.00003722861,0.00044778278,0.000040732182,0.0000063708526,8.964763e-7,0.0000060551506,0.00010401001],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9993185,0.00007851587,0.000115653675,0.00021438743,0.00015747112,0.00011550844],"domain_scores_gemma":[0.9996793,0.00007323774,0.00006834982,0.00013050684,0.000013127849,0.000035432906],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014499703,0.00008125443,0.000099156314,0.00004742163,0.00011711252,0.000063674626,0.0001190229,0.00008304247,0.00015994631],"category_scores_gemma":[0.00012322255,0.000060622257,0.000023967206,0.00011408439,0.00008978275,0.00021798922,0.000029973202,0.00022146298,0.000010838402],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000041794046,0.00006602716,0.004204351,0.000011916778,4.863658e-7,0.000001015688,0.00075473514,0.0000015423378,0.985835,0.00030397816,0.000057615023,0.008721523],"study_design_scores_gemma":[0.00052566314,0.0003480014,0.41310185,0.000014293891,0.0000063797793,0.000010357988,0.00013652965,0.027052961,0.55685073,0.0015856362,0.00021475066,0.00015286116],"about_ca_topic_score_codex":0.000060870523,"about_ca_topic_score_gemma":0.0001826443,"teacher_disagreement_score":0.4289843,"about_ca_system_score_codex":0.0000054264983,"about_ca_system_score_gemma":0.000020401445,"threshold_uncertainty_score":0.24721038},"labels":[],"label_agreement":null},{"id":"W2154890150","doi":"10.1093/cercor/bhp208","title":"Cytoarchitecture and Probabilistic Maps of the Human Posterior Insular Cortex","year":2009,"lang":"es","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":247,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Cytoarchitecture; Insula; Neuroscience; Somatosensory system; Neuroimaging; Probabilistic logic; Functional magnetic resonance imaging; Brain mapping; Functional neuroimaging; Functional imaging; Psychology; Artificial intelligence; Computer science","score_opus":0.02620646917097527,"score_gpt":0.2923175942198492,"score_spread":0.2661111250488739,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2154890150","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99644643,0.00013260124,0.000026459053,0.0010996916,0.00034980953,0.00055869395,0.00011115993,0.00006673302,0.0012084136],"genre_scores_gemma":[0.99617547,0.000017370518,0.000050817045,0.0025308235,0.00011004164,0.0000041218354,0.00000879893,0.000027255011,0.0010753203],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9978424,0.00024339519,0.00045870163,0.00062501087,0.0004405211,0.0003900277],"domain_scores_gemma":[0.998872,0.00004353482,0.00030446533,0.000537596,0.00008279188,0.00015963377],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017432442,0.00033040065,0.00037513743,0.000094961055,0.0004985603,0.00022193938,0.00053472474,0.00019487158,0.00024918487],"category_scores_gemma":[0.00019251318,0.00023605712,0.00013717299,0.0004205456,0.000530244,0.00013544226,0.00017554505,0.00045776903,0.000029025174],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048837654,0.00015965081,0.0010457144,0.00023216735,0.0000049306923,0.000007917611,0.00096031924,0.000003660342,0.97512484,0.008095672,0.0001188991,0.014197368],"study_design_scores_gemma":[0.0014808133,0.0022800048,0.90067583,0.0007567872,0.00014468688,0.00029986523,0.00020118293,0.00066847185,0.060534224,0.030410327,0.0018137618,0.0007340506],"about_ca_topic_score_codex":0.0000143474135,"about_ca_topic_score_gemma":0.000007782344,"teacher_disagreement_score":0.91459066,"about_ca_system_score_codex":0.000034398152,"about_ca_system_score_gemma":0.00009381845,"threshold_uncertainty_score":0.96261305},"labels":[],"label_agreement":null},{"id":"W2155021098","doi":"10.1093/cercor/bhs323","title":"Toward a More Sophisticated Response Representation in Theories of Medial Frontal Performance Monitoring: The Effects of Motor Similarity and Motor Asymmetries","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Representation (politics); Psychology; Cognitive psychology; Prefrontal cortex; Computer science; Cognition; Neuroscience; Mean squared prediction error; Machine learning","score_opus":0.08294611266684893,"score_gpt":0.35063897868994043,"score_spread":0.2676928660230915,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2155021098","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981261,0.00030532118,0.0000021145704,0.0003697453,0.00076328625,0.0003493901,0.00002121023,0.000019821624,0.000043044056],"genre_scores_gemma":[0.9996279,0.000094050934,0.000030137113,0.00004751761,0.000081224425,0.000030066567,8.1869604e-7,0.00000789525,0.000080392245],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99886155,0.00023234506,0.00024906982,0.00021885455,0.0002129277,0.00022526419],"domain_scores_gemma":[0.9987427,0.0008526529,0.00013593059,0.0001829237,0.0000365022,0.0000492776],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022923498,0.00013108803,0.00023966852,0.00008796064,0.00009477601,0.000008527071,0.00016564157,0.00006396825,0.000005938859],"category_scores_gemma":[0.0014046817,0.00008572579,0.000043596992,0.00025969042,0.00079361605,0.00023790993,0.00011804027,0.000168488,0.0000016391546],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001339859,0.0000865312,0.4589371,0.0000465732,0.0000035635708,0.0000040230225,0.001455532,6.363957e-8,0.53726906,0.0001104946,0.000015192586,0.0007319992],"study_design_scores_gemma":[0.00033713153,0.00026746147,0.6253923,0.000020726377,0.000016641008,0.000005188231,0.00024740174,0.000008589842,0.37352067,0.00012213441,0.00000706906,0.000054634005],"about_ca_topic_score_codex":0.00003431886,"about_ca_topic_score_gemma":0.000002092532,"teacher_disagreement_score":0.16645524,"about_ca_system_score_codex":0.00001848856,"about_ca_system_score_gemma":0.00001305152,"threshold_uncertainty_score":0.34957963},"labels":[],"label_agreement":null},{"id":"W2155057469","doi":"10.1093/cercor/bhm261","title":"Brain Size and Folding of the Human Cerebral Cortex","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":262,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Chicoutimi; McGill University; Montreal Neurological Institute and Hospital; Cégep de Jonquière; Cegep de Trois-Rivieres; Université de Montréal; Cegep de Thetford; Dawson College","funders":"","keywords":"Brain size; Human brain; Cerebral cortex; Prefrontal cortex; Cortex (anatomy); Neuroscience; Folding (DSP implementation); Biology; Gyrification; Cognition; Magnetic resonance imaging; Medicine","score_opus":0.03948706137602742,"score_gpt":0.2620441145508532,"score_spread":0.22255705317482577,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2155057469","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9890916,0.00005909906,0.000011560303,0.003804718,0.00047493176,0.00028256892,0.00002274964,0.00008228943,0.0061705257],"genre_scores_gemma":[0.9918961,0.000008491155,0.000044608387,0.0043368666,0.0001301233,0.000012593915,6.736829e-7,0.000026668093,0.003543878],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9982157,0.00015898346,0.0002896167,0.00057085254,0.0004225233,0.00034232813],"domain_scores_gemma":[0.99627805,0.0029867112,0.00017996358,0.0004196474,0.000054902015,0.00008074648],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015871043,0.00021782763,0.00029486927,0.00005566007,0.0008575608,0.000025269681,0.00033606344,0.00007243629,0.00016600722],"category_scores_gemma":[0.0051354803,0.00016685957,0.00013699282,0.00036641324,0.00075765647,0.00022197179,0.00039087085,0.00025146813,0.000018515046],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000374368,0.00010715127,0.199586,0.000045398283,0.000029002555,0.000022065466,0.000824225,0.0000057277434,0.7648478,0.016526466,0.017525641,0.00044305567],"study_design_scores_gemma":[0.0007495904,0.00014498332,0.9452837,0.00002911279,0.00001560683,0.00015837836,0.0001057199,0.00008769411,0.047919475,0.002802319,0.0024699105,0.00023347222],"about_ca_topic_score_codex":0.00008217806,"about_ca_topic_score_gemma":0.000075065975,"teacher_disagreement_score":0.74569774,"about_ca_system_score_codex":0.000047803143,"about_ca_system_score_gemma":0.000057998244,"threshold_uncertainty_score":0.6804336},"labels":[],"label_agreement":null},{"id":"W2155492919","doi":"10.1093/cercor/10.4.433","title":"Volumetry of Hippocampus and Amygdala with High-resolution MRI and Three-dimensional Analysis Software: Minimizing the Discrepancies between Laboratories","year":2000,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":713,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Deutsche Forschungsgemeinschaft; McGill University","keywords":"Segmentation; Amygdala; Hippocampus; Temporal lobe; Hippocampal formation; Magnetic resonance imaging; Coronal plane; Sagittal plane; Neuroimaging; Computer science; Neuroscience; Medicine; Artificial intelligence; Psychology; Radiology","score_opus":0.012977508241920318,"score_gpt":0.22052878668668255,"score_spread":0.20755127844476223,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2155492919","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99679667,0.000436481,0.00035102502,0.001973882,0.000062758474,0.00016018163,0.00010888963,0.00006119907,0.00004894357],"genre_scores_gemma":[0.99821013,0.00002636935,0.0011423894,0.0003656909,0.00007358127,0.000012119963,0.000007799109,0.000014083399,0.00014780855],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985333,0.000113000366,0.00021556686,0.0005109562,0.00038867156,0.00023852571],"domain_scores_gemma":[0.9970852,0.0023710064,0.00012367047,0.00026423016,0.000090123154,0.000065738735],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018922114,0.00019263677,0.0003545429,0.00010783881,0.0005004243,0.00005945445,0.00011860476,0.000056788027,0.000057294787],"category_scores_gemma":[0.00081989984,0.00012762757,0.000052691536,0.0010452874,0.0008746781,0.00027290534,0.000114554416,0.00015256007,0.0000035734315],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021522799,0.000043096115,0.986045,0.00003701204,0.00036068674,0.0000066364278,0.0003035811,0.0003578621,0.00193549,0.0012903729,0.0006033789,0.008801662],"study_design_scores_gemma":[0.00039303678,0.00020915999,0.993222,0.00002070536,0.0003862497,0.000010494463,0.000096849304,0.0007215463,0.0015256704,0.002818073,0.00040012138,0.00019612323],"about_ca_topic_score_codex":0.00038176615,"about_ca_topic_score_gemma":0.00084491586,"teacher_disagreement_score":0.008605539,"about_ca_system_score_codex":0.000025493706,"about_ca_system_score_gemma":0.00004853962,"threshold_uncertainty_score":0.5204502},"labels":[],"label_agreement":null},{"id":"W2155851653","doi":"10.1093/cercor/bhg111","title":"N170 or N1? Spatiotemporal Differences between Object and Face Processing Using ERPs","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":671,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital","funders":"","keywords":"Psychology; Object (grammar); Segmentation; Face (sociological concept); Electrophysiology; Face perception; Communication; Artificial intelligence; Cognitive psychology; Pattern recognition (psychology); Computer science; Neuroscience; Perception","score_opus":0.13294135108014646,"score_gpt":0.32490868437886006,"score_spread":0.1919673332987136,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2155851653","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961605,0.000039089406,0.0014099532,0.00006996895,0.00013180812,0.00019721864,0.000016800233,0.00008798897,0.0018866449],"genre_scores_gemma":[0.99843013,0.000021386812,0.00046307346,0.00023403768,0.00006338153,0.000004048162,0.00000435348,0.000016497908,0.00076307263],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99879944,0.000146849,0.00020073196,0.0003855712,0.00020859193,0.00025883672],"domain_scores_gemma":[0.9995826,0.000070153175,0.000100861296,0.00010159164,0.00002795409,0.00011686277],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010119628,0.00016180784,0.00018845298,0.00007849081,0.0002897558,0.00016402642,0.000086684595,0.00008861196,0.00047094666],"category_scores_gemma":[0.00022927774,0.00012729382,0.00003373264,0.0002470757,0.00012939546,0.00038880433,0.00002609621,0.0001604051,0.000051456074],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000108862456,0.00015302484,0.5389948,0.0003185751,0.0000130530225,0.000030894236,0.0027701927,0.000010215289,0.26084542,0.00032736364,0.0002339976,0.1961936],"study_design_scores_gemma":[0.0022863061,0.00059456564,0.8603737,0.0004372048,0.0001084382,0.0002443478,0.001960545,0.01181693,0.11597071,0.0021557796,0.0025690105,0.0014824858],"about_ca_topic_score_codex":0.0000424128,"about_ca_topic_score_gemma":0.00004015602,"teacher_disagreement_score":0.3213789,"about_ca_system_score_codex":0.000030219648,"about_ca_system_score_gemma":0.00009511732,"threshold_uncertainty_score":0.51908916},"labels":[],"label_agreement":null},{"id":"W2156166205","doi":"10.1093/cercor/bhp148","title":"TMS Over Human Frontal Eye Fields Disrupts Trans-saccadic Memory of Multiple Objects","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"Canadian Institutes of Health Research","keywords":"Saccadic masking; Supplementary eye field; Saccadic eye movement; Neuroscience; Psychology; Saccadic suppression of image displacement; Frontal eye fields; Eye movement; Frontal cortex; Cognitive psychology; Computer science; Saccade","score_opus":0.03711824136315592,"score_gpt":0.31943665204191063,"score_spread":0.28231841067875474,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2156166205","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9893965,0.000028563907,0.0008160621,0.00011633548,0.00033079696,0.00018119517,0.000016544618,0.00012950145,0.008984467],"genre_scores_gemma":[0.99551576,0.0000060710654,0.00008976682,0.001895727,0.000105616455,0.0000036829465,0.0000090075,0.000017459677,0.0023569048],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99863166,0.000071412935,0.000285019,0.00040042747,0.00031015358,0.00030132674],"domain_scores_gemma":[0.9994583,0.00003562149,0.00010390001,0.00024788917,0.000023332912,0.00013093918],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000085960964,0.0001845315,0.0002372717,0.000084908024,0.0002022932,0.000045840257,0.0002789953,0.00014259107,0.0014622586],"category_scores_gemma":[0.00006890709,0.00016935004,0.00012996592,0.00018330317,0.00008720592,0.0002496674,0.000022617267,0.00023294475,0.000060658873],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000046691097,0.00015289821,0.0004952655,0.00002571321,0.0000021000933,0.000011216007,0.0014262216,0.0000068473405,0.98904693,0.00048029274,0.0003627053,0.007943135],"study_design_scores_gemma":[0.0027222617,0.0012986191,0.23545407,0.00010772137,0.000036323487,0.000021853324,0.00041378813,0.0026999034,0.75051004,0.0056663593,0.00041762495,0.000651436],"about_ca_topic_score_codex":0.00003712267,"about_ca_topic_score_gemma":0.000064596235,"teacher_disagreement_score":0.23853686,"about_ca_system_score_codex":0.000025132073,"about_ca_system_score_gemma":0.000033222263,"threshold_uncertainty_score":0.99945056},"labels":[],"label_agreement":null},{"id":"W2156586018","doi":"10.1093/cercor/bhr331","title":"Impaired Visual Search in Rats Reveals Cholinergic Contributions to Feature Binding in Visuospatial Attention","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Psychology; Visual search; Stimulus (psychology); Cholinergic; Neocortex; Feature (linguistics); Cognitive psychology","score_opus":0.08233193261176783,"score_gpt":0.35343048507443375,"score_spread":0.2710985524626659,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2156586018","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99786866,0.0000060542684,0.000105689556,0.00035219677,0.00050071394,0.0006824033,0.000048393624,0.00007086098,0.0003650312],"genre_scores_gemma":[0.99832445,0.000005167761,0.00007397041,0.0005397019,0.00010119588,0.000047109763,0.000015383843,0.000019884505,0.0008731464],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99788827,0.000351629,0.00032680773,0.00056991633,0.00028154906,0.0005818286],"domain_scores_gemma":[0.99938685,0.00007755357,0.000069859416,0.0002126065,0.000045926598,0.00020723375],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00039366452,0.00019210116,0.00026535388,0.00036260227,0.00014215717,0.00004376719,0.000270324,0.0001479688,0.00025880864],"category_scores_gemma":[0.00040619043,0.00018024932,0.00007450096,0.0010105183,0.00004083094,0.0002997098,0.00012812798,0.00043093495,0.00027239445],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001867059,0.00014086907,0.008094139,0.000011379394,0.0000010689668,0.00012600642,0.00028347824,0.000007405304,0.9893863,0.0011349743,0.00012225266,0.000505377],"study_design_scores_gemma":[0.0009154124,0.0003620964,0.18520696,0.00007868488,0.000004532398,0.000027638047,0.000067587236,0.0010809809,0.81148326,0.00052988186,0.000009751179,0.0002331846],"about_ca_topic_score_codex":0.000056180263,"about_ca_topic_score_gemma":0.00015625395,"teacher_disagreement_score":0.17790306,"about_ca_system_score_codex":0.0001313667,"about_ca_system_score_gemma":0.00005108606,"threshold_uncertainty_score":0.73503536},"labels":[],"label_agreement":null},{"id":"W2156715324","doi":"10.1093/cercor/bht140","title":"Dopamine Replacement Modulates Oscillatory Coupling Between Premotor and Motor Cortical Areas in Parkinson's Disease","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurological disorders and treatments","field":"Medicine","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"Universität zu Köln; Lundbeckfonden; Deutsche Forschungsgemeinschaft; Medical Research Council; Sundhed og Sygdom, Det Frie Forskningsråd","keywords":"Premotor cortex; SMA*; Supplementary motor area; Neuroscience; Motor cortex; Primary motor cortex; Levodopa; Psychology; Parkinson's disease; Motor control; Medicine; Functional magnetic resonance imaging; Anatomy; Disease; Internal medicine; Computer science","score_opus":0.017325304851765796,"score_gpt":0.25004908973300743,"score_spread":0.23272378488124162,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2156715324","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99729204,0.00047523092,0.0000098128,0.00080765714,0.00005658198,0.001026997,0.000014741535,0.00006425851,0.00025269494],"genre_scores_gemma":[0.99856573,0.00005029493,0.00009063659,0.0006817749,0.000081086444,0.00007408705,0.000039166556,0.000022135522,0.00039506948],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99870324,0.000019914147,0.0002733705,0.0004628203,0.00021132235,0.0003293446],"domain_scores_gemma":[0.9991762,0.00007471702,0.000055803364,0.00025906405,0.0000412129,0.00039299988],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000060489216,0.00020136127,0.00033507147,0.000072191084,0.000064470354,0.00003202862,0.000054498698,0.00007476914,0.00033731063],"category_scores_gemma":[0.000113221424,0.00015209225,0.00006248145,0.00009087256,0.000106431275,0.00009963284,0.00007895456,0.00018476076,0.00007364754],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025904554,0.0002083374,0.9974299,0.000049749087,0.00003274073,0.000069831716,0.00000956783,0.0000020445627,0.0004956797,0.000035434015,0.00017058778,0.0012370473],"study_design_scores_gemma":[0.0022260204,0.0005546387,0.9903321,0.000047278438,0.00008491522,0.000002825274,0.000017121303,0.0053143147,0.000026919131,0.0008345336,0.00041471716,0.000144575],"about_ca_topic_score_codex":0.00009098807,"about_ca_topic_score_gemma":0.0000053177723,"teacher_disagreement_score":0.0070977933,"about_ca_system_score_codex":0.000048779893,"about_ca_system_score_gemma":0.00003077633,"threshold_uncertainty_score":0.62021416},"labels":[],"label_agreement":null},{"id":"W2156914488","doi":"10.1093/cercor/bhu282","title":"A Neural Marker for Social Bias Toward In-group Accents","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; International Laboratory for Brain, Music and Sound Research; Université de Montréal","funders":"Economic and Social Research Council; Medical Research Council; Agence Nationale de la Recherche; Research Councils UK","keywords":"Stress (linguistics); Psychology; Neural correlates of consciousness; Cognitive psychology; Sociolinguistics; Ethnic group; Repetition (rhetorical device); Linguistics; Sociology; Cognition","score_opus":0.12964248923214838,"score_gpt":0.37383365906756255,"score_spread":0.24419116983541417,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2156914488","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9714386,0.000005902504,0.0014144251,0.00048190344,0.0013144959,0.00034919445,0.00001534238,0.000064123466,0.024916006],"genre_scores_gemma":[0.99344087,7.4371064e-7,0.00016081549,0.0017420691,0.00047622697,0.00007241318,0.000078141406,0.000022046628,0.0040067066],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.998948,0.00014696167,0.00024699792,0.00028400306,0.00009893455,0.0002751105],"domain_scores_gemma":[0.9996477,0.00004794469,0.00006960953,0.00013970504,0.00004122544,0.00005382329],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017069485,0.00012787012,0.0001696642,0.00008473142,0.000069979025,0.00003527075,0.00012306012,0.00014177294,0.005735633],"category_scores_gemma":[0.000047725476,0.00011677147,0.000114172566,0.00008755687,0.000040727915,0.0001011112,0.000018315668,0.00013970741,0.00054575637],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015193825,0.00061484176,0.2799244,0.00006588546,0.00007079234,0.0000061151645,0.011780431,0.0000025251377,0.007222053,0.03299594,0.11949242,0.54630524],"study_design_scores_gemma":[0.001593611,0.00011868334,0.9655907,0.000004665828,0.000007727606,0.0000035764601,0.00071645447,0.0034881085,0.000011896743,0.00029296931,0.028023161,0.00014844062],"about_ca_topic_score_codex":0.0000675355,"about_ca_topic_score_gemma":0.00015707346,"teacher_disagreement_score":0.6856663,"about_ca_system_score_codex":0.000039339684,"about_ca_system_score_gemma":0.0000058461533,"threshold_uncertainty_score":0.9951733},"labels":[],"label_agreement":null},{"id":"W2157302628","doi":"10.1093/cercor/bhj143","title":"Amygdala-Prefrontal Cortical Circuitry Regulates Effort-Based Decision Making","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurotransmitter Receptor Influence on Behavior","field":"Neuroscience","cited_by":311,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"","keywords":"Basolateral amygdala; Neuroscience; Amygdala; Anterior cingulate cortex; Prefrontal cortex; Action selection; Psychology; Nucleus accumbens; Task (project management); Disconnection; Central nervous system; Cognition","score_opus":0.020708412365677945,"score_gpt":0.276917254355085,"score_spread":0.2562088419894071,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2157302628","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948337,0.000025331905,0.0013886787,0.00008314505,0.00076278276,0.0004897175,0.000031045107,0.0004219905,0.0019635842],"genre_scores_gemma":[0.9973183,0.0000010276057,0.0008972998,0.0012263419,0.00016791055,0.00004318101,0.00000940921,0.00007921874,0.00025730947],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9966885,0.000115825926,0.0006230677,0.0010016945,0.0007965779,0.0007743784],"domain_scores_gemma":[0.9986491,0.0002940762,0.00016132472,0.0006745116,0.000047302226,0.00017367874],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012895414,0.00038569237,0.00034546677,0.00017837195,0.0003297622,0.0001964051,0.00064537383,0.0001787475,0.0011957189],"category_scores_gemma":[0.00012784853,0.00036580564,0.00023601808,0.00042957772,0.0003624675,0.00038982398,0.00009274103,0.0004940268,0.0006727253],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000118996286,0.00021838839,0.0604334,0.000019102994,0.0000016272732,0.00022129416,0.000020354346,0.000091833834,0.92744154,0.0010858704,0.00092645717,0.009421166],"study_design_scores_gemma":[0.0009664371,0.00015002453,0.58451605,0.00010578489,0.000032734606,0.00014799398,0.000007461148,0.0012931725,0.4101312,0.0015290746,0.00062285666,0.00049725006],"about_ca_topic_score_codex":0.000030210218,"about_ca_topic_score_gemma":0.000030954234,"teacher_disagreement_score":0.52408266,"about_ca_system_score_codex":0.0001297681,"about_ca_system_score_gemma":0.00008227623,"threshold_uncertainty_score":0.9998794},"labels":[],"label_agreement":null},{"id":"W2157840419","doi":"10.1093/cercor/bhs007","title":"A Meta-analysis of Executive Components of Working Memory","year":2012,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Cognitive Functions and Memory","field":"Psychology","cited_by":559,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Victoria; Baycrest Hospital","funders":"National Institute on Drug Abuse; National Institute of Mental Health; Intelligence Advanced Research Projects Activity; National Science Foundation","keywords":"Working memory; Psychology; Cognitive psychology; Distraction; Executive functions; Cognition; Prefrontal cortex; Baddeley's model of working memory; Neuroscience; Short-term memory","score_opus":0.39767238904290775,"score_gpt":0.39307165988625303,"score_spread":0.004600729156654715,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2157840419","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.00009307923,0.9507941,0.000095271425,0.000002255094,0.0008659626,0.00057970115,0.00039052963,0.000023050558,0.047156025],"genre_scores_gemma":[0.013441801,0.95942503,0.00012680603,0.00006359827,0.00027772688,0.00032138213,0.0012178613,0.00011581294,0.025010008],"study_design_codex":"meta_analysis","study_design_gemma":"meta_analysis","domain_scores_codex":[0.99706244,0.000574775,0.0011678886,0.0005293833,0.00029069348,0.0003748181],"domain_scores_gemma":[0.9969484,0.00047130312,0.0014284005,0.00084109325,0.00018748688,0.00012329126],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00046571146,0.00046529243,0.0057038586,0.0010548803,0.000047523645,0.0000069017815,0.00034495664,0.0003426836,0.013117052],"category_scores_gemma":[0.000019793717,0.000353357,0.0057617263,0.0015508455,0.0001802417,0.000043833996,0.00014676707,0.00039806808,0.00019604304],"study_design_candidate":"meta_analysis","study_design_consensus":"meta_analysis","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024047806,0.00035398942,0.00006918895,0.0014549235,0.5128152,0.000007820337,0.00040510425,1.8799395e-7,0.0000017444594,0.0007945831,0.0003695986,0.48370364],"study_design_scores_gemma":[0.00011329033,0.000033044005,0.0008164581,0.00019753803,0.60258085,0.000007611747,0.00014148818,5.394242e-7,6.872993e-7,0.0000121510375,0.39587867,0.00021766],"about_ca_topic_score_codex":0.00016776191,"about_ca_topic_score_gemma":0.000036282618,"teacher_disagreement_score":0.483486,"about_ca_system_score_codex":0.000048117647,"about_ca_system_score_gemma":0.000063906824,"threshold_uncertainty_score":0.9998918},"labels":[],"label_agreement":null},{"id":"W2158082137","doi":"10.1093/cercor/bhr204","title":"Implicitly Perceived Vocal Attractiveness Modulates Prefrontal Cortex Activity","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Evolutionary Psychology and Human Behavior","field":"Psychology","cited_by":59,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University; International Laboratory for Brain, Music and Sound Research","funders":"","keywords":"Attractiveness; Psychology; Perception; Brain activity and meditation; Prefrontal cortex; Cognitive psychology; Cognition; Neuroscience; Electroencephalography","score_opus":0.06346992212820793,"score_gpt":0.32167518250229,"score_spread":0.2582052603740821,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2158082137","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93288743,0.00009777584,0.0002558977,0.000040253,0.0017449205,0.00041002143,0.000061682054,0.00024373473,0.06425827],"genre_scores_gemma":[0.9914156,0.000003300743,0.00015662888,0.0001910271,0.00024384273,0.000107903375,0.000045315894,0.00005794214,0.007778434],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99775183,0.0002252834,0.0003209686,0.0008478765,0.00018300998,0.0006710025],"domain_scores_gemma":[0.9987541,0.00005647472,0.00017315478,0.0007106608,0.0000859781,0.00021967311],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00014658089,0.0003613307,0.0003938616,0.00013024882,0.00032030922,0.000018425424,0.00043411774,0.00042989082,0.023488507],"category_scores_gemma":[0.000008129236,0.00035779443,0.00021629395,0.00012750905,0.0004257983,0.00035884982,0.00008928586,0.0005949383,0.002624331],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.003543356,0.00509845,0.8040793,0.000032166892,0.00058543286,0.00042937204,0.012259159,0.000001005671,0.12009015,0.023584979,0.0059012333,0.024395429],"study_design_scores_gemma":[0.001159629,0.000457378,0.99519444,0.000011948694,0.000094890594,0.00020120063,0.00041606,0.000020205425,0.0001680771,0.001521779,0.00032929567,0.00042507926],"about_ca_topic_score_codex":0.00057759276,"about_ca_topic_score_gemma":0.00019922214,"teacher_disagreement_score":0.19111519,"about_ca_system_score_codex":0.000106386135,"about_ca_system_score_gemma":0.000048129594,"threshold_uncertainty_score":0.9998874},"labels":[],"label_agreement":null},{"id":"W2158436381","doi":"10.1093/cercor/12.1.98","title":"Motor Map Expansion Following Repeated Cortical and Limbic Seizures Is Related to Synaptic Potentiation","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":105,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Neuroscience; Forelimb; Motor cortex; Corpus callosum; Kindling; Psychology; Microstimulation; Epilepsy; Stimulation","score_opus":0.03731254884025775,"score_gpt":0.303592766706826,"score_spread":0.26628021786656825,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2158436381","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.995894,0.00006180937,0.00001198393,0.0023806258,0.0007112595,0.00048983126,0.000006467467,0.00017360678,0.0002703803],"genre_scores_gemma":[0.99008596,0.00006073736,0.000015532907,0.0046881572,0.000028332943,0.000022097163,7.0952706e-7,0.000029082299,0.005069372],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974549,0.000281974,0.0003165232,0.0008816445,0.00049136113,0.0005736026],"domain_scores_gemma":[0.99904585,0.00021598133,0.000061159175,0.0003023788,0.00003498362,0.0003396448],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016866428,0.0001927491,0.00021061744,0.00022116644,0.0004916226,0.00012044985,0.00029327348,0.00010677067,0.0005547548],"category_scores_gemma":[0.000633144,0.00017701351,0.000090865346,0.0006357939,0.00016808999,0.000346223,0.00021284366,0.0004192769,0.0007298332],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000046021898,0.00007976937,0.0015484018,0.000010034098,0.0000053590106,0.0004672433,0.00019647634,0.000002645144,0.9950126,0.00006137039,0.0016980973,0.00087200076],"study_design_scores_gemma":[0.0023088933,0.0022966722,0.078841195,0.00007951541,0.00010590152,0.00061869697,0.000082997845,0.058837004,0.8541215,0.00043296802,0.0014668405,0.00080780464],"about_ca_topic_score_codex":0.000005886869,"about_ca_topic_score_gemma":6.916251e-7,"teacher_disagreement_score":0.14089108,"about_ca_system_score_codex":0.00003341535,"about_ca_system_score_gemma":0.000019828156,"threshold_uncertainty_score":0.9380773},"labels":[],"label_agreement":null},{"id":"W2158674901","doi":"10.1093/cercor/bhg081","title":"The Aging Hippocampus: Cognitive, Biochemical and Structural Findings","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":449,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"National Center for Research Resources; National Institute of Neurological Disorders and Stroke; National Science Foundation; National Institutes of Health; Eunice Kennedy Shriver National Institute of Child Health and Human Development; University of Lethbridge","keywords":"Hippocampus; Neuroscience; Neurochemistry; Hippocampal formation; Psychology; Cognition; Morris water navigation task; Functional magnetic resonance imaging; Neurology","score_opus":0.032246068551686956,"score_gpt":0.32287098660557845,"score_spread":0.2906249180538915,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2158674901","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99762714,0.000120720935,0.000004268842,0.00044272188,0.0004051688,0.00020711553,0.0000050775648,0.00005039419,0.0011374224],"genre_scores_gemma":[0.99725735,0.00012514374,0.000004661486,0.0018544002,0.00003492576,0.000011604023,2.2996274e-7,0.000014574331,0.00069711916],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982542,0.00024348899,0.00014840692,0.00052912557,0.00027803105,0.0005467933],"domain_scores_gemma":[0.99883115,0.0007972575,0.00003687431,0.00014047897,0.000029134813,0.00016509209],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019138947,0.00014420477,0.00010947614,0.000055989043,0.00090376165,0.00017226364,0.00029043364,0.000044869368,0.000087859335],"category_scores_gemma":[0.0013017037,0.00009843184,0.000039822975,0.0003457753,0.0010085977,0.00018753964,0.00009855781,0.00039737677,0.000057084028],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002410722,0.000008392583,0.0061587035,0.0000050180447,0.0000014213384,0.000047581296,0.000047245456,7.322942e-8,0.9902903,0.0014125555,0.00042481415,0.001579827],"study_design_scores_gemma":[0.0005147225,0.00008853629,0.010943927,0.000008029231,0.000007941937,0.00028405082,0.00006616352,0.00018272354,0.9846987,0.002047049,0.0010089595,0.00014916976],"about_ca_topic_score_codex":0.000001330893,"about_ca_topic_score_gemma":6.362633e-7,"teacher_disagreement_score":0.0055915336,"about_ca_system_score_codex":0.0000131094475,"about_ca_system_score_gemma":0.000054457578,"threshold_uncertainty_score":0.6951095},"labels":[],"label_agreement":null},{"id":"W2158904676","doi":"10.1093/cercor/bht355","title":"Attentional Selection in a Cocktail Party Environment Can Be Decoded from Single-Trial EEG","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":912,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Trinity College","funders":"","keywords":"Electroencephalography; Magnetoencephalography; Computer science; Stimulus (psychology); Brain activity and meditation; Cognition; Neurophysiology; Speech recognition; Mismatch negativity; Cognitive psychology; Psychology; Artificial intelligence; Neuroscience","score_opus":0.030709811362410896,"score_gpt":0.22954443258945675,"score_spread":0.19883462122704587,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2158904676","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968217,0.0000025504794,0.0007419588,0.00072630466,0.0006840953,0.0002987073,0.000036192432,0.000056901183,0.00063158787],"genre_scores_gemma":[0.99748445,0.0000041083144,0.00009091886,0.0011906428,0.00021282655,0.000030115083,0.0000577821,0.000018384495,0.0009107665],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99840444,0.00017435294,0.00027481423,0.00054324925,0.00031647403,0.0002866927],"domain_scores_gemma":[0.99948406,0.00015398883,0.00011388082,0.0001447612,0.000010736197,0.00009257995],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000118527765,0.00015780516,0.0001672135,0.00007575909,0.00013937437,0.00006497642,0.00013330436,0.00008722316,0.00052193715],"category_scores_gemma":[0.00014912122,0.00015056803,0.00007643999,0.00015754795,0.00006486311,0.00013518223,0.000059407997,0.00019792448,0.0000798608],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013913409,0.00027889546,0.008964124,0.0000046804303,0.000005354768,0.000005461439,0.000054218035,0.0002555393,0.9817418,0.0017904793,0.00070654385,0.004801605],"study_design_scores_gemma":[0.05180112,0.0033747817,0.5174671,0.00007050665,0.00008652577,0.00004484574,0.00008387641,0.25748888,0.10791028,0.026230415,0.033776704,0.0016649887],"about_ca_topic_score_codex":0.0002264481,"about_ca_topic_score_gemma":0.000734595,"teacher_disagreement_score":0.87383145,"about_ca_system_score_codex":0.00015713095,"about_ca_system_score_gemma":0.000024029148,"threshold_uncertainty_score":0.6139986},"labels":[],"label_agreement":null},{"id":"W2159512568","doi":"10.1093/cercor/bhi009","title":"The Neural Mechanisms of Speech Comprehension: fMRI studies of Semantic Ambiguity","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":653,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"","keywords":"Ambiguity; Comprehension; Functional magnetic resonance imaging; Meaning (existential); Semantic memory; Psychology; Computer science; Linguistics; Semantics (computer science); Cognitive psychology; Cognition; Neuroscience","score_opus":0.05688449272678925,"score_gpt":0.3215759796951712,"score_spread":0.26469148696838196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2159512568","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99722457,0.00039760815,0.000016141601,0.0012632444,0.00048467782,0.00018342363,0.000009136815,0.000042776668,0.00037840038],"genre_scores_gemma":[0.9981911,0.000078252095,0.00017626633,0.00091790647,0.0001126913,0.0000023163313,9.891908e-7,0.00001062053,0.0005098205],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986728,0.00017344196,0.00038208254,0.00029723224,0.00021948105,0.0002549872],"domain_scores_gemma":[0.9987994,0.00045438876,0.00022450656,0.00039182184,0.000090020716,0.00003986007],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019068841,0.00014523082,0.0003049804,0.000040445713,0.0001865166,0.000010195045,0.00039167234,0.000053760392,0.00004305572],"category_scores_gemma":[0.0003300696,0.00009007354,0.000117186944,0.00016805882,0.0005374321,0.000074324686,0.00020660707,0.00016471517,0.00002040976],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000043199077,0.000047527043,0.00013016035,0.000031467458,0.00001307195,0.00007175135,0.0003642262,0.00000807779,0.98721206,0.0021623564,0.00038343077,0.009532643],"study_design_scores_gemma":[0.00036088866,0.00025291747,0.0016353251,0.000023648343,0.000028378492,0.00026016033,0.0004082038,0.0003864564,0.992605,0.003397324,0.0005172187,0.00012450975],"about_ca_topic_score_codex":0.000017640863,"about_ca_topic_score_gemma":0.00006645277,"teacher_disagreement_score":0.009408133,"about_ca_system_score_codex":0.000009871959,"about_ca_system_score_gemma":0.000020528913,"threshold_uncertainty_score":0.3673092},"labels":[],"label_agreement":null},{"id":"W2159518565","doi":"10.1093/cercor/bhl092","title":"Neural Populations Can Induce Reliable Postsynaptic Currents without Observable Spike Rate Changes or Precise Spike Timing","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"","keywords":"Spike (software development); Neural coding; Postsynaptic potential; Neuroscience; Computer science; Spike-timing-dependent plasticity; Current (fluid); Biological neural network; Population; Poisson distribution; Spike train; Biology; Physics; Mathematics; Statistics","score_opus":0.09509875056620258,"score_gpt":0.2958920146179845,"score_spread":0.20079326405178188,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2159518565","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9946283,0.000028235932,0.000040159408,0.0009984478,0.002138942,0.0005787426,0.00006605503,0.00023827936,0.0012828074],"genre_scores_gemma":[0.98592734,0.000012447018,0.00023096142,0.00088279345,0.0002996299,0.000044146,0.00009291875,0.00005856634,0.012451182],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977539,0.00010860987,0.00037328785,0.00075693155,0.00034097672,0.0006662656],"domain_scores_gemma":[0.99900264,0.00008307063,0.00023263447,0.00044472207,0.00007854236,0.00015839502],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001370549,0.00033001383,0.00030382792,0.00015603729,0.00056983484,0.00021385847,0.00034060466,0.00011799661,0.00025579185],"category_scores_gemma":[0.0002191102,0.00027530795,0.00008570466,0.0006324874,0.000088007866,0.00042224713,0.0001461226,0.0003354807,0.00009172268],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00043062202,0.000473415,0.13689014,0.00015110972,0.000013330216,0.00015181444,0.00014000632,0.0034161387,0.84001803,0.004909955,0.006378968,0.007026468],"study_design_scores_gemma":[0.0029370708,0.001267183,0.5041166,0.0002885684,0.00017974866,0.00027155792,0.00010130211,0.43862662,0.038060173,0.0038101992,0.0084226765,0.0019182803],"about_ca_topic_score_codex":0.0011392367,"about_ca_topic_score_gemma":0.0030918627,"teacher_disagreement_score":0.80195785,"about_ca_system_score_codex":0.00009797216,"about_ca_system_score_gemma":0.000058556347,"threshold_uncertainty_score":0.9999699},"labels":[],"label_agreement":null},{"id":"W2159980428","doi":"10.1093/cercor/bhl172","title":"Visually Guided Reaching Depends on Motion Area MT+","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":342,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Eye Institute","keywords":"Motion (physics); Transcranial magnetic stimulation; Trajectory; Movement (music); Task (project management); Object (grammar); Computer science; Computer vision; Artificial intelligence; Neuroscience; Functional magnetic resonance imaging; Mechanism (biology); Communication; Psychology; Physical medicine and rehabilitation; Cognitive psychology; Stimulation; Medicine; Physics","score_opus":0.09840455122710637,"score_gpt":0.3508921540076713,"score_spread":0.2524876027805649,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2159980428","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.91408664,0.000003855354,0.032905273,0.00017295174,0.00065627485,0.0001395856,0.00000407091,0.00034327203,0.05168805],"genre_scores_gemma":[0.99245036,0.0000036967347,0.00032387732,0.0043075127,0.00017394763,0.0000031733919,0.000010062432,0.00003125779,0.0026961304],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982954,0.00008201808,0.0002984862,0.0004992041,0.00042913196,0.00039574932],"domain_scores_gemma":[0.9993324,0.0000847461,0.00011780094,0.0002535001,0.000041044776,0.00017045447],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005152516,0.00018766981,0.00014970511,0.00016329797,0.00032521092,0.00011744532,0.00024509715,0.00011831086,0.0007315957],"category_scores_gemma":[0.00034778912,0.00017046595,0.0000770343,0.00028893867,0.00004579274,0.0002449446,0.00005049347,0.00028506352,0.0006226962],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006637969,0.00010831535,0.00029101397,0.00001215816,0.0000015028593,0.000029269942,0.0003401561,0.000010405163,0.93105364,0.0078001893,0.0006735939,0.059613384],"study_design_scores_gemma":[0.0014985729,0.0008747172,0.042202286,0.0001284952,0.000023344497,0.00019188924,0.00028743737,0.006709941,0.9341351,0.008213336,0.004902834,0.00083208387],"about_ca_topic_score_codex":0.00001400112,"about_ca_topic_score_gemma":0.000017724531,"teacher_disagreement_score":0.07836367,"about_ca_system_score_codex":0.00008675739,"about_ca_system_score_gemma":0.000027283435,"threshold_uncertainty_score":0.80104595},"labels":[],"label_agreement":null},{"id":"W2160547943","doi":"10.1093/cercor/bhu025","title":"Neural Trade-Offs between Recognizing and Categorizing Own- and Other-Race Faces","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development","keywords":"Categorization; Functional magnetic resonance imaging; Fusiform face area; Race (biology); Psychology; Facial recognition system; Superior temporal sulcus; Cognitive psychology; Face (sociological concept); Face perception; Neuroscience; Pattern recognition (psychology); Computer science; Perception; Artificial intelligence; Biology; Sociology","score_opus":0.06187374066336383,"score_gpt":0.2828922112020815,"score_spread":0.2210184705387177,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2160547943","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9950845,0.000043035558,0.00019419292,0.0009652978,0.00021094346,0.00015923355,0.000021878428,0.000109660374,0.003211207],"genre_scores_gemma":[0.99782413,0.000044713866,0.00012444965,0.0014707907,0.00019966814,0.000005306181,0.0000058537516,0.000022299519,0.00030280478],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.99880326,0.00016131617,0.00018675152,0.00043461416,0.0001441873,0.00026987478],"domain_scores_gemma":[0.9994294,0.00020842168,0.00007995251,0.000118303586,0.000009467426,0.00015445944],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016549672,0.00016464585,0.00019520521,0.000072640636,0.00025121617,0.00014870818,0.00009065628,0.00008964193,0.00016138334],"category_scores_gemma":[0.00015482817,0.00014766857,0.000033739085,0.00012134532,0.00013572453,0.00028555634,0.00004818491,0.00020438277,0.0000764424],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003069009,0.000028861063,0.11652286,0.000094458934,0.000007805443,0.0000037434882,0.0019340917,0.0000022826866,0.34961748,0.00056028226,0.0005089693,0.53068846],"study_design_scores_gemma":[0.0026464392,0.0007059096,0.8347203,0.00014338152,0.00010920528,0.0002568573,0.001229138,0.015699444,0.07760004,0.004403106,0.061050914,0.0014352701],"about_ca_topic_score_codex":0.000048633814,"about_ca_topic_score_gemma":0.00003592977,"teacher_disagreement_score":0.7181974,"about_ca_system_score_codex":0.000012624346,"about_ca_system_score_gemma":0.000007986774,"threshold_uncertainty_score":0.60217494},"labels":[],"label_agreement":null},{"id":"W2160637052","doi":"10.1093/cercor/bhn015","title":"Effects of Familiarity on Neural Activity in Monkey Inferior Temporal Lobe","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":87,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Waterloo","funders":"National Eye Institute; National Institute of Mental Health","keywords":"Stimulus (psychology); Local field potential; Temporal lobe; Visual cortex; Neuroscience; Temporal cortex; Psychology; Contrast (vision); Visual perception; Pattern recognition (psychology); Artificial intelligence; Perception; Computer science; Cognitive psychology","score_opus":0.02445203683098355,"score_gpt":0.24690837721426243,"score_spread":0.22245634038327888,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2160637052","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981969,0.0000057360403,0.000025026193,0.000117725926,0.00051487074,0.00035255638,0.000009731649,0.00005976831,0.00071765773],"genre_scores_gemma":[0.99895763,0.0000149693915,0.000012248508,0.00060434756,0.00004147351,0.000012082139,0.0000021931382,0.000016555114,0.00033849385],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986441,0.00015094256,0.00021129874,0.00042318887,0.00028407737,0.000286389],"domain_scores_gemma":[0.9992962,0.00024602274,0.00011819226,0.00023661501,0.00002083395,0.00008217474],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000058824313,0.00018178411,0.00026640596,0.00012510044,0.00009416596,0.000012858315,0.00018274333,0.00008891302,0.000017078397],"category_scores_gemma":[0.0002926406,0.00016078021,0.000097077624,0.00041350676,0.00016617782,0.00023814931,0.00007898015,0.00032483053,0.000026163065],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029275724,0.00040428055,0.13262662,0.00007277072,0.000002220787,0.00017644875,0.000076515076,0.000057498106,0.8622498,0.0004825545,0.00016287099,0.0033956908],"study_design_scores_gemma":[0.0006787,0.00041179126,0.78478885,0.00001926638,0.000003328078,0.00001790125,0.0000024365359,0.012324197,0.20129645,0.00026400387,0.000040977528,0.00015211587],"about_ca_topic_score_codex":0.0004192582,"about_ca_topic_score_gemma":0.00008015965,"teacher_disagreement_score":0.6609533,"about_ca_system_score_codex":0.00006029043,"about_ca_system_score_gemma":0.00003937944,"threshold_uncertainty_score":0.6556427},"labels":[],"label_agreement":null},{"id":"W2160794767","doi":"10.1093/cercor/bhn184","title":"Spectrotemporal Receptive Fields in Anesthetized Cat Primary Auditory Cortex Are Context Dependent","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"","keywords":"Receptive field; Auditory cortex; Neuroscience; Natural sounds; Inhibitory postsynaptic potential; Excitatory postsynaptic potential; Context (archaeology); Psychology; Computer science; Speech recognition; Biology","score_opus":0.026863697729533037,"score_gpt":0.2300392893507352,"score_spread":0.20317559162120216,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2160794767","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9917191,0.000054265663,0.000066946646,0.0005997265,0.0014292801,0.000493228,0.000018497143,0.00012864974,0.005490289],"genre_scores_gemma":[0.99193764,0.000097004944,0.000035945253,0.0026090909,0.00027391769,0.000032176013,0.000018673432,0.000032677188,0.0049628825],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977959,0.00018586601,0.00038526425,0.00073318847,0.00044140656,0.00045837846],"domain_scores_gemma":[0.9990707,0.00013448058,0.0002117196,0.00039760635,0.00004655095,0.00013892517],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00012847298,0.0002724682,0.00039974236,0.00014671223,0.00022190135,0.00003623834,0.00030623615,0.0001681967,0.00032266462],"category_scores_gemma":[0.0001253957,0.00025258635,0.000158504,0.00030749576,0.00020300264,0.00028232337,0.00010159252,0.00041710335,0.00022228072],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.002712211,0.001601784,0.13574506,0.00017242428,0.000057908135,0.007017804,0.002439647,0.00019894289,0.7886349,0.004172137,0.034685913,0.022561276],"study_design_scores_gemma":[0.0037971616,0.00081269065,0.96464795,0.00008860335,0.000022639708,0.0010184669,0.0003350881,0.0021267873,0.017926132,0.0018682856,0.0063481526,0.0010080375],"about_ca_topic_score_codex":0.00021301208,"about_ca_topic_score_gemma":0.000482921,"teacher_disagreement_score":0.8289029,"about_ca_system_score_codex":0.00024207881,"about_ca_system_score_gemma":0.00011805974,"threshold_uncertainty_score":0.9999926},"labels":[],"label_agreement":null},{"id":"W2160983382","doi":"10.1093/cercor/bht006","title":"Functional Magnetic Resonance Imaging Adaptation Reveals the Cortical Networks for Processing Grasp-Relevant Object Properties","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"","keywords":"GRASP; Functional magnetic resonance imaging; Premotor cortex; Object (grammar); Transcranial magnetic stimulation; Neuroscience; Cognitive neuroscience of visual object recognition; Visual processing; Artificial intelligence; Computer science; Psychology; Computer vision; Visual cortex; Dorsum; Perception; Biology; Anatomy","score_opus":0.03537774881524467,"score_gpt":0.23004303520465627,"score_spread":0.1946652863894116,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2160983382","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.7665279,0.00904347,0.20663638,0.0076727807,0.0018534231,0.006032299,0.000026065667,0.00052223064,0.0016854302],"genre_scores_gemma":[0.9951707,0.000016584818,0.00030521865,0.001621364,0.00033961536,0.0004936395,0.000006858425,0.000026402118,0.0020195919],"study_design_codex":"design_other","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9984421,0.00012831701,0.0003316219,0.0004120047,0.00029589568,0.00039005218],"domain_scores_gemma":[0.99922055,0.00024197795,0.00012845958,0.000175881,0.00016104187,0.00007208269],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019139501,0.00016994737,0.0001518159,0.00003790496,0.0005777128,0.00025377367,0.00017822014,0.00004306879,0.00011683236],"category_scores_gemma":[0.0005124075,0.00010905481,0.0000789659,0.00017924725,0.00016870355,0.00047823763,0.000034028537,0.0001953961,0.000049391],"study_design_candidate":"simulation_or_modeling","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004464811,0.00012998418,0.0036063984,0.000098747674,0.0000050563735,0.000005549212,0.000854365,0.0029645513,0.4127666,0.006828434,0.0053387336,0.5669551],"study_design_scores_gemma":[0.00057054596,0.00010328781,0.22292598,0.000060645,0.000020712176,0.000018639235,0.00022858611,0.77231157,0.0005505793,0.0020346772,0.0009953368,0.00017942625],"about_ca_topic_score_codex":0.000044895252,"about_ca_topic_score_gemma":0.000018514733,"teacher_disagreement_score":0.769347,"about_ca_system_score_codex":0.000031566837,"about_ca_system_score_gemma":0.00007156102,"threshold_uncertainty_score":0.4447126},"labels":[],"label_agreement":null},{"id":"W2161122692","doi":"10.1093/cercor/bht292","title":"Decoding Visual Object Categories in Early Somatosensory Cortex","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; University of East Anglia","keywords":"Somatosensory system; Object (grammar); Sensory system; Psychology; Context (archaeology); Visual cortex; Decoding methods; Cognitive psychology; Neuroscience; Parietal lobe; Posterior parietal cortex; Communication; Computer science; Artificial intelligence; Biology","score_opus":0.019981943429896284,"score_gpt":0.25233081661806633,"score_spread":0.23234887318817005,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2161122692","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9944471,0.000013818449,0.000045535715,0.00018553612,0.0007991043,0.00036401305,0.0000043069635,0.0001493595,0.0039912267],"genre_scores_gemma":[0.9970639,0.0000135731825,0.000037062273,0.0008172477,0.000103212304,0.000035018842,0.0000052114347,0.000032580945,0.0018922362],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9982916,0.000097819284,0.00032533307,0.00053144654,0.0002634861,0.0004902925],"domain_scores_gemma":[0.9993401,0.0001711198,0.0001069652,0.00021942041,0.000039445637,0.0001229198],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00008003192,0.00021453669,0.0002277936,0.00017076061,0.00017100273,0.00020333062,0.00021259632,0.00009725742,0.00033993085],"category_scores_gemma":[0.00018998951,0.0001934009,0.00008064975,0.00040599,0.00011849132,0.0006135548,0.000097456315,0.0002768487,0.00084636477],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003069531,0.00009567783,0.060829654,0.000023325249,0.000003980839,0.00006155282,0.00027804603,0.000011282579,0.92476493,0.0059229415,0.0005145496,0.007463353],"study_design_scores_gemma":[0.00073334895,0.00028120595,0.9248796,0.000028193026,0.000007954995,0.0000716938,0.00018789023,0.021798402,0.04513522,0.0061412696,0.0002455767,0.0004896261],"about_ca_topic_score_codex":0.00047422902,"about_ca_topic_score_gemma":0.00012577411,"teacher_disagreement_score":0.87962973,"about_ca_system_score_codex":0.00006881566,"about_ca_system_score_gemma":0.000042360156,"threshold_uncertainty_score":0.9999316},"labels":[],"label_agreement":null},{"id":"W2161302069","doi":"10.1093/cercor/bhp158","title":"Comparative Cytoarchitectural Analyses of Striate and Extrastriate Areas in Hominoids","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":77,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Langara College","funders":"","keywords":"Extrastriate cortex; Visual cortex; Macaque; Neuroscience; Brain size; Biology; Neocortex; Primate; Sensory system; Primatology; Evolutionary biology; Ecology","score_opus":0.13375470204101025,"score_gpt":0.390503093310145,"score_spread":0.25674839126913473,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2161302069","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981762,0.000039037688,0.00023925885,0.00009495001,0.000052935917,0.00012304724,0.000009250522,0.000046563226,0.0012187667],"genre_scores_gemma":[0.9992912,0.0000135771825,0.00030603365,0.00026845816,0.000023074408,0.0000017257576,0.0000026237387,0.0000045313222,0.0000887719],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989905,0.00012176781,0.00025129062,0.0002847691,0.00015908237,0.00019261517],"domain_scores_gemma":[0.99963003,0.00005852163,0.00010701192,0.000107384854,0.000019999834,0.00007704906],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009088785,0.0001320508,0.00027671474,0.00014986617,0.000059268412,0.000040026207,0.00012307578,0.00004676948,0.00009232362],"category_scores_gemma":[0.000053213447,0.00010955763,0.00004290269,0.0003285493,0.000082243045,0.00013838115,0.00002341948,0.00014287958,0.000010238743],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010534856,0.00007551505,0.00056716823,0.0000093222125,0.0000022638421,0.0000048348156,0.0011679981,0.000028017808,0.98928833,0.00063304254,0.000014799331,0.008103385],"study_design_scores_gemma":[0.0015087486,0.00066777284,0.40851328,0.00005536738,0.000019831097,0.00002377762,0.00030407496,0.0053171134,0.57711065,0.0062066773,0.000022959252,0.00024975277],"about_ca_topic_score_codex":0.000019583404,"about_ca_topic_score_gemma":0.000016246144,"teacher_disagreement_score":0.41217765,"about_ca_system_score_codex":0.000016665008,"about_ca_system_score_gemma":0.000030747047,"threshold_uncertainty_score":0.44676304},"labels":[],"label_agreement":null},{"id":"W2161345835","doi":"10.1093/cercor/bht334","title":"Gray- and White-Matter Anatomy of Absolute Pitch Possessors","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University of Toronto; Baycrest Hospital; Centre for Addiction and Mental Health","funders":"Danmarks Grundforskningsfond; National Research Foundation","keywords":"Gray (unit); White matter; Anatomy; Absolute (philosophy); White (mutation); Biology; Medicine; Magnetic resonance imaging; Philosophy; Nuclear medicine; Radiology","score_opus":0.02514172140313974,"score_gpt":0.3254385219395622,"score_spread":0.30029680053642244,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2161345835","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98894465,0.000054616834,0.0013631883,0.0035939899,0.00001979894,0.00038855654,0.000006025432,0.000092397204,0.0055367486],"genre_scores_gemma":[0.99018705,0.000024129815,0.0072192657,0.0010295837,0.000026036301,0.00004105439,0.000010343611,0.00001853865,0.0014439882],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99941105,0.000006271004,0.00016577744,0.00019021578,0.000084956766,0.00014175358],"domain_scores_gemma":[0.99947435,0.000015347028,0.00006590467,0.0002811623,0.00007559735,0.0000876228],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000023115359,0.00009200397,0.00017007432,0.000052991334,0.000034496403,0.00001051447,0.000062082676,0.000035847486,0.0005244726],"category_scores_gemma":[0.000007845198,0.000076667246,0.00003839351,0.00011715888,0.00009391561,0.00009331636,0.000049302045,0.0001107038,0.00006810259],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020418618,0.00014329482,0.91337216,0.00015881138,0.000028294804,0.000007755648,0.00012421978,6.8033887e-7,0.029161088,0.0026480616,0.04717399,0.007161245],"study_design_scores_gemma":[0.00030596665,0.00006468489,0.99077845,0.000032973094,0.000022675942,0.000051136176,0.000028685268,0.00021605293,0.0016501959,0.003746179,0.0030140982,0.00008891676],"about_ca_topic_score_codex":0.000050436985,"about_ca_topic_score_gemma":0.0000014770517,"teacher_disagreement_score":0.077406295,"about_ca_system_score_codex":0.0000092247465,"about_ca_system_score_gemma":0.000012299812,"threshold_uncertainty_score":0.5742607},"labels":[],"label_agreement":null},{"id":"W2161623167","doi":"10.1093/cercor/bhl176","title":"The Role of Ventromedial Prefrontal Cortex in Decision Making: Judgment under Uncertainty or Judgment Per Se?","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":341,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Neurological Disorders and Stroke; National Institute on Drug Abuse","keywords":"Ventromedial prefrontal cortex; Psychology; Certainty; Cognitive psychology; Prefrontal cortex; Preference; Pairwise comparison; Value (mathematics); Social psychology; Cognition; Developmental psychology; Neuroscience; Computer science; Economics","score_opus":0.07065939833869413,"score_gpt":0.36078221128998017,"score_spread":0.29012281295128606,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2161623167","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99676263,0.00016196944,0.00003385667,0.00030360022,0.0011210883,0.0004674338,0.000016571574,0.000035459307,0.0010974072],"genre_scores_gemma":[0.99858564,0.000049480495,0.00006159278,0.0005859451,0.000102335856,0.000020577356,0.0000022397305,0.000017766013,0.00057444116],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977263,0.000079883815,0.0005491398,0.00054504734,0.0005059803,0.0005936155],"domain_scores_gemma":[0.9989263,0.00042201654,0.00018836233,0.0003342392,0.000038231177,0.00009086765],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030004195,0.00023717283,0.00028910552,0.000091345275,0.00025602375,0.00003095781,0.00042152844,0.000100646845,0.00022334718],"category_scores_gemma":[0.00008360892,0.00013906481,0.00011534131,0.00027236386,0.00040385578,0.00010740486,0.00023227798,0.00030114374,0.000059760725],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0031757178,0.0007329891,0.030034013,0.000010320934,0.000017472667,0.00012306873,0.0006856349,0.00004281856,0.87004364,0.0008389445,0.00058222294,0.09371318],"study_design_scores_gemma":[0.0014151019,0.000717043,0.9590058,0.00006203846,0.000029498076,0.00004936033,0.0013494652,0.000109334345,0.029438306,0.0034884734,0.0040534837,0.00028209828],"about_ca_topic_score_codex":0.00005683998,"about_ca_topic_score_gemma":0.0012693112,"teacher_disagreement_score":0.92897177,"about_ca_system_score_codex":0.00015496572,"about_ca_system_score_gemma":0.00004172743,"threshold_uncertainty_score":0.56708986},"labels":[],"label_agreement":null},{"id":"W2162095542","doi":"10.1093/cercor/13.8.883","title":"Partial Cortical Deafferentation Promotes Development of Paroxysmal Activity","year":2003,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":162,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"National Institute of Neurological Disorders and Stroke","keywords":"Neuroscience; Cortex (anatomy); Electroencephalography; Cerebral cortex; Gyrus; Retrosplenial cortex; Biology","score_opus":0.08567687450384659,"score_gpt":0.3545881704089388,"score_spread":0.2689112959050922,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2162095542","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980948,0.0000027153858,0.0003403144,0.00006274442,0.0003409539,0.00030263086,0.0000030891288,0.00004613151,0.00080661825],"genre_scores_gemma":[0.99941874,0.0000034460315,0.00011484474,0.00017149941,0.000020943387,0.000027429185,3.6076344e-7,0.000012554356,0.00023016629],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9979733,0.00043019158,0.00025218923,0.00047888877,0.00042922405,0.00043617637],"domain_scores_gemma":[0.99930394,0.00023344565,0.00009413585,0.00017215143,0.00003828195,0.00015807016],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022318635,0.00013739966,0.0001776043,0.000084946,0.00027345656,0.000029834342,0.00023346856,0.00005307175,0.00032944657],"category_scores_gemma":[0.00069326395,0.000120193225,0.000050024184,0.00035690624,0.00032238592,0.00021510162,0.00007267458,0.0002783154,0.000098839904],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007679287,0.0002456699,0.006261836,0.00001407906,0.0000018541376,0.000021616837,0.00011685149,0.0000010140246,0.9896061,0.0011573726,0.000031648615,0.002465207],"study_design_scores_gemma":[0.0004325166,0.0001777112,0.04210943,0.0000039663505,0.0000063596494,0.000023728464,0.000011099041,0.00034170283,0.9563448,0.00008646329,0.00034746248,0.00011480195],"about_ca_topic_score_codex":0.0000012950525,"about_ca_topic_score_gemma":0.0000021250862,"teacher_disagreement_score":0.035847593,"about_ca_system_score_codex":0.000025894236,"about_ca_system_score_gemma":0.0002620217,"threshold_uncertainty_score":0.49013376},"labels":[],"label_agreement":null},{"id":"W2162184851","doi":"10.1093/cercor/bhs133","title":"Disrupting Pre-SMA Activity Impairs Facial Happiness Recognition: An Event-Related TMS Study","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; Institut Universitaire en Santé Mentale de Québec","funders":"","keywords":"SMA*; Transcranial magnetic stimulation; Happiness; Psychology; Supplementary motor area; Facial expression; Laughter; Stimulus (psychology); Mirror neuron; Audiology; Neuroscience; Functional magnetic resonance imaging; Cognitive psychology; Stimulation; Communication; Computer science; Medicine; Social psychology","score_opus":0.06501215719685699,"score_gpt":0.32956672064955106,"score_spread":0.26455456345269407,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2162184851","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952555,0.00002314504,0.00042879756,0.00008862434,0.0012262076,0.000983277,0.00004456238,0.0003446589,0.0016052682],"genre_scores_gemma":[0.99913603,0.0000023519235,0.0000626279,0.00008185466,0.00030402816,0.00006860815,0.0000071203744,0.000036046997,0.0003013566],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9976949,0.00035545274,0.0003869288,0.0005499165,0.0004445136,0.0005682697],"domain_scores_gemma":[0.99901235,0.00019827286,0.00016776744,0.00032343357,0.00007088295,0.00022727282],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00026346665,0.0002880565,0.0003134765,0.00009458296,0.00050078717,0.00007942296,0.00022792211,0.00009486553,0.00069241953],"category_scores_gemma":[0.0003435481,0.00026934734,0.000102606195,0.0005040811,0.00014440666,0.0009376035,0.00009962823,0.00027056056,0.00023862669],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008791126,0.0048805727,0.3953624,0.00006552902,0.000083184445,0.000030857933,0.02213934,0.00017125568,0.39167538,0.00019920408,0.00008600949,0.18442716],"study_design_scores_gemma":[0.0019170856,0.0005652235,0.99324316,0.00001340256,0.00006852162,0.000020406944,0.0006854878,0.001422484,0.001401677,0.0001584646,0.00013530013,0.00036877516],"about_ca_topic_score_codex":0.000097603945,"about_ca_topic_score_gemma":0.000058509682,"teacher_disagreement_score":0.5978808,"about_ca_system_score_codex":0.000048899314,"about_ca_system_score_gemma":0.000028584835,"threshold_uncertainty_score":0.99997586},"labels":[],"label_agreement":null},{"id":"W2162185597","doi":"10.1093/cercor/bhr370","title":"Are You Upset? Distinct Roles for Orbitofrontal and Lateral Prefrontal Cortex in Detecting and Distinguishing Facial Expressions of Emotion","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":97,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Facial expression; Orbitofrontal cortex; Psychology; Prefrontal cortex; Cognitive psychology; Ventromedial prefrontal cortex; Neuroscience; Emotional expression; Ventrolateral prefrontal cortex; Cognition; Communication","score_opus":0.044464443121246706,"score_gpt":0.28771443174022443,"score_spread":0.24324998861897773,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2162185597","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99864334,0.000038771297,0.00017989647,0.000029443287,0.00030760103,0.00030527625,0.00021839302,0.000039493923,0.00023777391],"genre_scores_gemma":[0.9994953,0.0000066241623,0.00017921334,0.000039140083,0.00015573761,0.000018949144,0.000027642362,0.000015914475,0.00006145089],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99898726,0.000075669064,0.00024895705,0.00027960865,0.00012162099,0.0002869008],"domain_scores_gemma":[0.9994934,0.00010553977,0.00019020829,0.00007627928,0.000021890006,0.000112672264],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012763124,0.00014184458,0.00019282529,0.00007154996,0.00019260978,0.000050346305,0.000058585636,0.00008738087,0.00005310817],"category_scores_gemma":[0.00050611864,0.00013109412,0.00004214967,0.00006832315,0.000095957206,0.00041743845,0.00005867422,0.00014305965,0.000003025182],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011931501,0.000084573185,0.51363814,0.00009361465,0.0000024010967,0.0000018656098,0.0023202568,8.9847674e-7,0.46808624,0.000052778323,0.0000245698,0.015575313],"study_design_scores_gemma":[0.0007088253,0.0000686672,0.98753935,0.00013002951,0.0000120792065,0.00002213152,0.0009806046,0.0011752524,0.00893195,0.00013543898,0.00013193679,0.00016372383],"about_ca_topic_score_codex":0.00006072144,"about_ca_topic_score_gemma":0.0004586059,"teacher_disagreement_score":0.47390118,"about_ca_system_score_codex":0.00003326187,"about_ca_system_score_gemma":0.000008243395,"threshold_uncertainty_score":0.53458625},"labels":[],"label_agreement":null},{"id":"W2162259821","doi":"10.1093/cercor/bhq057","title":"Saccadic Preparation in the Frontal Eye Field Is Modulated by Distinct Trial History Effects as Revealed by Magnetoencephalography","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Center for Research Resources; National Institute on Drug Abuse; National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"Antisaccade task; Magnetoencephalography; Saccadic masking; Neuroscience; Context (archaeology); Psychology; Prefrontal cortex; Anterior cingulate cortex; Eye movement; Cognitive psychology; Cognition; Biology; Electroencephalography","score_opus":0.008068775110582158,"score_gpt":0.24240429163608257,"score_spread":0.23433551652550041,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2162259821","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9933219,0.00006332681,0.00003982311,0.00053526857,0.0021234588,0.00090890145,0.000022905151,0.00006387798,0.00292053],"genre_scores_gemma":[0.9938096,0.000008951905,0.00000975458,0.0035638283,0.00012151745,0.00007164544,0.00005035189,0.000015105135,0.0023492626],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99842757,0.00021003482,0.00026723166,0.0005129156,0.0003059886,0.00027625327],"domain_scores_gemma":[0.99914056,0.00029646102,0.00013500419,0.0003411574,0.00001646424,0.00007036981],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017900637,0.00018981616,0.00017957523,0.0000739606,0.00012991054,0.00005933644,0.0003360446,0.00015627885,0.00040111906],"category_scores_gemma":[0.00034613913,0.00014320266,0.00011005228,0.00024067561,0.00010671834,0.00023541224,0.000034181507,0.00047101572,0.000051524188],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0019975472,0.00018213464,0.0025505982,0.000013849445,0.0000032384828,0.000014184034,0.00026127903,4.392141e-7,0.885546,0.00019041137,0.10666174,0.0025785519],"study_design_scores_gemma":[0.086039715,0.022375287,0.375015,0.00014594132,0.00029094875,0.00018566195,0.00012730293,0.057350226,0.19226988,0.014149725,0.24822094,0.0038293693],"about_ca_topic_score_codex":0.00033111684,"about_ca_topic_score_gemma":0.00016429776,"teacher_disagreement_score":0.69327617,"about_ca_system_score_codex":0.000052940246,"about_ca_system_score_gemma":0.000029560551,"threshold_uncertainty_score":0.5839635},"labels":[],"label_agreement":null},{"id":"W2162686834","doi":"10.1093/cercor/bhn102","title":"Mapping Anatomical Connectivity Patterns of Human Cerebral Cortex Using In Vivo Diffusion Tensor Imaging Tractography","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":1143,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; University of Alberta","funders":"National Center for Research Resources","keywords":"Diffusion MRI; Tractography; Neuroscience; Cerebral cortex; Functional connectivity; Cortex (anatomy); Connectome; Connectomics; Human brain; Brain mapping; Psychology; Magnetic resonance imaging; Medicine; Radiology","score_opus":0.059787037910828435,"score_gpt":0.3299080363253019,"score_spread":0.27012099841447346,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2162686834","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9913107,0.000040309482,0.0071645305,0.00020938618,0.000049639537,0.0005764122,0.000039872495,0.00020373403,0.00040537043],"genre_scores_gemma":[0.99672556,0.000024462463,0.0027433457,0.00028495266,0.000077322846,0.000020523561,0.00002501633,0.000051167503,0.000047663474],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9982142,0.000048240487,0.0005327766,0.0005428021,0.00025752373,0.00040448472],"domain_scores_gemma":[0.9989638,0.00006294932,0.00023596096,0.00048780412,0.00009524648,0.00015428406],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0000956384,0.00026581867,0.0005441615,0.00040981852,0.0001928708,0.000010451262,0.00016000815,0.00008785212,0.00013185527],"category_scores_gemma":[0.00003537865,0.00025448742,0.00021423913,0.0004945746,0.00020687866,0.00017511162,0.00010688718,0.00044500997,0.0000017261852],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000026390024,0.000253518,0.73964626,0.000045373246,0.000008562164,0.00006537435,0.00012179773,0.0000015594192,0.25899544,0.0002468758,0.000049080703,0.00053976726],"study_design_scores_gemma":[0.0013633952,0.00008325502,0.9808708,0.00021980566,0.000029785242,0.0003458701,0.00018530752,0.0050224504,0.010961673,0.0004915066,0.00016811486,0.00025806192],"about_ca_topic_score_codex":0.0004647729,"about_ca_topic_score_gemma":0.000029566734,"teacher_disagreement_score":0.24803376,"about_ca_system_score_codex":0.000097102784,"about_ca_system_score_gemma":0.000050033228,"threshold_uncertainty_score":0.99999076},"labels":[],"label_agreement":null},{"id":"W2162920906","doi":"10.1093/cercor/bhu279","title":"Visual–Motor Transformations Within Frontal Eye Fields During Head-Unrestrained Gaze Shifts in the Monkey","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Retinal Development and Disorders","field":"Biochemistry, Genetics and Molecular Biology","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"Canadian Institutes of Health Research","keywords":"Gaze; Visual field; Eye movement; Psychology; Population; Neuroscience; Visual perception; Supplementary eye field; Communication; Perception; Computer vision; Artificial intelligence; Computer science; Saccadic masking","score_opus":0.006675916958387821,"score_gpt":0.2473378495013369,"score_spread":0.24066193254294907,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2162920906","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99274915,0.000071771676,0.0006380607,0.00049351755,0.000106470165,0.0002023187,0.0000040086716,0.000012769689,0.005721919],"genre_scores_gemma":[0.9986565,0.000020998654,0.00017339831,0.0004336236,0.000088989145,0.000028336606,0.00010950753,0.000010686171,0.0004779715],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99921083,0.000059407696,0.00021134592,0.00018908363,0.00011876027,0.00021054204],"domain_scores_gemma":[0.9997323,0.000009241288,0.000040909923,0.00015380388,0.000017416465,0.000046323585],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001396618,0.00012902518,0.00010099845,0.000035926212,0.000103221246,0.000034477216,0.00018561241,0.00010846911,0.00003855292],"category_scores_gemma":[0.000038712853,0.000099291035,0.000067965535,0.00007395937,0.000041476946,0.000009687323,0.00002493648,0.00011666907,0.000017456361],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015619594,0.0007075522,0.26432025,0.00033292433,0.00019222898,0.000029193265,0.012220689,0.00036532752,0.70195657,0.004032479,0.004925312,0.009355536],"study_design_scores_gemma":[0.0016158386,0.00043027944,0.9840794,0.00003089288,0.000013130168,0.000006618661,0.0009186956,0.00087912206,0.00817179,0.0005238393,0.0029787277,0.0003516236],"about_ca_topic_score_codex":0.00004553473,"about_ca_topic_score_gemma":0.0006339807,"teacher_disagreement_score":0.71975917,"about_ca_system_score_codex":0.000008144389,"about_ca_system_score_gemma":0.000035622783,"threshold_uncertainty_score":0.4048971},"labels":[],"label_agreement":null},{"id":"W2162959856","doi":"10.1093/cercor/bhl137","title":"Human Parietal “Reach Region” Primarily Encodes Intrinsic Visual Direction, Not Extrinsic Movement Direction, in a Visual–Motor Dissociation Task","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":133,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Robarts Clinical Trials; Western University; York University; Canadian Institutes of Health Research","funders":"","keywords":"Posterior parietal cortex; Gaze; Eye movement; Parietal lobe; Functional magnetic resonance imaging; Neuroscience; Stimulus (psychology); Psychology; Retinal; Computer vision; Computer science; Cognitive psychology; Biology","score_opus":0.0322120333173159,"score_gpt":0.3169505317916224,"score_spread":0.28473849847430655,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2162959856","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99133986,0.000026420868,0.0031823043,0.000256027,0.0010847778,0.0005817779,0.000006580898,0.00044504998,0.0030772267],"genre_scores_gemma":[0.9927725,0.000029025608,0.000082981955,0.0019870885,0.00044886034,0.00005480087,0.00003133527,0.00005683158,0.0045365524],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9966359,0.00024692365,0.00079357356,0.0009376525,0.00070812035,0.0006778154],"domain_scores_gemma":[0.9988882,0.00011916334,0.0003822424,0.00024456394,0.00013754232,0.00022830631],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00074325193,0.00037632725,0.00038352603,0.00046689788,0.0007043629,0.00023455035,0.00024103021,0.00024415614,0.00019967674],"category_scores_gemma":[0.0003993102,0.00038367088,0.00015217552,0.0010671845,0.00014959862,0.0006531384,0.00011796376,0.00046750472,0.00012161873],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022281228,0.0008382449,0.012844677,0.00005176041,0.000011279237,0.000034465185,0.0012028073,0.000004547364,0.91967523,0.0032417965,0.00046579295,0.061406597],"study_design_scores_gemma":[0.0016206879,0.0007854907,0.8744279,0.00008610023,0.00003483516,0.000031019354,0.00047611067,0.00081032695,0.11576489,0.0021965655,0.0030078338,0.0007582378],"about_ca_topic_score_codex":0.00027817805,"about_ca_topic_score_gemma":0.00056080136,"teacher_disagreement_score":0.86158323,"about_ca_system_score_codex":0.00062018714,"about_ca_system_score_gemma":0.00009892994,"threshold_uncertainty_score":0.99986154},"labels":[],"label_agreement":null},{"id":"W2163193833","doi":"10.1093/cercor/bhj008","title":"Synaptic Plasticity in Local Cortical Network In Vivo and Its Modulation by the Level of Neuronal Activity","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":48,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"National Institute of Neurological Disorders and Stroke; Université Laval; National Sleep Foundation","keywords":"Neuroscience; Long-term potentiation; Nonsynaptic plasticity; Synaptic plasticity; Premovement neuronal activity; Postsynaptic potential; Memory consolidation; Neuroplasticity; NMDA receptor; Synaptic fatigue; Psychology; Stimulus (psychology); Metaplasticity; Biology; Hippocampus; Excitatory postsynaptic potential; Receptor; Inhibitory postsynaptic potential","score_opus":0.04445138152994319,"score_gpt":0.2569432463065179,"score_spread":0.2124918647765747,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2163193833","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971843,0.00000784514,0.0019798272,0.00040021827,0.00011244922,0.00017725633,0.000022491178,0.000011082442,0.00010457027],"genre_scores_gemma":[0.9995573,0.0000065995096,0.00000841095,0.00030020264,0.000045832207,0.000005159962,9.524139e-7,0.000007963568,0.00006753726],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9989786,0.0001396643,0.00019961115,0.00027537486,0.00017994405,0.00022678125],"domain_scores_gemma":[0.9994027,0.00039510807,0.0000677255,0.00007765269,0.00001203466,0.00004475927],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010401747,0.00010217855,0.00013977733,0.000035747664,0.000064287044,0.000016359669,0.00009451387,0.000058550253,0.000035922385],"category_scores_gemma":[0.00018835126,0.00007919041,0.000023336028,0.0002329934,0.00011751427,0.0001776712,0.00006479228,0.00027098853,0.0000035776548],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003599688,0.0002407856,0.015782284,0.000022523578,0.0000044353988,0.000007770218,0.0000620728,0.031244569,0.9285731,0.0058821775,0.0002778508,0.01754247],"study_design_scores_gemma":[0.00026478167,0.0000715106,0.35139284,0.000008475448,0.000002784287,0.000008054394,0.0000028984703,0.6393471,0.008617452,0.00020203154,0.000021580096,0.000060481812],"about_ca_topic_score_codex":0.000046850175,"about_ca_topic_score_gemma":0.000463303,"teacher_disagreement_score":0.9199556,"about_ca_system_score_codex":0.00004354208,"about_ca_system_score_gemma":0.000018918823,"threshold_uncertainty_score":0.3229291},"labels":[],"label_agreement":null},{"id":"W2163219125","doi":"10.1093/cercor/bhj067","title":"Decreased Input-Specific Plasticity of the Auditory Cortex in Mice Lacking M1 Muscarinic Acetylcholine Receptors","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"National Institute of Neurological Disorders and Stroke","keywords":"Basal forebrain; Neuroscience; Muscarinic acetylcholine receptor; Auditory cortex; Forebrain; Cerebral cortex; Muscarinic acetylcholine receptor M4; Neuroplasticity; Cholinergic; Cortex (anatomy); Biology; Muscarinic acetylcholine receptor M1; Stimulation; Acetylcholine; Cholinergic neuron; Receptor; Central nervous system; Endocrinology; Genetics","score_opus":0.044810199965847494,"score_gpt":0.30957321975976376,"score_spread":0.26476301979391625,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2163219125","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961206,0.00003097286,0.000010607718,0.0005685016,0.0017399895,0.0004513643,0.000016742037,0.00006181851,0.0009994525],"genre_scores_gemma":[0.99676096,0.00013772177,0.000019033036,0.0017235832,0.0003498526,0.000019844801,6.0724824e-7,0.000031964348,0.0009564038],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9967602,0.0005311823,0.00053462747,0.00081665267,0.00065561297,0.0007017298],"domain_scores_gemma":[0.9983573,0.00074945,0.00023499616,0.0004004977,0.00006373782,0.00019401147],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00031399485,0.00025030298,0.00031927953,0.0002367125,0.00026895918,0.000044828237,0.0012344492,0.00011815786,0.0004793303],"category_scores_gemma":[0.00082120515,0.00019721626,0.00014501902,0.0012990377,0.00085291534,0.00034723268,0.00043795916,0.0008840969,0.00016598061],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013347677,0.00023351563,0.008196891,0.0000130584685,0.0000018189774,0.000020816587,0.00012482228,0.00009459492,0.9866942,0.00009492601,0.0025066447,0.0018852141],"study_design_scores_gemma":[0.0014235277,0.00014014103,0.17426474,0.00003521647,0.000009383283,0.000038863822,0.000038684786,0.0021325247,0.8109559,0.00003566002,0.010672012,0.0002533679],"about_ca_topic_score_codex":0.00001783571,"about_ca_topic_score_gemma":0.00006185786,"teacher_disagreement_score":0.17573833,"about_ca_system_score_codex":0.00010951218,"about_ca_system_score_gemma":0.00023780514,"threshold_uncertainty_score":0.8042246},"labels":[],"label_agreement":null},{"id":"W2163568971","doi":"10.1093/cercor/bhn139","title":"The Center-Surround Profile of the Focus of Attention Arises from Recurrent Processing in Visual Cortex","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":82,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"","keywords":"Visual cortex; Surround suppression; Neuroscience; Sensory system; Cortex (anatomy); Focus (optics); Visual processing; Sensory cortex; Magnetoencephalography; Psychology; Computer science; Visual perception; Physics; Perception; Optics; Electroencephalography","score_opus":0.0500704888076774,"score_gpt":0.30836222221506493,"score_spread":0.25829173340738754,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2163568971","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977497,0.00014643723,0.00022886762,0.00013868317,0.00047341487,0.00029929387,0.000031148833,0.000029365985,0.0009031028],"genre_scores_gemma":[0.99938476,0.00007069456,0.0000445259,0.00008753833,0.000047876692,0.000014555318,0.000006032183,0.000016006225,0.00032800666],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99834406,0.00019526253,0.00045895003,0.00032485978,0.00043735758,0.0002394915],"domain_scores_gemma":[0.99919474,0.0000751976,0.00038065124,0.00022440944,0.00008037168,0.000044623503],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015340192,0.00014722062,0.00020111562,0.000049774135,0.0003525493,0.000040568175,0.00036986682,0.00007075783,0.00010209411],"category_scores_gemma":[0.00017467867,0.000090763235,0.00010057534,0.00042024258,0.00033090438,0.00019648542,0.00010857735,0.0002213774,0.00001669584],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020813737,0.00052150193,0.029694168,0.000073283794,0.0000037596967,0.0000037386126,0.0012880006,0.0000021097114,0.90027094,0.00032978057,0.00033706703,0.06726753],"study_design_scores_gemma":[0.001442147,0.000395595,0.754217,0.00045140774,0.000022533026,0.00003051899,0.00074975245,0.0056845676,0.23346655,0.0026467885,0.000590957,0.0003021835],"about_ca_topic_score_codex":0.0000849857,"about_ca_topic_score_gemma":0.00010947806,"teacher_disagreement_score":0.7245228,"about_ca_system_score_codex":0.000039190585,"about_ca_system_score_gemma":0.00011948797,"threshold_uncertainty_score":0.37012175},"labels":[],"label_agreement":null},{"id":"W2163627919","doi":"10.1093/cercor/bhn177","title":"Decoding the Cortical Transformations for Visually Guided Reaching in 3D Space","year":2008,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":88,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; York University","funders":"","keywords":"Microstimulation; Computer science; Transformation (genetics); Neurophysiology; Neural decoding; Receptive field; Reference frame; Population; Artificial neural network; Artificial intelligence; Decoding methods; Frame (networking); Computer vision; Pattern recognition (psychology); Neuroscience; Algorithm; Psychology; Biology","score_opus":0.07386024466557208,"score_gpt":0.3035126605947336,"score_spread":0.22965241592916152,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2163627919","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9436654,0.00001548999,0.05080679,0.0014991978,0.00017161698,0.0005677501,0.000008668718,0.0000614392,0.0032036896],"genre_scores_gemma":[0.9979568,0.000015279225,0.0007404598,0.0008359276,0.000067913,0.000053524946,0.000003926913,0.000010880869,0.00031528086],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9990489,0.000087543325,0.0002646397,0.00019314131,0.00016210382,0.0002436708],"domain_scores_gemma":[0.9993559,0.00038463584,0.00005583306,0.00012871782,0.000023528428,0.00005137276],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019419317,0.00009239512,0.000114829134,0.00005527446,0.00042318256,0.00003624823,0.00015851804,0.000037979415,0.000028898077],"category_scores_gemma":[0.0005538081,0.00006747718,0.00006611084,0.00015955059,0.00006342902,0.00026769936,0.0000127295525,0.00015920847,0.000019044503],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025479303,0.00023958833,0.0060738707,0.00005143309,0.000011516287,0.000040771298,0.010238135,0.0011365042,0.8234074,0.13912554,0.0012601829,0.018160274],"study_design_scores_gemma":[0.0039067683,0.00027196557,0.26713657,0.000057696547,0.000035853704,0.00019194347,0.00038850802,0.701726,0.013089326,0.0032436533,0.009441613,0.0005100786],"about_ca_topic_score_codex":0.000028380631,"about_ca_topic_score_gemma":0.00007183518,"teacher_disagreement_score":0.81031805,"about_ca_system_score_codex":0.000037530615,"about_ca_system_score_gemma":0.00005085027,"threshold_uncertainty_score":0.3254821},"labels":[],"label_agreement":null},{"id":"W2163752093","doi":"10.1093/cercor/bhm178","title":"Functional Neuronal Processing of Body Odors Differs from that of Similar Common Odors","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":142,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Odor; Neuroscience; Psychology; Amygdala; Perception; Olfaction; Olfactory perception; Visual perception; Communication; Cognitive psychology","score_opus":0.12498453037249858,"score_gpt":0.2726991155832325,"score_spread":0.14771458521073394,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2163752093","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960451,0.00005111791,0.00051067426,0.000087698165,0.00075656443,0.00012381803,0.000064101005,0.00006178774,0.0022991279],"genre_scores_gemma":[0.99892575,0.0000072357007,0.000037456317,0.00046146568,0.00010602972,0.0000016690425,0.000011598117,0.000019592577,0.0004291825],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99832976,0.000084875486,0.00040554022,0.00038830203,0.0005145786,0.00027693168],"domain_scores_gemma":[0.99892485,0.0004052137,0.00030034053,0.00021023904,0.00006765396,0.000091693866],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013231709,0.0001972024,0.000341773,0.00011842666,0.00020695548,0.000015269989,0.00016823554,0.00008030293,0.0004280844],"category_scores_gemma":[0.00014927745,0.00017115063,0.00013780638,0.00024227607,0.00037578898,0.00022530046,0.00008346354,0.0002185436,0.000019191726],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00063793315,0.000218313,0.33678892,0.00006201751,0.000026601432,0.000014870687,0.0004276581,0.000051423845,0.65768933,0.0003486023,0.0007263151,0.0030079978],"study_design_scores_gemma":[0.0004147891,0.00011925912,0.7174957,0.000020751939,0.000027002736,0.0000042327,0.00030320257,0.00017679117,0.28031248,0.0002806748,0.0007100023,0.00013514089],"about_ca_topic_score_codex":0.000024659588,"about_ca_topic_score_gemma":0.000016740687,"teacher_disagreement_score":0.38070676,"about_ca_system_score_codex":0.000025783695,"about_ca_system_score_gemma":0.00003364131,"threshold_uncertainty_score":0.697932},"labels":[],"label_agreement":null},{"id":"W2164076784","doi":"10.1093/cercor/bhu262","title":"Direct Exploration of the Role of the Ventral Anterior Temporal Lobe in Semantic Memory: Cortical Stimulation and Local Field Potential Evidence From Subdural Grid Electrodes","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":167,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Movement Disorders","funders":"Japan Society for the Promotion of Science; Medical Research Council; Ministry of Education, Culture, Sports, Science and Technology","keywords":"Semantic memory; Temporal lobe; Semantic dementia; Neuroscience; Psychology; Fusiform gyrus; Epilepsy; Cognitive psychology; Dementia; Functional magnetic resonance imaging; Cognition; Medicine; Pathology; Frontotemporal dementia","score_opus":0.016026396849371717,"score_gpt":0.25182760850855096,"score_spread":0.23580121165917925,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164076784","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9988445,0.00010852624,0.00021170726,0.00027663828,0.0003131793,0.0002067333,0.0000071706177,0.000012164385,0.000019381578],"genre_scores_gemma":[0.99963933,0.000008501252,0.000016438635,0.00022315614,0.00008834314,0.0000027403948,0.0000018993487,0.0000064543638,0.0000131317365],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987416,0.0003839977,0.0002798912,0.00025783575,0.00016783173,0.00016881841],"domain_scores_gemma":[0.99927783,0.00028623332,0.00015608247,0.00023176662,0.000022237215,0.000025840098],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014367285,0.00010304458,0.00018959375,0.000027732887,0.000075445845,0.000015475907,0.00023105672,0.00006733593,0.000021795266],"category_scores_gemma":[0.00055068085,0.00006257412,0.00007189599,0.00013359565,0.0002635065,0.00020891626,0.00010307901,0.00017484426,0.0000010663531],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012522486,0.00002876972,0.07441594,0.0000102116965,0.0000021004387,0.000005062714,0.00044140732,0.000057783385,0.92369294,0.000023149463,0.000006567246,0.0011908264],"study_design_scores_gemma":[0.00024002635,0.00018310634,0.24141721,0.00008952284,0.000019409612,0.000016475577,0.00008511536,0.007054608,0.75032234,0.00050444354,0.0000026288108,0.00006509197],"about_ca_topic_score_codex":0.0004977625,"about_ca_topic_score_gemma":0.0003612494,"teacher_disagreement_score":0.1733706,"about_ca_system_score_codex":0.000010602817,"about_ca_system_score_gemma":0.000031891374,"threshold_uncertainty_score":0.25516987},"labels":[],"label_agreement":null},{"id":"W2164221011","doi":"10.1093/cercor/bhl144","title":"Structural Imaging Reveals Anatomical Alterations in Inferotemporal Cortex in Congenital Prosopagnosia","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":153,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Sunnybrook Health Science Centre","funders":"","keywords":"Fusiform gyrus; Psychology; Neuroimaging; Neuroscience; Gyrus; Middle temporal gyrus; Cortex (anatomy); Temporal cortex; Functional magnetic resonance imaging; Audiology; Anatomy; Medicine","score_opus":0.0349466620694337,"score_gpt":0.3079926643781615,"score_spread":0.2730460023087278,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164221011","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9958596,0.00001629208,0.00007310898,0.00028338976,0.0003353135,0.00052481424,0.00003020359,0.000079644225,0.0027976183],"genre_scores_gemma":[0.99854934,0.000005201116,0.00012889213,0.0009892733,0.000088546054,0.000019399975,0.000044863464,0.000020068454,0.00015440446],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981629,0.00012931458,0.00052799727,0.0004676026,0.00024098008,0.00047117626],"domain_scores_gemma":[0.9994445,0.00011717756,0.000090073,0.00016831311,0.000038921946,0.00014103462],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027335322,0.00018920813,0.00021243414,0.00032515175,0.00010308769,0.00010245314,0.00015918628,0.00009052168,0.0006951656],"category_scores_gemma":[0.00022200946,0.00019149615,0.00006134525,0.0005135746,0.00014195392,0.0005688288,0.000039911203,0.00039465012,0.00017199572],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010881729,0.00007628751,0.6109077,0.000014075224,0.0000013544492,0.00014245366,0.00051919883,0.000008428331,0.38034382,0.0014859769,0.00016255553,0.0062293485],"study_design_scores_gemma":[0.0011115699,0.000041265215,0.9822128,0.000035071596,0.000003350847,0.000066584296,0.0002078079,0.0048449617,0.0097142905,0.0014344295,0.000060382434,0.00026752506],"about_ca_topic_score_codex":0.00019193206,"about_ca_topic_score_gemma":0.0019101859,"teacher_disagreement_score":0.37130508,"about_ca_system_score_codex":0.0001533191,"about_ca_system_score_gemma":0.000057484085,"threshold_uncertainty_score":0.78089863},"labels":[],"label_agreement":null},{"id":"W2164230785","doi":"10.1093/cercor/bhs111","title":"Opposing Alterations in Excitation and Inhibition of Layer 5 Medial Prefrontal Cortex Pyramidal Neurons Following Neonatal Ventral Hippocampal Lesion","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Prefrontal cortex; Excitatory postsynaptic potential; Dendritic spine; Hippocampal formation; Inhibitory postsynaptic potential; Postsynaptic potential; Lesion; Hippocampus; Chemistry; Psychology; Cognition; Receptor","score_opus":0.06329330497055802,"score_gpt":0.3377155300391053,"score_spread":0.2744222250685473,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164230785","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980547,0.000048317655,0.00008239949,0.00016167341,0.0010591409,0.0004049753,0.000021272223,0.000038361537,0.00012918843],"genre_scores_gemma":[0.9993483,0.000024423125,0.000043824668,0.0003351209,0.00014536342,0.000021730939,0.00000789355,0.000021424663,0.000051962612],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99789965,0.00030860794,0.00034814802,0.00043546918,0.00043158847,0.00057656004],"domain_scores_gemma":[0.99928844,0.000238221,0.000105265906,0.00013617902,0.000021647265,0.00021022186],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024192513,0.0001703723,0.00020109519,0.00024215292,0.0002475712,0.000057675003,0.00014392385,0.00007880116,0.000049502003],"category_scores_gemma":[0.0002764768,0.00017093292,0.00007483457,0.00039178279,0.00030168702,0.0012100659,0.0001393574,0.00035492203,0.000015516682],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010778457,0.00012529915,0.02540346,0.00001377588,0.0000012649328,0.00006348402,0.00067720853,0.0000050467033,0.972256,0.00033230905,0.000017595668,0.0009967764],"study_design_scores_gemma":[0.0010688881,0.0002317839,0.42126557,0.000027701502,0.000014354275,0.000067485016,0.0000973911,0.0014799604,0.5753946,0.00016687569,0.000026958025,0.00015844275],"about_ca_topic_score_codex":0.000020069238,"about_ca_topic_score_gemma":0.000022183509,"teacher_disagreement_score":0.3968614,"about_ca_system_score_codex":0.00004843433,"about_ca_system_score_gemma":0.00007897943,"threshold_uncertainty_score":0.69704425},"labels":[],"label_agreement":null},{"id":"W2164383485","doi":"10.1093/cercor/bht150","title":"Brain Signal Variability is Parametrically Modifiable","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital","funders":"Canadian Institutes of Health Research; Canada Research Chairs; James S. McDonnell Foundation","keywords":"SIGNAL (programming language); Voxel; Functional magnetic resonance imaging; Computer science; Pattern recognition (psychology); Neuroimaging; Artificial intelligence; Parametric statistics; Brain activity and meditation; Task (project management); Brain mapping; Signal processing; Psychology; Neuroscience; Mathematics; Statistics; Electroencephalography; Digital signal processing","score_opus":0.033004972734677375,"score_gpt":0.25402885711517537,"score_spread":0.221023884380498,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164383485","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.931885,0.00002071646,0.002446326,0.02962581,0.00052978704,0.00075851096,0.000037289745,0.0003165172,0.03438001],"genre_scores_gemma":[0.97124344,0.0000021367227,0.00045077718,0.023265751,0.00012763406,0.00009997602,0.0000017538131,0.000022327156,0.0047862264],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.99763435,0.0002423169,0.00028423627,0.0008648218,0.0004810225,0.00049326336],"domain_scores_gemma":[0.99105203,0.00807563,0.00009295913,0.00048003343,0.00012793003,0.00017138982],"candidate_categories":["metaresearch","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00033140217,0.00022628249,0.00027209037,0.00011224834,0.00031162845,0.00013881618,0.0003474175,0.00010015752,0.005167152],"category_scores_gemma":[0.012118424,0.00020129749,0.00012905411,0.0007619392,0.00024171078,0.00048079994,0.00022693348,0.00028780595,0.0024570622],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000076854434,0.0006003809,0.025519496,0.000060474078,0.000047142425,0.000015293817,0.00031741825,0.00019207907,0.3270451,0.026962746,0.6078373,0.011325655],"study_design_scores_gemma":[0.0026852572,0.001245218,0.3868729,0.00004104834,0.00005799223,0.0000978034,0.00017940492,0.072632544,0.19257095,0.25553197,0.085984215,0.0021007007],"about_ca_topic_score_codex":0.0002392125,"about_ca_topic_score_gemma":0.00000394462,"teacher_disagreement_score":0.52185315,"about_ca_system_score_codex":0.00011203813,"about_ca_system_score_gemma":0.000076304386,"threshold_uncertainty_score":0.9983196},"labels":[],"label_agreement":null},{"id":"W2164410300","doi":"10.1093/cercor/bhl056","title":"Age-Related Changes in Transient and Oscillatory Brain Responses to Auditory Stimulation in Healthy Adults 19-45 Years Old","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Auditory cortex; Audiology; Psychology; Electrophysiology; Temporal lobe; Auditory system; Auditory perception; Stimulation; Neuroscience; Perception; Medicine","score_opus":0.018872187380980194,"score_gpt":0.27620948869638395,"score_spread":0.2573373013154038,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164410300","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99594116,0.00004578413,0.0000069761422,0.0029955625,0.00031918578,0.00049714535,0.000009737898,0.000053402033,0.00013107249],"genre_scores_gemma":[0.99837863,0.000008617682,0.00007388858,0.00109344,0.00007701539,0.000020412408,0.000004023479,0.00001533414,0.00032861717],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985441,0.00026366088,0.00027911927,0.00042879116,0.00020053351,0.00028380236],"domain_scores_gemma":[0.9993199,0.00036590762,0.000047049005,0.0001473495,0.000013634078,0.00010613251],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036100665,0.00011074613,0.00016797926,0.00034894192,0.000059774382,0.000026788037,0.00007030303,0.00010750964,0.000017849496],"category_scores_gemma":[0.0004123831,0.00011315056,0.00002266589,0.0004399531,0.00009071857,0.000098263816,0.000023693116,0.0001742987,0.000016280777],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.005330449,0.0006750193,0.28673267,0.00047783807,0.0000042491038,0.00032828172,0.02224518,0.0066039804,0.632848,0.0019056147,0.0031947393,0.03965394],"study_design_scores_gemma":[0.0011589116,0.00044486643,0.9957062,0.00008369716,0.0000013906131,0.000002966189,0.00007408309,0.0012780372,0.00018532839,0.0002575754,0.00067565695,0.00013131145],"about_ca_topic_score_codex":0.0008332214,"about_ca_topic_score_gemma":0.0016932053,"teacher_disagreement_score":0.7089735,"about_ca_system_score_codex":0.00014937347,"about_ca_system_score_gemma":0.000058912407,"threshold_uncertainty_score":0.4614146},"labels":[],"label_agreement":null},{"id":"W2164495629","doi":"10.1093/cercor/bhv155","title":"Accessing Real-Life Episodic Information from Minutes versus Hours Earlier Modulates Hippocampal and High-Order Cortical Dynamics","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":153,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Institute of Mental Health; National Institutes of Health","keywords":"Episodic memory; Hippocampal formation; Hippocampus; Default mode network; Psychology; Neuroscience; Conversation; Autobiographical memory; Cognitive psychology; Functional connectivity; Cognition; Communication","score_opus":0.07334665881039938,"score_gpt":0.295080768905503,"score_spread":0.22173411009510363,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164495629","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99587554,0.00002324726,0.0011014818,0.00037827724,0.0014750715,0.00020100878,0.00006154484,0.0001473941,0.0007364535],"genre_scores_gemma":[0.99817836,0.000023580284,0.00073747407,0.0007295163,0.0001325934,0.0000088658735,0.000067015346,0.00001985432,0.00010271543],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9983822,0.00014625536,0.0003431086,0.00037004394,0.00038718502,0.00037121045],"domain_scores_gemma":[0.99876785,0.00030512793,0.00015776863,0.00027761553,0.000070511465,0.00042114398],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013589689,0.00022762177,0.00025079752,0.00008678004,0.00021504506,0.00026593075,0.0002465593,0.00014843352,0.00011517466],"category_scores_gemma":[0.0009976892,0.00020244054,0.000038763614,0.00024211635,0.00016590038,0.0014247432,0.00016554467,0.0002834679,0.00014999264],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.008409299,0.0005552789,0.05375452,0.0001954562,0.00013686426,0.00026724095,0.005722205,0.0007066653,0.658624,0.06025308,0.0032845978,0.2080908],"study_design_scores_gemma":[0.012394922,0.0024396484,0.22994946,0.00014673766,0.000248523,0.000066963185,0.0020906923,0.37295362,0.3423371,0.035173595,0.00016842257,0.002030326],"about_ca_topic_score_codex":0.00016484715,"about_ca_topic_score_gemma":0.000051220635,"teacher_disagreement_score":0.37224695,"about_ca_system_score_codex":0.000065961874,"about_ca_system_score_gemma":0.000095366,"threshold_uncertainty_score":0.82552856},"labels":[],"label_agreement":null},{"id":"W2164638162","doi":"10.1093/cercor/bhq111","title":"Sex- and Brain Size–Related Small-World Structural Cortical Networks in Young Adults: A DTI Tractography Study","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":256,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Precuneus; Tractography; Human brain; Diffusion MRI; Neuroscience; Connectome; Cerebral cortex; Cortex (anatomy); Psychology; Centrality; Brain mapping; Gyrus; Precentral gyrus; Cognition; Biology; Functional connectivity; Medicine; Magnetic resonance imaging","score_opus":0.013970566225502641,"score_gpt":0.2484073529658404,"score_spread":0.23443678674033777,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164638162","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99543035,0.000029831765,0.000015258589,0.0010981768,0.001197202,0.0008068982,0.000013083049,0.00016897281,0.0012402176],"genre_scores_gemma":[0.9979677,0.000003242787,0.000052499654,0.0012163151,0.00014269844,0.00004969573,0.0000028630259,0.000036900015,0.00052808394],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99735606,0.0003036076,0.00045459904,0.0009918703,0.00032475177,0.00056911627],"domain_scores_gemma":[0.9934588,0.0058350614,0.00011933634,0.00036169912,0.00004791064,0.00017715672],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00037015247,0.0003398466,0.0004157167,0.00022772759,0.00035101024,0.00012175712,0.00026319432,0.00013727427,0.00014927438],"category_scores_gemma":[0.004396601,0.00030823142,0.00009945005,0.001014416,0.00041598218,0.0002659252,0.00021361513,0.0013903335,0.00000970169],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":true,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027375226,0.00025135392,0.9815469,0.00001237516,0.0000348279,0.00009523022,0.0016086708,0.000029093886,0.012178173,0.0013519675,0.00026277042,0.0023549094],"study_design_scores_gemma":[0.0022228393,0.0003808049,0.98569125,0.000017269564,0.000022934595,0.00009973701,0.0006851622,0.009210191,0.00030929132,0.00090234884,0.00008407159,0.00037408277],"about_ca_topic_score_codex":0.00035739143,"about_ca_topic_score_gemma":0.030501522,"teacher_disagreement_score":0.03014413,"about_ca_system_score_codex":0.000031505402,"about_ca_system_score_gemma":0.000032363052,"threshold_uncertainty_score":0.999937},"labels":[],"label_agreement":null},{"id":"W2164860974","doi":"10.1093/cercor/bhi132","title":"Dendritic Plasticity in the Adult Rat Following Middle Cerebral Artery Occlusion and Nogo-A Neutralization","year":2005,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":132,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"National Institute of Neurological Disorders and Stroke; U.S. Department of Veterans Affairs; National Institutes of Health; National Science Foundation","keywords":"Dendritic spine; Lesion; Neuroscience; Axon; Neuroplasticity; Cortex (anatomy); Sprouting; Biology; Cerebral cortex; Medicine; Pathology","score_opus":0.04136799693855555,"score_gpt":0.30287198585114067,"score_spread":0.26150398891258514,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164860974","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99678516,0.000017810462,0.00003993913,0.0016991062,0.0004938467,0.00041411052,0.0000051934276,0.00005771582,0.0004871169],"genre_scores_gemma":[0.9912888,0.000044948094,0.000014763831,0.008192238,0.00013915778,0.000020272053,0.0000011330048,0.000018601733,0.00028012635],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975634,0.0004333141,0.0002856404,0.0006437534,0.00047087987,0.0006029611],"domain_scores_gemma":[0.99910736,0.00047830306,0.000057824152,0.00020116473,0.000026309084,0.00012902141],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001895276,0.00019564007,0.0001831697,0.00017631837,0.0004910365,0.00017066492,0.00048870145,0.00007572942,0.000065365275],"category_scores_gemma":[0.0004285534,0.00014872824,0.00007240353,0.0006358903,0.0002597007,0.00066556816,0.00018125112,0.00044830082,0.00009229215],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007003188,0.00017263107,0.022692584,0.000020979,0.0000013271832,0.00040395831,0.0006613608,0.00004683796,0.97369415,0.0009991572,0.0005198215,0.0007171816],"study_design_scores_gemma":[0.0040776404,0.0007234916,0.15512095,0.00010520657,0.000052471492,0.0010485572,0.0003938752,0.04099665,0.79488087,0.0006854804,0.0011684734,0.00074636476],"about_ca_topic_score_codex":0.000012928389,"about_ca_topic_score_gemma":0.00010126125,"teacher_disagreement_score":0.1788133,"about_ca_system_score_codex":0.0000371162,"about_ca_system_score_gemma":0.000051650357,"threshold_uncertainty_score":0.60649616},"labels":[],"label_agreement":null},{"id":"W2164861154","doi":"10.1093/cercor/bhr385","title":"Attentional Modulation of Primary Interoceptive and Exteroceptive Cortices","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Psychosomatic Disorders and Their Treatments","field":"Medicine","cited_by":242,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health; Baycrest Hospital","funders":"National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"Neuroscience; Psychology; Modulation (music); Cognitive psychology; Art","score_opus":0.02156917398327767,"score_gpt":0.2722652995705306,"score_spread":0.2506961255872529,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2164861154","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98744327,0.0003861886,0.00041296025,0.000060799437,0.00011699589,0.00019409622,0.00000927658,0.000016213351,0.011360222],"genre_scores_gemma":[0.9983706,0.000019055335,0.00071110047,0.00014774755,0.000053839405,0.000009254404,0.00005486335,0.000009380418,0.00062416476],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9994276,0.00001323144,0.00016927558,0.000114892406,0.0001402355,0.00013473764],"domain_scores_gemma":[0.9996459,0.000019393983,0.00010152068,0.00009342883,0.00005047879,0.00008928532],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00004226806,0.000092369926,0.00019592022,0.000048901034,0.000026929421,0.0000046558744,0.000024824169,0.00003817392,0.0002812071],"category_scores_gemma":[0.000009530875,0.000072482435,0.000049112456,0.00005666213,0.00007564892,0.0001818649,0.000024260884,0.00004348759,0.000022524639],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019396383,0.00054130243,0.97680527,0.00013402797,0.00018319189,9.4746923e-7,0.0014021194,1.4429239e-7,0.008054556,0.0008826687,0.0002445005,0.011557309],"study_design_scores_gemma":[0.0012051049,0.00020975838,0.99678993,0.00016567827,0.000071742135,0.000019290825,0.00044479658,0.000111363246,0.00017847806,0.00067357096,0.00006885564,0.00006141462],"about_ca_topic_score_codex":0.000008686866,"about_ca_topic_score_gemma":0.0000016183834,"teacher_disagreement_score":0.019984677,"about_ca_system_score_codex":0.000027787539,"about_ca_system_score_gemma":0.000012193629,"threshold_uncertainty_score":0.30790204},"labels":[],"label_agreement":null},{"id":"W2165116388","doi":"10.1093/cercor/bhr392","title":"Polysialylated NCAM and EphrinA/EphA Regulate Synaptic Development of GABAergic Interneurons in Prefrontal Cortex","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Axon Guidance and Neuronal Signaling","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Institute on Deafness and Other Communication Disorders; National Institute of Mental Health","keywords":"Neuroscience; GABAergic; Inhibitory postsynaptic potential; Neural cell adhesion molecule; Biology; Prefrontal cortex; Interneuron; Excitatory postsynaptic potential; Axon; Neuropil; Central nervous system; Cell adhesion","score_opus":0.030998698610492544,"score_gpt":0.26375269603541296,"score_spread":0.23275399742492042,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2165116388","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9979046,0.000245864,0.00006853876,0.000027194154,0.0003107786,0.00025933603,0.0000055127657,0.00005702348,0.0011211708],"genre_scores_gemma":[0.9991721,0.000023488843,0.0001839197,0.00022767989,0.000055749075,0.000013647653,0.0000035281844,0.000031345535,0.0002885569],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998015,0.000115149254,0.0005598817,0.00044927394,0.00029092876,0.00056978007],"domain_scores_gemma":[0.99924475,0.000109803164,0.0002047917,0.00022855279,0.000020426793,0.0001916843],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001747379,0.00024406903,0.00033180483,0.00016621577,0.0000991882,0.000022619874,0.00025159525,0.00008637148,0.00015082874],"category_scores_gemma":[0.000100777695,0.00022923441,0.000061616214,0.00030464772,0.0001731963,0.00037980286,0.00022937584,0.00024329302,0.00005607725],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013238253,0.00015973179,0.022797957,0.000039874085,0.00001297143,0.000029537492,0.0009996135,0.000006055799,0.97237223,0.00061480765,0.000023146926,0.0028116961],"study_design_scores_gemma":[0.00074835896,0.00013904274,0.6829889,0.00009775966,0.000019102808,0.00010204986,0.000100190875,0.0007053198,0.31433427,0.00007807579,0.00038001177,0.00030692606],"about_ca_topic_score_codex":0.000025248282,"about_ca_topic_score_gemma":0.000025143167,"teacher_disagreement_score":0.66019094,"about_ca_system_score_codex":0.000063319,"about_ca_system_score_gemma":0.00006742021,"threshold_uncertainty_score":0.93479085},"labels":[],"label_agreement":null},{"id":"W2165765118","doi":"10.1093/cercor/bhu225","title":"Synaptic Basis for Cross-modal Plasticity: Enhanced Supragranular Dendritic Spine Density in Anterior Ectosylvian Auditory Cortex of the Early Deaf Cat","year":2014,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing, Cochlea, Tinnitus, Genetics","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research; Virginia Commonwealth University","keywords":"Dendritic spine; Neuroscience; Auditory cortex; Visual cortex; Biology; Cortex (anatomy); Anatomy; Sulcus; Psychology; Hippocampal formation","score_opus":0.014946625072443376,"score_gpt":0.2610813087556342,"score_spread":0.2461346836831908,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2165765118","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9933436,0.000017266391,0.004011885,0.0000902722,0.0013889885,0.00085934164,0.000055318225,0.0000772078,0.00015615406],"genre_scores_gemma":[0.998456,0.00000825044,0.00043427615,0.000485011,0.00026566646,0.00004303865,0.0000028565762,0.00006968877,0.00023518897],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9966748,0.000283962,0.00078283815,0.00086759287,0.00053426326,0.0008565613],"domain_scores_gemma":[0.9979992,0.00053732895,0.00032683276,0.0007623397,0.00018549938,0.000188814],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00036470903,0.0003720318,0.00061903853,0.00017842728,0.00029907472,0.00010698161,0.0008277272,0.00022743236,0.00006609852],"category_scores_gemma":[0.0040190723,0.0003333469,0.00024570082,0.00046778578,0.0006212834,0.00018375412,0.00031401822,0.00035906016,0.00005653653],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011083255,0.00011173838,0.04138817,0.00016249243,0.0000138383775,0.0000099545905,0.00030598755,0.00006226609,0.9569158,0.00022083665,0.00003683427,0.00066126784],"study_design_scores_gemma":[0.00093130954,0.00035781867,0.5803696,0.0001508266,0.000038646678,0.000023313698,0.000018951805,0.0042014397,0.4133035,0.00020952686,0.00011665713,0.00027841525],"about_ca_topic_score_codex":0.00025659933,"about_ca_topic_score_gemma":0.0010535667,"teacher_disagreement_score":0.5436123,"about_ca_system_score_codex":0.00016706732,"about_ca_system_score_gemma":0.00022432469,"threshold_uncertainty_score":0.99991184},"labels":[],"label_agreement":null},{"id":"W2165852077","doi":"10.1093/cercor/11.2.122","title":"Development of Cytochrome Oxidase Blobs in Visual Cortex of Normal and Visually Deprived Cats","year":2001,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"","keywords":"Visual cortex; Kitten; Monocular deprivation; CATS; Neuroscience; Cytochrome c oxidase; Cortex (anatomy); Biology; Ocular dominance; Medicine; Cell biology; Mitochondrion","score_opus":0.044263491014333085,"score_gpt":0.3437469538016007,"score_spread":0.2994834627872676,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2165852077","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99902403,0.000022708384,0.000017591768,0.00004439241,0.00011081032,0.0003623511,0.000006267485,0.000025582252,0.00038624386],"genre_scores_gemma":[0.9992127,0.00009900841,0.00008803407,0.00032796152,0.000017121742,0.000016889497,8.966106e-7,0.00001796527,0.000219469],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99768776,0.00016324528,0.000545097,0.0005881987,0.00048626118,0.00052944204],"domain_scores_gemma":[0.99919826,0.00019117049,0.00017337143,0.0001885514,0.000060370287,0.00018825581],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025545043,0.000189728,0.0003359289,0.00032458955,0.00012450371,0.00002005736,0.00040742225,0.000073660245,0.0001586056],"category_scores_gemma":[0.00021810562,0.00017970035,0.00004553145,0.00077870215,0.0005650215,0.00026643806,0.0003349984,0.00027020858,0.000024811303],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002121488,0.00031757285,0.032360326,0.000030293859,0.000002502826,0.00024747133,0.00031205537,0.0000018249137,0.96336985,0.000057222733,0.000011059893,0.0030776474],"study_design_scores_gemma":[0.00082091795,0.00023990776,0.39150125,0.000015610576,0.000004076701,0.0000775384,0.000033450662,0.00040462942,0.60666096,0.000013005432,0.00011353585,0.00011513803],"about_ca_topic_score_codex":0.000015699312,"about_ca_topic_score_gemma":0.00004354811,"teacher_disagreement_score":0.3591409,"about_ca_system_score_codex":0.000031174368,"about_ca_system_score_gemma":0.00027709434,"threshold_uncertainty_score":0.7327967},"labels":[],"label_agreement":null},{"id":"W2165865127","doi":"10.1093/cercor/bhv015","title":"Phosphene Perception Relates to Visual Cortex Glutamate Levels and Covaries with Atypical Visuospatial Awareness","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Douglas Mental Health University Institute; McGill University","funders":"Wellcome Trust; Cogito Foundation","keywords":"Phosphene; Visual cortex; Neuroscience; Psychology; Neurochemical; Blindsight; Transcranial magnetic stimulation; Occipital lobe; Visual perception; Synesthesia; Retinotopy; Temporal cortex; Perception; Stimulation","score_opus":0.12142145337947217,"score_gpt":0.3016281059841464,"score_spread":0.18020665260467422,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2165865127","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966114,0.000024174824,0.0013857863,0.00035040063,0.0004824156,0.00028711624,0.00002355858,0.00019253432,0.00064260577],"genre_scores_gemma":[0.9963403,0.000005081691,0.00016597257,0.00074079225,0.0001467612,0.000018510982,0.0000061727783,0.000029248977,0.0025471807],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9982425,0.00012485494,0.00025831218,0.0006235301,0.0003902229,0.000360588],"domain_scores_gemma":[0.9991564,0.00011551372,0.000088399705,0.00018784162,0.00013435709,0.00031744628],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011865172,0.00027016585,0.0003257036,0.000064931024,0.00042382642,0.00013488883,0.000115411916,0.000101308586,0.00035938225],"category_scores_gemma":[0.00027738226,0.00020911307,0.00003991958,0.0002628864,0.00031967138,0.00036484664,0.00013675333,0.00019306452,0.00043508326],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.013561455,0.0007752874,0.39700314,0.00015967578,0.00015424656,0.00028086294,0.016108816,0.0005216177,0.53833264,0.007265612,0.0060435827,0.019793043],"study_design_scores_gemma":[0.001720968,0.0016110615,0.9716135,0.00004181167,0.000056435383,0.00012773718,0.0014553515,0.0011781984,0.0153115345,0.00032417284,0.005977497,0.0005816825],"about_ca_topic_score_codex":0.000036462952,"about_ca_topic_score_gemma":0.000045577086,"teacher_disagreement_score":0.5746104,"about_ca_system_score_codex":0.00006355439,"about_ca_system_score_gemma":0.00008604474,"threshold_uncertainty_score":0.8527384},"labels":[],"label_agreement":null},{"id":"W2165981171","doi":"10.1093/cercor/bhj168","title":"A Role for Proneural Genes in the Maturation of Cortical Progenitor Cells","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurogenesis and neuroplasticity mechanisms","field":"Neuroscience","cited_by":173,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Canadian Institutes of Health Research; Medical Research Council; Centre National de la Recherche Scientifique; Association pour la Recherche sur le Cancer; Alberta Heritage Foundation for Medical Research; Fondation pour la Recherche Médicale; Institut National de la Santé et de la Recherche Médicale; University of Calgary","keywords":"Progenitor cell; Biology; Neocortex; Corticogenesis; Progenitor; Psychological repression; Subventricular zone; Cell biology; Proneural genes; Neuroscience; Gene; Stem cell; Genetics; Gene expression","score_opus":0.02220693417453977,"score_gpt":0.2463703854329391,"score_spread":0.22416345125839932,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2165981171","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983332,0.000018902783,0.00024142169,0.00009613254,0.00023670877,0.00087271375,0.000027647236,0.000028691622,0.0001445916],"genre_scores_gemma":[0.99922115,0.0000026368252,0.0001530757,0.00028066002,0.00013508376,0.000098215576,0.0000035010123,0.00001833633,0.00008732981],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99874336,0.00014953928,0.00029768515,0.0003057946,0.00024931497,0.00025428555],"domain_scores_gemma":[0.9993838,0.0002758479,0.00010282302,0.0001800787,0.000030092531,0.000027351673],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009920779,0.0001253562,0.00014862072,0.00005232303,0.00009636873,0.000042166248,0.00023997632,0.000044661785,0.000013335947],"category_scores_gemma":[0.00008056806,0.00008755888,0.00008069187,0.00019837977,0.00006507798,0.000094426425,0.000030792104,0.000098477096,0.000011942127],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010157891,0.00014429225,0.00024770957,0.00002050619,5.47412e-7,0.0000070347332,0.000033196335,0.000018758536,0.991689,0.00739791,0.000084817075,0.00025461477],"study_design_scores_gemma":[0.00034209486,0.0002434771,0.011382536,0.0000048920697,0.000012010545,0.00002761591,0.000029197156,0.0033631425,0.9836831,0.0005529786,0.00026604798,0.000092874085],"about_ca_topic_score_codex":0.000010758179,"about_ca_topic_score_gemma":0.000020994834,"teacher_disagreement_score":0.011134826,"about_ca_system_score_codex":0.000009072696,"about_ca_system_score_gemma":0.000028095152,"threshold_uncertainty_score":0.35705474},"labels":[],"label_agreement":null},{"id":"W2166110255","doi":"10.1093/cercor/bhv138","title":"Dissociation of Neural Networks for Predisposition and for Training-Related Plasticity in Auditory-Motor Learning","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":118,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; International Laboratory for Brain, Music and Sound Research; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Deutsche Forschungsgemeinschaft","keywords":"Psychology; Motor learning; Dissociation (chemistry); Perceptual learning; Neuroscience; Cognitive psychology; Perception; Neuroplasticity; Neural correlates of consciousness; Motor skill; Stimulus (psychology); Audiology; Cognition; Medicine","score_opus":0.05631042930750086,"score_gpt":0.292803048703937,"score_spread":0.23649261939643612,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2166110255","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9927437,0.0000024622818,0.0058300877,0.0000753953,0.00071135076,0.0005220435,0.000020865815,0.000035906298,0.00005822356],"genre_scores_gemma":[0.9994732,0.0000025112345,0.000054640477,0.00010167363,0.00015594301,0.000051032643,0.000014072821,0.000010479395,0.00013646192],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9991022,0.00005873342,0.00021098844,0.00028132205,0.00012932559,0.00021748012],"domain_scores_gemma":[0.9994745,0.00021956042,0.00014544616,0.000045538098,0.000042693326,0.00007222405],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001756915,0.00008580327,0.00014163386,0.0000659325,0.00009927641,0.0000260296,0.00007176811,0.000075638396,0.00000337991],"category_scores_gemma":[0.00094459474,0.00008419047,0.000040539635,0.00014794624,0.000087307424,0.00028907912,0.000020373558,0.000109579254,4.519291e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005272177,0.00010142525,0.0050472193,0.00004493293,0.000002381586,0.000001523962,0.0032421944,0.006847203,0.97222346,0.0009084761,0.00042730503,0.01062666],"study_design_scores_gemma":[0.00175701,0.0009578983,0.1786005,0.000027445325,0.000016824437,0.0000055730525,0.00028983527,0.81516796,0.0021241144,0.00079812366,0.00011234146,0.00014235452],"about_ca_topic_score_codex":0.0000074175305,"about_ca_topic_score_gemma":0.000015487227,"teacher_disagreement_score":0.97009933,"about_ca_system_score_codex":0.000044465247,"about_ca_system_score_gemma":0.000031637934,"threshold_uncertainty_score":0.3433188},"labels":[],"label_agreement":null},{"id":"W2166377545","doi":"10.1093/cercor/bhs329","title":"Neuroimaging Evidence of the Anatomo-Functional Organization of the Human Cingulate Motor Areas","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":212,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Cingulate cortex; Neuroscience; Human brain; Motor cortex; Sulcus; Anterior cingulate cortex; Functional magnetic resonance imaging; Supplementary motor area; Psychology; Motor area; Central nervous system; Cognition; Stimulation","score_opus":0.04036769229985568,"score_gpt":0.2573982199105385,"score_spread":0.21703052761068284,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2166377545","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982893,0.000034599732,0.00027500742,0.00031144999,0.00061514584,0.0002035483,0.0000042797396,0.000019333089,0.00024734135],"genre_scores_gemma":[0.99912363,0.0000019281144,0.000008137765,0.0003309726,0.000100841506,0.000002274255,6.3731824e-7,0.000011427498,0.00042015564],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9990465,0.00012972039,0.00020958045,0.00014731893,0.00032249145,0.00014438428],"domain_scores_gemma":[0.99924284,0.00009522859,0.00024968915,0.00028071075,0.00009759692,0.00003391818],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011780151,0.00008093349,0.00009280539,0.000030164132,0.0002003834,0.000015267477,0.00026368763,0.000024439696,0.00013394705],"category_scores_gemma":[0.0007105682,0.000048704238,0.00006682171,0.00039291944,0.000115868315,0.0003049115,0.00009917682,0.00009880274,0.000005847766],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000004560736,0.000022824916,0.18565425,0.00001374223,0.0000016412469,8.86011e-8,0.00012532002,0.000037523037,0.80963427,0.004284948,0.000027849597,0.00019299201],"study_design_scores_gemma":[0.00013093461,0.000011662935,0.8935584,0.00004544816,0.000015662594,0.0000060346115,0.000013733785,0.000846475,0.1050603,0.00021747878,0.00004646458,0.00004739409],"about_ca_topic_score_codex":0.000037559505,"about_ca_topic_score_gemma":0.0000041653293,"teacher_disagreement_score":0.70790416,"about_ca_system_score_codex":0.000020729134,"about_ca_system_score_gemma":0.000038260237,"threshold_uncertainty_score":0.19861013},"labels":[],"label_agreement":null},{"id":"W2166865738","doi":"10.1093/cercor/bht259","title":"Physiological Correspondence Dictates Cortical Long-Term Potentiation and Depression by Thalamic Induction","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Alberta Innovates","keywords":"Neuroscience; Long-term potentiation; Thalamus; Auditory cortex; Excitatory postsynaptic potential; LTP induction; Long-term depression; Neuroplasticity; Cortex (anatomy); Receptive field; Postsynaptic potential; Biology; Inhibitory postsynaptic potential; Glutamate receptor; Receptor","score_opus":0.019978747236358507,"score_gpt":0.24593916949809816,"score_spread":0.22596042226173965,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2166865738","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980477,0.000034686556,0.00059289974,0.00021987245,0.0005836858,0.0003110804,0.0000071141912,0.00010704237,0.00009588456],"genre_scores_gemma":[0.9985512,0.000058797472,0.00001588129,0.00052859745,0.00008373007,0.000027264941,0.00003450694,0.00001353768,0.000686498],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986603,0.00013577947,0.0002002741,0.0005173861,0.00022312565,0.00026311487],"domain_scores_gemma":[0.9994645,0.000114854665,0.000103154096,0.00016158631,0.000042338634,0.00011352595],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005545807,0.00015945992,0.00014050168,0.00004923179,0.00023935548,0.00013243983,0.00012620923,0.00011441832,0.0003246959],"category_scores_gemma":[0.00025344838,0.00012035394,0.000041191746,0.00015327247,0.00015540559,0.00054740615,0.00010313724,0.00025719832,0.00014797892],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000028884311,0.000053052987,0.049288474,0.000007755572,0.000001668437,0.0000041721614,0.000014781812,0.0000028672482,0.9396538,0.00012603308,0.0009839897,0.009834531],"study_design_scores_gemma":[0.00026713635,0.00015529183,0.94034827,0.000016627866,0.000009513656,0.000049540686,0.000012185097,0.0117539205,0.04611152,0.0011053453,0.00000875423,0.00016189415],"about_ca_topic_score_codex":0.00002651723,"about_ca_topic_score_gemma":0.0000022841114,"teacher_disagreement_score":0.8935423,"about_ca_system_score_codex":0.00002679033,"about_ca_system_score_gemma":0.000009134021,"threshold_uncertainty_score":0.49078915},"labels":[],"label_agreement":null},{"id":"W2167240821","doi":"10.1093/cercor/bhq280","title":"Alterations in Corticolimbic Dendritic Morphology and Emotional Behavior in Cannabinoid CB1 Receptor-Deficient Mice Parallel the Effects of Chronic Stress","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cannabis and Cannabinoid Research","field":"Medicine","cited_by":127,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Drug Abuse; National Institute of Mental Health; Canadian Institutes of Health Research","keywords":"Basolateral amygdala; Amygdala; Cannabinoid receptor; Prefrontal cortex; Chronic stress; Dendritic spine; Receptor; Cannabinoid; Endocrinology; Nucleus accumbens; Internal medicine; Elevated plus maze; Extended amygdala; Endocannabinoid system; Biology; Neuroscience; Psychology; Medicine; Anxiety; Hippocampal formation; Agonist; Stria terminalis","score_opus":0.017020077089745365,"score_gpt":0.2731600007195984,"score_spread":0.25613992362985305,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2167240821","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99626213,0.0012700127,0.000013096701,0.0008916172,0.00023361483,0.0010615075,0.000022802842,0.000011099132,0.00023409752],"genre_scores_gemma":[0.9978968,0.00010032037,0.000046179466,0.00013909009,0.00005728433,0.00032418937,0.000036780548,0.000018565182,0.0013808166],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985062,0.00012519018,0.00038519106,0.00031388822,0.0002625848,0.00040692813],"domain_scores_gemma":[0.9993833,0.000030308234,0.000075015414,0.00026875234,0.000111295674,0.0001313348],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015839533,0.00015063919,0.0002982973,0.0002225402,0.00006602812,0.000013570399,0.00013205837,0.000106560896,0.00037500233],"category_scores_gemma":[0.000114224335,0.00011769353,0.000066052446,0.0003054048,0.00032701337,0.000060611943,0.00008513288,0.0003661598,0.00001071244],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006221313,0.003399902,0.8255041,0.0013239365,0.00005999375,0.00051757204,0.0036312225,0.000029416397,0.14916383,0.0044478965,0.0060942317,0.0052057323],"study_design_scores_gemma":[0.0019580578,0.001005767,0.99144363,0.00018658474,0.00004377472,0.000115091854,0.00031024104,0.00029335954,0.004381933,0.00004635073,0.00009900377,0.000116176285],"about_ca_topic_score_codex":0.0019910575,"about_ca_topic_score_gemma":0.003067852,"teacher_disagreement_score":0.16593952,"about_ca_system_score_codex":0.00020799054,"about_ca_system_score_gemma":0.00033812074,"threshold_uncertainty_score":0.4799403},"labels":[],"label_agreement":null},{"id":"W2167640896","doi":"10.1093/cercor/11.10.946","title":"Spectral and Temporal Processing in Human Auditory Cortex","year":2001,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":1287,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Temporal cortex; Auditory cortex; Psychology; Neuroscience; Lateralization of brain function; Cortex (anatomy); Temporal lobe; Stimulus (psychology); Human brain; Audiology; Cognitive psychology; Medicine","score_opus":0.029083357787165125,"score_gpt":0.2905928499747187,"score_spread":0.26150949218755354,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2167640896","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948675,0.00003537882,0.000025426125,0.00021071502,0.0002050217,0.00016791296,0.0000011923478,0.000074037416,0.004412821],"genre_scores_gemma":[0.99857926,0.000007081361,0.00010091719,0.00018390139,0.00020045749,0.0000075517237,0.0000018303064,0.00001528257,0.00090373977],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988933,0.000060227285,0.00021927555,0.00037739828,0.00016738339,0.0002824193],"domain_scores_gemma":[0.9996763,0.000033846092,0.00005823498,0.00012698007,0.000015249826,0.00008941515],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013219987,0.000114419665,0.00014110812,0.00010222168,0.0001787833,0.00007261835,0.00009670232,0.00006663066,0.00007899237],"category_scores_gemma":[0.00009114924,0.000103080834,0.000028891554,0.00023256076,0.00017388882,0.0002631042,0.000037163187,0.00019270024,0.00001933458],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020579491,0.00009601446,0.25933605,0.000049981714,5.77142e-7,0.00006454039,0.0006155535,0.0000046479045,0.72910357,0.0010435187,0.00014867866,0.0095163165],"study_design_scores_gemma":[0.00040120806,0.00011940266,0.9945804,0.000042351603,0.0000023413875,0.00003363409,0.00009335613,0.0008705382,0.0013378331,0.0016784559,0.00069229904,0.00014818145],"about_ca_topic_score_codex":0.00011147488,"about_ca_topic_score_gemma":0.000058180918,"teacher_disagreement_score":0.73524433,"about_ca_system_score_codex":0.000052981777,"about_ca_system_score_gemma":0.00004624184,"threshold_uncertainty_score":0.42035142},"labels":[],"label_agreement":null},{"id":"W2167832395","doi":"10.1093/cercor/bhj154","title":"Subjects with Congenital Anosmia Have Larger Peripheral but Similar Central Trigeminal Responses","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Anosmia; Trigeminal nerve; Neuroscience; Olfactory system; Sensory system; Medicine; Electrophysiology; Peripheral; Olfaction; Trigeminal ganglion; Psychology; Anesthesia; Internal medicine","score_opus":0.052104874775857055,"score_gpt":0.24463406450488207,"score_spread":0.192529189729025,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2167832395","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.988633,0.000103523926,0.00007352066,0.00020952623,0.0005437636,0.0002519842,0.0001170909,0.00018496545,0.009882656],"genre_scores_gemma":[0.9694065,0.000005804934,0.000055738896,0.00068454625,0.00035359908,0.0000132023115,0.000010715659,0.000032346605,0.029437585],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99784875,0.00020062938,0.0002709138,0.0006016322,0.00040662885,0.00067147554],"domain_scores_gemma":[0.9992203,0.00019256506,0.000107900596,0.00026715352,0.00007605525,0.00013598782],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000074143856,0.00031015833,0.0002927245,0.00008693787,0.00052288617,0.000121238016,0.00016621778,0.000092262875,0.0007576377],"category_scores_gemma":[0.00015032319,0.00023997364,0.00011874862,0.00019666096,0.0003917611,0.00031560744,0.000049346574,0.0002663407,0.00009519155],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.006484617,0.0005573254,0.440978,0.00004426996,0.00009238911,0.0015296562,0.0011154262,0.00014620913,0.5303793,0.0026410206,0.015386557,0.0006452453],"study_design_scores_gemma":[0.0026428644,0.00086511596,0.77272755,0.000016992297,0.00008903434,0.0003362595,0.0011238038,0.00029071697,0.18758872,0.00019456979,0.033299778,0.00082460797],"about_ca_topic_score_codex":0.0000593971,"about_ca_topic_score_gemma":0.00021272521,"teacher_disagreement_score":0.34279057,"about_ca_system_score_codex":0.00007603726,"about_ca_system_score_gemma":0.00009611319,"threshold_uncertainty_score":0.9785841},"labels":[],"label_agreement":null},{"id":"W2168578366","doi":"10.1093/cercor/bhq003","title":"Estrogen Promotes Stress Sensitivity in a Prefrontal Cortex-Amygdala Pathway","year":2010,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":193,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Public Health Ontario; University of Toronto","funders":"National Institute of Mental Health","keywords":"Prefrontal cortex; Ovariectomized rat; Basolateral amygdala; Dendritic spine; Amygdala; Estrogen; Endocrinology; Internal medicine; Chemistry; Nucleus; Neuroscience; Biology; Medicine; Hippocampal formation","score_opus":0.016690288548520563,"score_gpt":0.25105567553303637,"score_spread":0.2343653869845158,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2168578366","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962911,0.00002876986,0.000020817453,0.000096578406,0.00046911178,0.00050027505,0.00016233341,0.00014897257,0.0022820204],"genre_scores_gemma":[0.9987687,0.000011363726,0.0001050489,0.00019085823,0.00012998791,0.000044537428,0.000010700745,0.000038866518,0.00069992075],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977294,0.00016670719,0.00034005896,0.0007614122,0.00038243367,0.0006199428],"domain_scores_gemma":[0.99886435,0.00019843159,0.00014143148,0.0005452019,0.000036261717,0.000214328],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00006909117,0.0002907271,0.00031035635,0.00012130795,0.00014307168,0.00011520634,0.00030123492,0.00017013632,0.0002651797],"category_scores_gemma":[0.0004009274,0.0002671621,0.0001259696,0.00029458987,0.00021152956,0.0002769903,0.00019595805,0.0006260308,0.00013784016],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014414814,0.00021417945,0.10928458,0.000015452482,0.0000035006549,0.00049294607,0.00017306845,0.0000022936918,0.8680475,0.0023761503,0.000015656646,0.019230573],"study_design_scores_gemma":[0.00058372086,0.00016211816,0.6304724,0.000034001278,0.0000059631634,0.00018769539,0.000067090485,0.0017560131,0.3656824,0.0003131104,0.00042397185,0.00031149635],"about_ca_topic_score_codex":0.00035568234,"about_ca_topic_score_gemma":0.0031476582,"teacher_disagreement_score":0.52118784,"about_ca_system_score_codex":0.00003760444,"about_ca_system_score_gemma":0.00016766721,"threshold_uncertainty_score":0.99997807},"labels":[],"label_agreement":null},{"id":"W2168669280","doi":"10.1093/cercor/bhm153","title":"Cortical Steady-State Responses to Central and Peripheral Auditory Beats","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":120,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"","keywords":"Dichotic listening; Stimulus (psychology); Magnetoencephalography; Audiology; Beat (acoustics); Stimulus onset asynchrony; Peripheral; Psychology; Neuroscience; Perception; Electroencephalography; Physics; Acoustics; Medicine","score_opus":0.03251456896903237,"score_gpt":0.2958988228666874,"score_spread":0.263384253897655,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2168669280","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99473083,0.0000041764088,0.0012198823,0.0002899657,0.0014484087,0.0002467782,0.000015203007,0.000115443865,0.0019293386],"genre_scores_gemma":[0.9907902,0.0000115164585,0.000095976226,0.0050489353,0.00030589759,0.000005264552,9.556093e-7,0.000017705144,0.0037235357],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9979808,0.000103043414,0.0002391727,0.0006078538,0.00036359834,0.0007055874],"domain_scores_gemma":[0.99908775,0.00015106234,0.000044572404,0.00023482504,0.00002447964,0.00045731087],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025414693,0.0001683653,0.00015213602,0.0001052761,0.00030023066,0.00010385944,0.00020190066,0.000053880365,0.0001629312],"category_scores_gemma":[0.0004368155,0.00015370936,0.000046345485,0.00025157566,0.0003053959,0.00030344323,0.00011728743,0.00022210761,0.000088171626],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028169528,0.00004798308,0.0031891493,0.0000053626263,6.7174153e-7,0.00010836678,0.00080443954,0.0000044832004,0.98642427,0.00040367173,0.0013422992,0.0073876367],"study_design_scores_gemma":[0.00037439933,0.00037764155,0.96502733,0.000013122527,0.0000063546554,0.0001116361,0.00014306758,0.00020688261,0.026393482,0.00016703569,0.0069178743,0.0002611521],"about_ca_topic_score_codex":0.00001651693,"about_ca_topic_score_gemma":0.000039903116,"teacher_disagreement_score":0.9618382,"about_ca_system_score_codex":0.00007509843,"about_ca_system_score_gemma":0.000065621454,"threshold_uncertainty_score":0.6268086},"labels":[],"label_agreement":null},{"id":"W2168961161","doi":"10.1093/cercor/bht261","title":"Capturing with EEG the Neural Entrainment and Coupling Underlying Sensorimotor Synchronization to the Beat","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":134,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; École de Technologie Supérieure; International Laboratory for Brain, Music and Sound Research","funders":"Canadian Institutes of Health Research","keywords":"Beat (acoustics); Entrainment (biomusicology); Rhythm; Electroencephalography; Sensory system; Neuroscience; Psychology; Communication; Speech recognition; Computer science; Physics; Acoustics","score_opus":0.023068180306670547,"score_gpt":0.2287433186258295,"score_spread":0.20567513831915896,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2168961161","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99156576,0.000018110408,0.0019337186,0.005171124,0.00030417857,0.0007562168,0.0000029849236,0.000053076637,0.00019483149],"genre_scores_gemma":[0.99689054,0.0000074204386,0.000037362137,0.0027124286,0.0000807885,0.000039176823,0.00000204709,0.00001885057,0.00021135608],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.99902827,0.000037588637,0.00012640157,0.00031487763,0.00022999916,0.00026284557],"domain_scores_gemma":[0.9994809,0.00014250787,0.00005815307,0.0002117152,0.000029259074,0.000077440316],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007969846,0.00013506459,0.00008461168,0.00002610842,0.00051124825,0.00027576214,0.00015183503,0.000025833502,0.000046767324],"category_scores_gemma":[0.00005784131,0.00006804806,0.000022452885,0.00017080498,0.00007827633,0.00018854381,0.00007899186,0.00015249335,0.00003353575],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011248824,0.00008103152,0.015736228,0.000082333376,0.000036113517,0.00003192887,0.002818375,0.024820026,0.9016212,0.007516478,0.0011928786,0.045950886],"study_design_scores_gemma":[0.00048160856,0.00032443943,0.13809125,0.000042935702,0.000033646418,0.00013292354,0.00079677755,0.85253376,0.006119617,0.0003808548,0.0007243342,0.00033785542],"about_ca_topic_score_codex":0.000098020086,"about_ca_topic_score_gemma":0.000044940385,"teacher_disagreement_score":0.8955016,"about_ca_system_score_codex":0.000050880924,"about_ca_system_score_gemma":0.000012822917,"threshold_uncertainty_score":0.39321598},"labels":[],"label_agreement":null},{"id":"W2169045420","doi":"10.1093/cercor/12.9.991","title":"Eye Position Signals Modulate Early Dorsal and Ventral Visual Areas","year":2002,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Eye movement; Computer vision; Position (finance); Orientation (vector space); Sulcus; Artificial intelligence; Psychology; Neuroscience; Visual system; Visual cortex; Communication; Computer science; Mathematics","score_opus":0.0381501497393716,"score_gpt":0.293569140034484,"score_spread":0.2554189902951124,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2169045420","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969892,0.000046890484,0.0006319805,0.0002730345,0.00023838626,0.00012705315,0.000009457397,0.00015405603,0.0015299488],"genre_scores_gemma":[0.996718,0.00001845144,0.000051133946,0.0012749385,0.000102201746,0.0000056735194,0.000004273926,0.000021547296,0.0018037892],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99878573,0.00008597381,0.00017709134,0.00039742736,0.00024683084,0.0003069539],"domain_scores_gemma":[0.9996369,0.000023093513,0.00006811811,0.000106810316,0.000024352412,0.00014075675],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00006726004,0.00015610315,0.0001403622,0.00007105073,0.00023878315,0.00018214404,0.00010842991,0.00008800455,0.0016521047],"category_scores_gemma":[0.000039273054,0.00014769434,0.000051095256,0.00016786091,0.000088130146,0.00034916497,0.00004250155,0.00015586724,0.0004818788],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004071443,0.00012235373,0.0009109815,0.000019418072,0.0000033119943,0.000032752374,0.00063448667,0.0000081865555,0.97989714,0.0009887835,0.00023943443,0.017102407],"study_design_scores_gemma":[0.0034177708,0.0026812193,0.31847346,0.0002077148,0.000092489405,0.00033133,0.00018508644,0.14769898,0.50880516,0.014990231,0.0014409395,0.0016756523],"about_ca_topic_score_codex":0.000010316946,"about_ca_topic_score_gemma":0.00000105616,"teacher_disagreement_score":0.47109202,"about_ca_system_score_codex":0.000023158353,"about_ca_system_score_gemma":0.000007642957,"threshold_uncertainty_score":0.99926054},"labels":[],"label_agreement":null},{"id":"W2169630858","doi":"10.1093/cercor/bhl132","title":"Hemispheric Specialization in Human Prefrontal Cortex for Resolving Certain and Uncertain Inferences","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":102,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"","keywords":"Prefrontal cortex; Inference; Right hemisphere; Psychology; Cognitive psychology; Lateralization of brain function; Left and right; Neuroscience; Cognition; Computer science; Artificial intelligence","score_opus":0.0877395922508093,"score_gpt":0.3499886068592089,"score_spread":0.2622490146083996,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2169630858","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959259,0.00008680892,0.000042164153,0.00021588567,0.00022399596,0.00042780992,0.000017111046,0.00006441744,0.0029958969],"genre_scores_gemma":[0.99755883,0.000012994214,0.00008791447,0.00023389723,0.000160769,0.000050734157,0.000017947608,0.000015395284,0.0018615032],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986172,0.000059850157,0.00030643816,0.00053907273,0.00013554031,0.00034191113],"domain_scores_gemma":[0.99961,0.0000849216,0.00010860489,0.00012703965,0.000025953304,0.000043446304],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007779149,0.00018601878,0.00022703274,0.00006348311,0.00027674323,0.000061485196,0.00015105889,0.00008185666,0.00007070191],"category_scores_gemma":[0.00006014191,0.00016112234,0.000044208213,0.00023213487,0.00022522968,0.00019554407,0.000068521644,0.00011906709,0.0000046449895],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006885596,0.00014035618,0.18869084,0.000028504253,0.000001904826,0.000022531909,0.00014947176,0.000007432245,0.8028532,0.0026799294,0.0014574027,0.0038995415],"study_design_scores_gemma":[0.0011508351,0.00030601237,0.96057004,0.000036860507,0.00001652596,0.00001619754,0.0001772562,0.00034841927,0.027886672,0.008140172,0.0010043172,0.00034672194],"about_ca_topic_score_codex":0.00047070344,"about_ca_topic_score_gemma":0.0018501607,"teacher_disagreement_score":0.77496654,"about_ca_system_score_codex":0.00004399151,"about_ca_system_score_gemma":0.00001303079,"threshold_uncertainty_score":0.6570378},"labels":[],"label_agreement":null},{"id":"W2169758145","doi":"10.1093/cercor/bht115","title":"The Right Anterior Intraparietal Sulcus Is Critical for Bimanual Grasping: A TMS Study","year":2013,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institutes of Health Research; The Scarborough Hospital; York University; Krembil Foundation; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Intraparietal sulcus; Transcranial magnetic stimulation; GRASP; Posterior parietal cortex; Psychology; Artificial intelligence; Computer science; Computer vision; Neuroscience; Stimulation","score_opus":0.025020880111547013,"score_gpt":0.2897003496194498,"score_spread":0.2646794695079028,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2169758145","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9905849,0.000064460066,0.002623634,0.0033806488,0.0007915059,0.0016968871,0.0000143545885,0.000095474454,0.0007481535],"genre_scores_gemma":[0.9972655,0.0000041423564,0.0000645356,0.0011708455,0.00020610237,0.00030796108,0.0000013115564,0.000018676166,0.00096091424],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985297,0.00009731384,0.00030126856,0.00042132972,0.0002278271,0.0004225688],"domain_scores_gemma":[0.9989663,0.00048751736,0.00006662899,0.0002662726,0.000091287046,0.00012201914],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013807208,0.0001634775,0.00018245306,0.000038487116,0.0005955598,0.0003734658,0.0003239658,0.000046645266,0.00024678372],"category_scores_gemma":[0.00062235125,0.000103125436,0.000112918984,0.00012366928,0.0002102372,0.00033048107,0.000060952258,0.0001390648,0.00018755316],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006035435,0.0015902648,0.004037719,0.00007679259,0.00007710367,0.000044231136,0.0034154048,0.0000024079707,0.791389,0.085763365,0.007925072,0.10507512],"study_design_scores_gemma":[0.009457711,0.0070509114,0.74693424,0.000076457276,0.00023797214,0.00011004158,0.0034337186,0.12951256,0.02443049,0.03906556,0.03798369,0.0017066433],"about_ca_topic_score_codex":0.00006029255,"about_ca_topic_score_gemma":0.000034393604,"teacher_disagreement_score":0.7669585,"about_ca_system_score_codex":0.000019118854,"about_ca_system_score_gemma":0.000034266726,"threshold_uncertainty_score":0.45806244},"labels":[],"label_agreement":null},{"id":"W2169878097","doi":"10.1093/cercor/bhs310","title":"Fetal Brain mTOR Signaling Activation in Tuberous Sclerosis Complex","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Tuberous Sclerosis Complex Research","field":"Medicine","cited_by":112,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Alberta Children's Hospital; University of Calgary","funders":"National Institute of Neurological Disorders and Stroke; National Institute of General Medical Sciences; National Institutes of Health; University of Pennsylvania; Perelman School of Medicine, University of Pennsylvania; Hersenstichting; Children's Hospital of Philadelphia; Congressionally Directed Medical Research Programs; Pfizer; U.S. Department of Defense","keywords":"mTORC2; mTORC1; TSC2; PI3K/AKT/mTOR pathway; Tuberous sclerosis; Biology; Cell biology; Protein kinase B; Cancer research; Neurogenesis; Signal transduction; Pathology; Medicine","score_opus":0.10795893802465209,"score_gpt":0.3214117807447763,"score_spread":0.2134528427201242,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2169878097","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99328125,0.000095519055,0.0004444673,0.0028457684,0.00015408896,0.000659823,0.0000074456298,0.00014359436,0.002368047],"genre_scores_gemma":[0.9955559,0.000003081838,0.0017643931,0.0014082739,0.00053065346,0.000047171874,0.00010952607,0.00006502721,0.0005160091],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9974243,0.00015785871,0.00044440728,0.00038482517,0.00064521004,0.00094342267],"domain_scores_gemma":[0.99864537,0.00023697269,0.000090459,0.0005097512,0.00011440686,0.0004030658],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00054080534,0.00025449056,0.00043838058,0.00031563084,0.0001353113,0.000053091502,0.00024028945,0.00015034727,0.0018365742],"category_scores_gemma":[0.00041391654,0.00024456021,0.00013405594,0.00062699604,0.00012890958,0.00042189064,0.00020851164,0.00050463923,0.00041861678],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021391289,0.00044818874,0.25525272,0.00007491347,0.000044305278,0.0000043577356,0.00048202943,0.0000051435645,0.71674913,0.00036763158,0.0067582605,0.019599376],"study_design_scores_gemma":[0.0021902323,0.00022011738,0.9787694,0.0001942029,0.000021755455,0.00004387336,0.00023957143,0.0010441634,0.015855875,0.00007792108,0.0010792332,0.00026364677],"about_ca_topic_score_codex":0.00044422428,"about_ca_topic_score_gemma":0.00006366781,"teacher_disagreement_score":0.7235167,"about_ca_system_score_codex":0.00040366215,"about_ca_system_score_gemma":0.00009492031,"threshold_uncertainty_score":0.9990759},"labels":[],"label_agreement":null},{"id":"W2170402577","doi":"10.1093/cercor/bhj125","title":"Multiparametric Changes in the Receptive Field of Cortical Auditory Neurons Induced by Thalamic Activation in the Mouse","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Fondation pour la Recherche Médicale; University of Calgary","keywords":"Neuroscience; Receptive field; Thalamus; Auditory cortex; Sensory system; Cortex (anatomy); Neuroplasticity; Stimulation; Psychology","score_opus":0.02688399047520869,"score_gpt":0.2637347930559929,"score_spread":0.23685080258078423,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2170402577","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99667156,0.0000036489855,0.000035277695,0.0018460825,0.00018695387,0.0004074608,0.000008005357,0.0000151754075,0.00082583056],"genre_scores_gemma":[0.99787724,0.0000067949895,0.0000042660445,0.0018624318,0.00008452246,0.00003381599,0.000009110922,0.000008790246,0.00011303384],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986537,0.00039158753,0.00020512225,0.00026505816,0.00027792322,0.00020657867],"domain_scores_gemma":[0.9983841,0.0012766486,0.000114273425,0.00019471874,0.000016755283,0.000013472135],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022111826,0.00011261928,0.00012115208,0.00014465062,0.0000758209,0.000032201177,0.00029873868,0.00008080388,0.000020646894],"category_scores_gemma":[0.00064612326,0.00006993567,0.000037549973,0.00082648906,0.00006511933,0.0001182079,0.000030706873,0.00043530005,0.0000058322125],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000042305448,0.0001940828,0.0027583474,0.0000057678863,6.7335253e-7,0.00000320673,0.00023805856,0.000020045365,0.9923809,0.0009272092,0.0017542744,0.0016751022],"study_design_scores_gemma":[0.0007944707,0.00069998525,0.7265866,0.000017847457,0.000009421292,0.000010385815,0.00056698854,0.0066926423,0.2632027,0.00086938293,0.00032541322,0.00022419759],"about_ca_topic_score_codex":0.00042010235,"about_ca_topic_score_gemma":0.00039101904,"teacher_disagreement_score":0.72917825,"about_ca_system_score_codex":0.000033453398,"about_ca_system_score_gemma":0.000014981082,"threshold_uncertainty_score":0.2851894},"labels":[],"label_agreement":null},{"id":"W2170552070","doi":"10.1093/cercor/bhr227","title":"How the Human Brain Goes Virtual: Distinct Cortical Regions of the Person-Processing Network Are Involved in Self-Identification with Virtual Agents","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":80,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Avatar; Psychology; Cognition; Cognitive psychology; Perspective (graphical); Neural correlates of consciousness; Neuroimaging; Identification (biology); Neuroscience; Computer science; Human–computer interaction","score_opus":0.07660211532323702,"score_gpt":0.2833496561301425,"score_spread":0.2067475408069055,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2170552070","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9905824,0.000022134414,0.005346588,0.0018996266,0.00039981824,0.00037601346,0.000005565971,0.000078728255,0.0012891471],"genre_scores_gemma":[0.9954051,0.0000011375462,0.00004099773,0.00050755625,0.00013063244,0.000039290873,0.0000350409,0.000027234222,0.0038130546],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99856573,0.00035251153,0.00030452205,0.000304912,0.00024107359,0.00023126866],"domain_scores_gemma":[0.9988308,0.00007648565,0.0004593124,0.00045001163,0.00013274697,0.0000506396],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027514243,0.00015205226,0.00016992033,0.000048361268,0.00041692812,0.00006422469,0.0003264502,0.000112622525,0.00028023732],"category_scores_gemma":[0.0000903756,0.000093533,0.00006171614,0.00054750754,0.0002431963,0.0002115626,0.000038925333,0.00028315274,0.000015352669],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005723686,0.00024401638,0.94912213,0.000015054692,0.000056087993,0.0000031997677,0.00978831,0.000023366123,0.00024416132,0.030310519,0.008747338,0.0013885599],"study_design_scores_gemma":[0.00051581935,0.000096820324,0.9872729,0.00004972469,0.000037474776,0.000004375492,0.009683484,0.0014009196,0.000035059926,0.00022996313,0.00055017485,0.00012328624],"about_ca_topic_score_codex":0.000085738466,"about_ca_topic_score_gemma":0.0010994928,"teacher_disagreement_score":0.03815075,"about_ca_system_score_codex":0.00007046921,"about_ca_system_score_gemma":0.000046129622,"threshold_uncertainty_score":0.3814165},"labels":[],"label_agreement":null},{"id":"W2170840429","doi":"10.1093/cercor/bhp058","title":"Cortical Mechanisms for Online Control of Hand Movement Trajectory: The Role of the Posterior Parietal Cortex","year":2009,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institutes of Health Research","keywords":"Trajectory; Movement (music); Posterior parietal cortex; Kinematics; Neuroscience; Computer science; Motor control; Position (finance); Artificial intelligence; Computer vision; Communication; Psychology; Physics","score_opus":0.015952173474321048,"score_gpt":0.23791525865145863,"score_spread":0.2219630851771376,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2170840429","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9895883,0.00007674076,0.007328582,0.0010129599,0.00028678234,0.0012486319,0.00026714607,0.000020086516,0.00017075795],"genre_scores_gemma":[0.9974523,0.0000022711558,0.000110920446,0.0021456494,0.00006221697,0.000022358763,0.000005216436,0.000011174144,0.0001878894],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99865323,0.000112310736,0.00039943733,0.0002548247,0.00033590806,0.0002442995],"domain_scores_gemma":[0.9990752,0.00020467053,0.0002724194,0.0003096896,0.00007995235,0.000058102385],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014192445,0.00014849687,0.0002797239,0.000025035162,0.00018028061,0.000029875904,0.00034693224,0.00005780357,0.000049482656],"category_scores_gemma":[0.00022424296,0.000083816536,0.000209229,0.00011529151,0.00018260679,0.000075705786,0.0000278,0.0001272656,0.0000020305415],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029046717,0.00016312876,0.000110565634,0.000006817706,0.000010088961,4.9478484e-7,0.00011608657,0.000018848466,0.9689163,0.021656707,0.00000947181,0.008701029],"study_design_scores_gemma":[0.004807364,0.0020674414,0.376501,0.00004483457,0.00019189218,0.0000102867425,0.00027965798,0.0545796,0.53373426,0.026673049,0.0008468131,0.00026377832],"about_ca_topic_score_codex":0.000017941,"about_ca_topic_score_gemma":0.000039409002,"teacher_disagreement_score":0.435182,"about_ca_system_score_codex":0.000017020899,"about_ca_system_score_gemma":0.00006845653,"threshold_uncertainty_score":0.34179392},"labels":[],"label_agreement":null},{"id":"W2171249901","doi":"10.1093/cercor/bhs160","title":"Modulation of the Default-Mode Network Between Rest and Task in Alzheimer's Disease","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; Sunnybrook Health Science Centre; Heart and Stroke Foundation; Health Sciences Centre; Centre for Addiction and Mental Health; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Default mode network; Posterior cingulate; Precuneus; Resting state fMRI; Parahippocampal gyrus; Psychology; Cognition; Neuroscience; Alzheimer's disease; Audiology; Disease; Temporal lobe; Medicine; Internal medicine","score_opus":0.04436570665663218,"score_gpt":0.2817610947376441,"score_spread":0.23739538808101193,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2171249901","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971208,0.0003333211,0.000033623026,0.0014889623,0.00032114756,0.00022151356,0.000025562986,0.000020429316,0.00043465485],"genre_scores_gemma":[0.9990258,0.0000061311307,0.000024282013,0.0006324559,0.00025552278,0.000011424872,0.0000021735452,0.000010556986,0.000031601794],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99905336,0.00013832204,0.00015525364,0.00022024915,0.00019592914,0.00023689978],"domain_scores_gemma":[0.9985562,0.0010434915,0.000082699604,0.00022194446,0.000017148495,0.00007852771],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014710303,0.000097428,0.00013036176,0.00003118923,0.00013992983,0.000010543312,0.000115704745,0.00003251448,0.000007714218],"category_scores_gemma":[0.0012588246,0.00007389211,0.0000393942,0.00026528645,0.0001530397,0.00022611681,0.00016726405,0.00011106457,0.000007077743],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000028909184,0.000028116434,0.992124,0.0000063764955,0.000007961458,4.342832e-7,0.00012385576,0.00043406215,0.0030177215,0.0021994873,0.0008294377,0.0011996289],"study_design_scores_gemma":[0.00017383663,0.000014713151,0.9943551,0.00001798538,0.00002722245,9.163247e-7,0.000011039796,0.0011910584,0.00061665615,0.002892758,0.00061521813,0.00008348556],"about_ca_topic_score_codex":0.000059029015,"about_ca_topic_score_gemma":0.000063251326,"teacher_disagreement_score":0.0024010653,"about_ca_system_score_codex":0.000021961028,"about_ca_system_score_gemma":0.000021447193,"threshold_uncertainty_score":0.30132326},"labels":[],"label_agreement":null},{"id":"W2171271074","doi":"10.1093/cercor/bhl076","title":"Two Distinct Functional Networks for Successful Resolution of Proactive Interference","year":2006,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital; University of Alberta","funders":"","keywords":"Functional magnetic resonance imaging; Neuroscience; Basal forebrain; Psychology; Prefrontal cortex; Cholinergic; Cognition","score_opus":0.06481653087728652,"score_gpt":0.2915049356377024,"score_spread":0.2266884047604159,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2171271074","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9224343,0.000015833028,0.072500244,0.00006583587,0.00077260885,0.00047403472,0.00004237185,0.0000664129,0.003628404],"genre_scores_gemma":[0.9983062,0.0000011594013,0.00019921307,0.00010357604,0.00027331905,0.000057609934,0.000023688803,0.000013673783,0.0010215545],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998847,0.000078003344,0.00026005227,0.00039212298,0.00016366596,0.00025914234],"domain_scores_gemma":[0.9993222,0.00022182157,0.00016776721,0.00017559428,0.000064587366,0.00004807103],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010401833,0.00013740368,0.0001633807,0.000050145547,0.00015512743,0.000024103563,0.00017962864,0.000053979013,0.00016234278],"category_scores_gemma":[0.0001334676,0.00011902556,0.00008549165,0.0001843037,0.00010905298,0.00021221313,0.000057834033,0.00013330203,0.0000106205425],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.001070931,0.00020689929,0.0016364424,0.000039092665,0.0000079264455,0.000005883987,0.00002660245,0.0007841064,0.91353136,0.07802641,0.0011925553,0.003471781],"study_design_scores_gemma":[0.00082400657,0.0003778906,0.01904019,0.000024327424,0.000023020912,0.000020878222,0.000018494036,0.033899687,0.9308586,0.014622168,0.00009685187,0.00019386438],"about_ca_topic_score_codex":0.000023283737,"about_ca_topic_score_gemma":0.00005106409,"teacher_disagreement_score":0.07587195,"about_ca_system_score_codex":0.000031491647,"about_ca_system_score_gemma":0.000028358205,"threshold_uncertainty_score":0.48537216},"labels":[],"label_agreement":null},{"id":"W2171357033","doi":"10.1093/cercor/bhs354","title":"Injury to the Premature Cerebellum: Outcome is Related to Remote Cortical Development","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neonatal and fetal brain pathology","field":"Medicine","cited_by":206,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; Jewish Rehabilitation Hospital","funders":"National Institute of Neurological Disorders and Stroke; National Institutes of Health","keywords":"Cerebellum; Magnetic resonance imaging; Cerebral cortex; Brain size; Psychology; Medicine; Cerebellar hemisphere; Neuroscience; Cardiology; Radiology","score_opus":0.021324322280511572,"score_gpt":0.2989125930596319,"score_spread":0.27758827077912035,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2171357033","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97546107,0.00022056897,0.0002984184,0.013857839,0.0009196471,0.00095026835,0.00001521418,0.00012887285,0.008148135],"genre_scores_gemma":[0.95056593,0.000002190953,0.0037559236,0.023462974,0.00020677401,0.000014665427,0.000024489344,0.0000362431,0.021930834],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9981362,0.00005792287,0.00047458507,0.00035660164,0.00033821838,0.00063644996],"domain_scores_gemma":[0.9986576,0.000053510874,0.0000571724,0.00052091904,0.000076377495,0.0006344558],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00033750827,0.00023890397,0.00036866346,0.00009088088,0.00016754869,0.000014793043,0.00021610697,0.00020595643,0.0009302235],"category_scores_gemma":[0.00022364134,0.00015039409,0.0001061533,0.00038531845,0.00006286711,0.00007364031,0.00027862427,0.00054723385,0.004736768],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00265001,0.0008206429,0.3235382,0.00042440445,0.0005548154,0.00032033774,0.03846571,0.000002117735,0.053289723,0.00521626,0.17437348,0.40034428],"study_design_scores_gemma":[0.00051128125,0.00031730655,0.7349442,0.00006547286,0.00007211871,0.00040580498,0.00022501005,0.000022319902,0.003913842,0.00013996803,0.25908658,0.0002960933],"about_ca_topic_score_codex":0.000010050136,"about_ca_topic_score_gemma":0.000007908559,"teacher_disagreement_score":0.411406,"about_ca_system_score_codex":0.00009531607,"about_ca_system_score_gemma":0.000065411085,"threshold_uncertainty_score":0.9999831},"labels":[],"label_agreement":null},{"id":"W2171558232","doi":"10.1093/cercor/bhs250","title":"Impairment of Online Control of Hand and Eye Movements in a Monkey Model of Optic Ataxia","year":2012,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Canadian Institutes of Health Research","keywords":"Eye movement; Neuroscience; Movement (music); Psychology; Superior parietal lobule; Parietal lobe; Ataxia; Physical medicine and rehabilitation; Computer science; Medicine; Physics; Functional magnetic resonance imaging","score_opus":0.027289102165307527,"score_gpt":0.2611843371846234,"score_spread":0.2338952350193159,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2171558232","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997923,0.00011198838,0.0014289337,0.000028332139,0.00004148459,0.00028512187,0.000109409804,0.0000039175156,0.00006781442],"genre_scores_gemma":[0.99952817,0.000010994668,0.00022569232,0.00007764581,0.000012073698,0.0000066695625,0.000003056366,0.0000064520586,0.00012926954],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99915516,0.00003811224,0.00033083168,0.00013055971,0.00018001905,0.00016530392],"domain_scores_gemma":[0.99954325,0.000041427014,0.000200292,0.00012536193,0.00003075133,0.00005890103],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000094247625,0.000084219966,0.00023618422,0.000072178926,0.000014967373,0.0000037879179,0.0000824423,0.00003177802,0.000015542206],"category_scores_gemma":[0.00006690209,0.00007220868,0.00003735121,0.00008217105,0.00009660317,0.00015489601,0.000032664346,0.000048757927,6.1457484e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016148429,0.00039949824,0.04627946,0.00006603592,0.000006570446,5.281732e-7,0.0004799131,0.0008425052,0.9502146,0.00070453994,0.0000019861775,0.00084288203],"study_design_scores_gemma":[0.0038326674,0.00030833881,0.49494377,0.0000555619,0.000018182594,8.382388e-7,0.00008881493,0.44744727,0.052804343,0.00039463743,0.000005564424,0.0000999903],"about_ca_topic_score_codex":0.00010494538,"about_ca_topic_score_gemma":0.000018171526,"teacher_disagreement_score":0.8974103,"about_ca_system_score_codex":0.000013743128,"about_ca_system_score_gemma":0.000026076392,"threshold_uncertainty_score":0.29445845},"labels":[],"label_agreement":null},{"id":"W2171868563","doi":"10.1093/cercor/bhr252","title":"Dissociating Frontotemporal Contributions to Semantic Ambiguity Resolution in Spoken Sentences","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":105,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"Canadian Institutes of Health Research; Wellcome Trust","keywords":"Ambiguity; Sentence; Context (archaeology); Inferior frontal gyrus; Comprehension; Meaning (existential); Psychology; Functional magnetic resonance imaging; Sentence processing; Cognitive psychology; Semantics (computer science); Ambiguity resolution; Contrast (vision); Cognition; Linguistics; Semantic memory; Computer science; Natural language processing; Artificial intelligence; Neuroscience","score_opus":0.04967554717273294,"score_gpt":0.30906881062474123,"score_spread":0.2593932634520083,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2171868563","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9957332,0.000027396167,0.000094400115,0.0004952854,0.00039830318,0.0002779456,0.000060376948,0.00010037807,0.002812737],"genre_scores_gemma":[0.9980463,0.0000036689564,0.00016994707,0.0012232643,0.000099897174,0.0000116267975,0.000008474612,0.00000933154,0.0004275284],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984992,0.00020732454,0.00029084654,0.00043826416,0.0001392582,0.00042511444],"domain_scores_gemma":[0.9994549,0.00008691366,0.00010480598,0.00020613351,0.000041078594,0.00010612989],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026835746,0.00013552148,0.00020509987,0.000095149,0.00017339745,0.000023530283,0.00025922756,0.00008875482,0.00013184595],"category_scores_gemma":[0.0010843243,0.00012046483,0.000066480636,0.000283041,0.000105420244,0.00015945634,0.00011350053,0.00020931111,0.00012976224],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024695307,0.0005048057,0.3598134,0.000030185953,0.0000128152315,0.0017331039,0.011335839,0.000006496211,0.618176,0.0035547079,0.0017288425,0.0028568595],"study_design_scores_gemma":[0.0013895937,0.00049454736,0.8589509,0.00011960013,0.000031757503,0.00020897923,0.0014987952,0.00065416365,0.1291417,0.006233345,0.00055558793,0.00072102674],"about_ca_topic_score_codex":0.0016690408,"about_ca_topic_score_gemma":0.001615145,"teacher_disagreement_score":0.4991375,"about_ca_system_score_codex":0.000072702715,"about_ca_system_score_gemma":0.00004421758,"threshold_uncertainty_score":0.49124134},"labels":[],"label_agreement":null},{"id":"W2171939580","doi":"10.1093/cercor/bhm115","title":"Volume of Left Heschl's Gyrus and Linguistic Pitch Learning","year":2007,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":222,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Concordia University; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute on Deafness and Other Communication Disorders; National Institute on Aging","keywords":"Psychology; Gyrus; Language acquisition; Linguistics; Neuroscience","score_opus":0.02310696424265381,"score_gpt":0.27360348633332693,"score_spread":0.25049652209067313,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2171939580","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9908764,0.000009712108,0.00047726164,0.00004441559,0.00047267854,0.00009707264,0.0000018873088,0.00006534888,0.007955274],"genre_scores_gemma":[0.99644345,0.0000205724,0.00006967197,0.00050859555,0.00012112109,6.6292455e-7,8.50892e-7,0.000011899958,0.0028231954],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988253,0.000038989063,0.00021447829,0.00037451857,0.00024265984,0.00030406172],"domain_scores_gemma":[0.9995136,0.00009101856,0.000095303985,0.00015550872,0.000034645967,0.00010991324],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000250578,0.000107216845,0.00013873419,0.00009763021,0.00017291874,0.00003485404,0.00014907873,0.00004905508,0.00017611752],"category_scores_gemma":[0.000875365,0.00010131063,0.000038368224,0.00018703217,0.00024402355,0.00013307316,0.00007645121,0.00020374378,0.00006261307],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000017371922,0.000024816536,0.018076645,0.000014307831,4.1138946e-7,0.00002120158,0.000452857,0.0000028943207,0.9748702,0.000531534,0.00007877155,0.005909005],"study_design_scores_gemma":[0.0004204284,0.00039431508,0.88013923,0.00003471411,0.000014649984,0.00012662214,0.00020716747,0.001732538,0.102653116,0.00066685554,0.013339552,0.0002707839],"about_ca_topic_score_codex":0.00004756601,"about_ca_topic_score_gemma":0.000022302072,"teacher_disagreement_score":0.87221706,"about_ca_system_score_codex":0.000017049773,"about_ca_system_score_gemma":0.00003013604,"threshold_uncertainty_score":0.4131328},"labels":[],"label_agreement":null},{"id":"W2190607905","doi":"10.1093/cercor/bhv288","title":"Is There a Nonadditive Interaction Between Spontaneous and Evoked Activity? Phase-Dependence and Its Relation to the Temporal Structure of Scale-Free Brain Activity","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":169,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of Ottawa","funders":"Canadian Institutes of Health Research; National Social Science Fund of China; National Natural Science Foundation of China; Hope for Depression Research Foundation","keywords":"Brain activity and meditation; Evoked activity; Functional magnetic resonance imaging; Phase (matter); Electroencephalography; Psychology; Neuroscience; Chemistry","score_opus":0.04769093466863391,"score_gpt":0.3007279935811833,"score_spread":0.2530370589125494,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2190607905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9874005,0.000036225374,0.0001596838,0.0105669545,0.00025418407,0.0005941564,0.00053491077,0.00005091463,0.00040250266],"genre_scores_gemma":[0.9987193,0.000004322509,0.00004029613,0.00070068816,0.00015676576,0.000011962517,0.000003969409,0.000021851527,0.000340872],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99820024,0.00030326928,0.00017249867,0.0006219645,0.00047440612,0.00022760953],"domain_scores_gemma":[0.9964026,0.0027769664,0.00021327935,0.00032335124,0.00013351202,0.00015026011],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023037767,0.00023149601,0.00029530266,0.000101614816,0.00025327998,0.000060771894,0.00022038433,0.00010660712,0.00003911336],"category_scores_gemma":[0.004625731,0.0001798183,0.00004695552,0.00030221333,0.00015791948,0.0007034321,0.0003249126,0.00036487798,0.000010259606],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0032633962,0.00024752424,0.035348345,0.000100569276,0.00013083966,0.00008597728,0.008821197,0.00004070263,0.9017519,0.00068276474,0.010412178,0.039114628],"study_design_scores_gemma":[0.002868783,0.0018205434,0.7505992,0.00011054027,0.000087627704,0.00055057055,0.0009971041,0.0026167927,0.23254605,0.005448345,0.0017833044,0.0005711372],"about_ca_topic_score_codex":0.00021423948,"about_ca_topic_score_gemma":0.0009177407,"teacher_disagreement_score":0.71525085,"about_ca_system_score_codex":0.00011491048,"about_ca_system_score_gemma":0.00007759117,"threshold_uncertainty_score":0.73327774},"labels":[],"label_agreement":null},{"id":"W2201890504","doi":"10.1093/cercor/bhw285","title":"Neurofeedback Tunes Scale-Free Dynamics in Spontaneous Brain Activity","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Armed Forces; Lawson Health Research Institute; Western University","funders":"Canadian Institute for Military and Veteran Health Research; Lawson Health Research Institute","keywords":"Neurofeedback; Brain activity and meditation; Dynamics (music); Population; Synchronization (alternating current); Premovement neuronal activity; Resting state fMRI; Electroencephalography","score_opus":0.020188440996896793,"score_gpt":0.24391957232762798,"score_spread":0.2237311313307312,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2201890504","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9490302,0.000009671673,0.00021341405,0.044190265,0.00085655594,0.00028867554,0.000091733535,0.00019141898,0.00512806],"genre_scores_gemma":[0.9901516,0.000012293612,0.00003340657,0.0036025303,0.00013243975,0.000025852349,0.0000010305782,0.000040086237,0.0060007987],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9976706,0.0002568599,0.00023453344,0.0008815559,0.00040987117,0.000546593],"domain_scores_gemma":[0.99317867,0.005875261,0.00010425631,0.0006864042,0.00004175054,0.000113688584],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00020298403,0.00027968155,0.00031516564,0.00016550819,0.00017847875,0.000044009063,0.00053023495,0.000101478036,0.00016532102],"category_scores_gemma":[0.010259404,0.0002142139,0.00011063411,0.00044153264,0.00031729005,0.0004237096,0.00044929035,0.00024516336,0.00029940944],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011730271,0.0006271743,0.10256976,0.0000712067,0.000022438404,0.0019581665,0.00027479822,0.00002350217,0.78896254,0.016265742,0.028059151,0.059992503],"study_design_scores_gemma":[0.0046171076,0.0007988946,0.90680885,0.0001622419,0.000022221238,0.001676643,0.00019928918,0.003739363,0.052766606,0.020303462,0.007506242,0.0013990696],"about_ca_topic_score_codex":0.0001368946,"about_ca_topic_score_gemma":0.006261219,"teacher_disagreement_score":0.8042391,"about_ca_system_score_codex":0.00042598465,"about_ca_system_score_gemma":0.000067983514,"threshold_uncertainty_score":0.9980776},"labels":[],"label_agreement":null},{"id":"W2237763709","doi":"10.1093/cercor/bhv319","title":"Socio-Cognitive Phenotypes Differentially Modulate Large-Scale Structural Covariance Networks","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Psychosomatic Disorders and Their Treatments","field":"Medicine","cited_by":116,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"","keywords":"Empathy; Mentalization; Psychology; Cognition; Insula; Cognitive psychology; Generalizability theory; Social cognition; Socioemotional selectivity theory; Theory of mind; Neuroimaging; Prefrontal cortex; Neuroscience; Developmental psychology; Social psychology","score_opus":0.0100694153172962,"score_gpt":0.2544822713063539,"score_spread":0.24441285598905774,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2237763709","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95330787,0.00022681642,0.042131525,0.0005669047,0.00054817507,0.00041434992,0.00009845978,0.000114313334,0.0025916],"genre_scores_gemma":[0.9960405,0.00004900742,0.00062069367,0.000493328,0.0002339788,0.000021856958,0.00008458445,0.000038097103,0.002417934],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9986811,0.000036104695,0.00024336392,0.0003746348,0.00020695367,0.00045783952],"domain_scores_gemma":[0.9992784,0.00008287235,0.00010849172,0.00027077924,0.000084197054,0.00017524355],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000045208348,0.0002456466,0.00035703953,0.000039008235,0.00013886466,0.000024921734,0.000102188744,0.00011928308,0.0014981475],"category_scores_gemma":[0.000035124252,0.00014590606,0.00015167048,0.000095667456,0.00009978234,0.000121918674,0.000049556398,0.000104841965,0.0001476553],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0021305694,0.0010310147,0.8457228,0.00016009598,0.002021397,0.00010166732,0.0019674008,0.000008158921,0.0023733568,0.0060385694,0.0018848263,0.13656016],"study_design_scores_gemma":[0.01057091,0.00036100057,0.9656578,0.0007756938,0.00027073766,0.000025573885,0.00023448633,0.0048058797,0.0001767298,0.016542383,0.0002096496,0.00036918593],"about_ca_topic_score_codex":0.000020479309,"about_ca_topic_score_gemma":0.000026691194,"teacher_disagreement_score":0.13619098,"about_ca_system_score_codex":0.0000507749,"about_ca_system_score_gemma":0.00003826787,"threshold_uncertainty_score":0.9994146},"labels":[],"label_agreement":null},{"id":"W2240419919","doi":"10.1093/cercor/bhv220","title":"Memory, Decision-Making, and the Ventromedial Prefrontal Cortex (vmPFC): The Roles of Subcallosal and Posterior Orbitofrontal Cortices in Monitoring and Control Processes","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":68,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Heart and Stroke Foundation; Baycrest Hospital; University of Toronto","funders":"","keywords":"Ventromedial prefrontal cortex; Orbitofrontal cortex; Psychology; Mnemonic; Cognitive psychology; Prefrontal cortex; Confabulation (neural networks); Neuroscience; Cognition","score_opus":0.029766189886643753,"score_gpt":0.2867760830264359,"score_spread":0.25700989313979217,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2240419919","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971141,0.001217137,0.00003054102,0.00022131478,0.00062367815,0.0006632588,0.00002633599,0.000023025914,0.00008057036],"genre_scores_gemma":[0.9994899,0.000079890226,0.000039415758,0.00015611989,0.0001528881,0.00003438033,6.8074104e-7,0.000017885142,0.000028807264],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9982766,0.00021926143,0.00038410004,0.00043178676,0.00039071467,0.0002975712],"domain_scores_gemma":[0.9984053,0.0009756972,0.00022727283,0.00020682717,0.000050165538,0.00013477488],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036957758,0.00022041421,0.00037367735,0.00006251689,0.00017978597,0.00012865165,0.00029223145,0.0000771166,0.000013713639],"category_scores_gemma":[0.0011315998,0.00012568204,0.00003389288,0.0001508855,0.0005710986,0.00035085858,0.00021762622,0.00023263179,0.000002498857],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.011500405,0.00022773459,0.05108843,0.00026792713,0.00004253818,0.00024139162,0.011297326,0.000009465544,0.8844287,0.000827573,0.000052628315,0.040015887],"study_design_scores_gemma":[0.02064537,0.001858595,0.61245793,0.0007028094,0.0002535928,0.0015144496,0.006567144,0.0048043714,0.33971807,0.010548695,0.00007511103,0.0008538775],"about_ca_topic_score_codex":0.000026610805,"about_ca_topic_score_gemma":0.0002190438,"teacher_disagreement_score":0.5613695,"about_ca_system_score_codex":0.000018056626,"about_ca_system_score_gemma":0.00007806771,"threshold_uncertainty_score":0.5125165},"labels":[],"label_agreement":null},{"id":"W2252392167","doi":"10.1093/cercor/bhv225","title":"Two New Cytoarchitectonic Areas on the Human Mid-Fusiform Gyrus","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":134,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"National Eye Institute","keywords":"Fusiform gyrus; Cytoarchitecture; Functional magnetic resonance imaging; Fusiform face area; Neuroscience; Human brain; Functional imaging; Context (archaeology); Brain mapping; Artificial intelligence; Biology; Psychology; Computer science; Perception; Face perception","score_opus":0.12254488994240773,"score_gpt":0.3230765248882372,"score_spread":0.20053163494582946,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2252392167","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8913984,0.0000072318467,0.000027907829,0.0019225107,0.00037183022,0.00023282542,0.000011800389,0.00013941625,0.10588813],"genre_scores_gemma":[0.9881612,0.0000057771426,0.000022946224,0.0041860593,0.00025258758,0.000010700936,0.000011526278,0.000020094029,0.007329096],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987713,0.00011395984,0.00016267055,0.00031973468,0.00033810674,0.00029422832],"domain_scores_gemma":[0.9992491,0.00009055886,0.0000653849,0.0003246712,0.000028899769,0.0002413842],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00014581073,0.0001539754,0.000116677475,0.00006961056,0.00023352692,0.00009913373,0.00028616196,0.000049017617,0.0028088884],"category_scores_gemma":[0.00020041705,0.000104614875,0.0000846552,0.00022026594,0.00011577117,0.00011386403,0.00005898843,0.00027243223,0.004021525],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027850724,0.00040476836,0.0032752904,0.000024121962,0.000017412009,0.000050288912,0.004506032,0.00008144513,0.72026765,0.055515,0.07624545,0.13933404],"study_design_scores_gemma":[0.012426169,0.0029348216,0.13092293,0.00030427726,0.000110131805,0.0005249725,0.0028406119,0.0033766143,0.5417103,0.11365122,0.18859828,0.0025996726],"about_ca_topic_score_codex":0.0002090621,"about_ca_topic_score_gemma":0.00023726003,"teacher_disagreement_score":0.17855735,"about_ca_system_score_codex":0.00007756928,"about_ca_system_score_gemma":0.00009922668,"threshold_uncertainty_score":0.99810266},"labels":[],"label_agreement":null},{"id":"W2253651312","doi":"10.1093/cercor/bhv256","title":"Learning-Induced Metaplasticity? Associative Training for Early Odor Preference Learning Down-Regulates Synapse-Specific NMDA Receptors via mGluR and Calcineurin Activation","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Memorial University of Newfoundland","funders":"Canadian Institutes of Health Research","keywords":"NMDA receptor; Long-term depression; Neuroscience; AMPA receptor; Metaplasticity; Long-term potentiation; Odor; Associative learning; Psychology; Receptor; Chemistry; Biochemistry","score_opus":0.2705505828475859,"score_gpt":0.2849500687650912,"score_spread":0.014399485917505339,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2253651312","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962501,0.000015766258,0.0016048747,0.00013513718,0.0006926535,0.00045750532,0.000008187969,0.00024156396,0.0005942097],"genre_scores_gemma":[0.99612814,0.000009744319,0.0001097004,0.00008025031,0.00018169194,0.000048702033,0.000011396032,0.00003836588,0.003391979],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99766487,0.0004352795,0.00035202428,0.00071518274,0.00036098104,0.00047165508],"domain_scores_gemma":[0.99794173,0.001167674,0.0003503879,0.00012825138,0.00020977968,0.00020219739],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00034638584,0.00031412285,0.00043664876,0.00014295783,0.0006918214,0.00013571727,0.00013611565,0.00015242313,0.00006235392],"category_scores_gemma":[0.0032604767,0.000281823,0.000092659066,0.00031166343,0.00013610469,0.00059072045,0.00008259757,0.00055831316,0.0000433538],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010649698,0.000120513294,0.025379695,0.000051595696,0.00012866275,0.000004529373,0.026852937,0.000606874,0.9237601,0.0008737172,0.0006276027,0.020528775],"study_design_scores_gemma":[0.0049243188,0.0053969454,0.2949546,0.00012513205,0.00014299313,0.000020909289,0.014034114,0.006255449,0.65801024,0.0014309009,0.013139922,0.0015644818],"about_ca_topic_score_codex":0.000019077484,"about_ca_topic_score_gemma":0.000009030296,"teacher_disagreement_score":0.2695749,"about_ca_system_score_codex":0.00011662662,"about_ca_system_score_gemma":0.000048559945,"threshold_uncertainty_score":0.9999634},"labels":[],"label_agreement":null},{"id":"W2256753276","doi":"10.1093/cercor/bhv226","title":"The Temporal Pole Top-Down Modulates the Ventral Visual Stream During Social Cognition","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Innovation Cluster (Canada)","funders":"","keywords":"Fusiform gyrus; Psychology; Cognitive psychology; Cognition; Context (archaeology); Superior temporal sulcus; Multisensory integration; Perception; Neuroscience","score_opus":0.04636004497428845,"score_gpt":0.3417716702938144,"score_spread":0.2954116253195259,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2256753276","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98556256,0.00004630381,0.000036442536,0.0011865281,0.0010517421,0.00024273484,0.000016824106,0.00009082977,0.011766011],"genre_scores_gemma":[0.9911307,0.0000027500184,0.000009165819,0.000259924,0.0008420386,0.000031112875,0.00008590927,0.000017995453,0.0076204054],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.9988519,0.00019253371,0.00023354791,0.00021428773,0.00020578223,0.00030196348],"domain_scores_gemma":[0.9995152,0.00003239358,0.000099433055,0.00016659783,0.00010054578,0.0000858464],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00017425403,0.0001387227,0.00010995828,0.000030018917,0.00053856906,0.00011302312,0.0001519788,0.00010814436,0.0017257308],"category_scores_gemma":[0.00003237586,0.00008380817,0.000098117904,0.000096003045,0.00016422867,0.00011850199,0.00002994363,0.00023072041,0.00095343514],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0046701627,0.0020059652,0.21156897,0.00005340417,0.00093300984,0.0000904902,0.102376476,0.0000593356,0.061868705,0.04271485,0.35313207,0.22052656],"study_design_scores_gemma":[0.0014507717,0.00017072521,0.9764144,0.000007803327,0.000037236667,0.00003139712,0.012159289,0.0012129671,0.00063017086,0.00087744626,0.0068008504,0.00020697103],"about_ca_topic_score_codex":0.00026679004,"about_ca_topic_score_gemma":0.00024049859,"teacher_disagreement_score":0.7648454,"about_ca_system_score_codex":0.00006381342,"about_ca_system_score_gemma":0.00003246249,"threshold_uncertainty_score":0.99982446},"labels":[],"label_agreement":null},{"id":"W2266699239","doi":"10.1093/cercor/bhv308","title":"The Corticocortical Structural Connectivity of the Human Insula","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":312,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Centre Hospitalier Universitaire Sainte-Justine; Université de Sherbrooke; Hôpital Notre-Dame; Institut Universitaire de Gériatrie de Montréal; Centre Hospitalier de l’Université de Montréal","funders":"","keywords":"Insula; Neuroscience; Tractography; Posterior cingulate; Precuneus; Cytoarchitecture; Psychology; Supramarginal gyrus; Entorhinal cortex; Human brain; Functional magnetic resonance imaging; Diffusion MRI; Hippocampus; Magnetic resonance imaging; Medicine","score_opus":0.09143753737255118,"score_gpt":0.37280994357773595,"score_spread":0.2813724062051848,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2266699239","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949924,0.00003911879,0.0004067878,0.0020089925,0.00008362919,0.00038080334,0.0000047106514,0.000075727236,0.0020078572],"genre_scores_gemma":[0.9989179,0.0000022429424,0.00038736753,0.00026903694,0.000059413574,0.000019245219,0.0000027675062,0.000011966905,0.0003300951],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9992917,0.000030175128,0.00019360417,0.00014603151,0.00018871331,0.00014976338],"domain_scores_gemma":[0.99911433,0.000055708526,0.000095738455,0.00052584265,0.000116556585,0.00009182722],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007861741,0.0000818667,0.00013481306,0.0000114206505,0.00018066433,0.000010842535,0.00017235886,0.000031385036,0.000010795911],"category_scores_gemma":[0.00018933046,0.00004212238,0.00007251609,0.00014554862,0.00033462883,0.00003435784,0.00011114775,0.0002048688,0.000003525387],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010062217,0.00012829622,0.68682426,0.00002781349,0.000041527048,0.0000072678154,0.0001796911,0.000006268119,0.06144381,0.23704295,0.0043358095,0.00986169],"study_design_scores_gemma":[0.0005075292,0.00012308075,0.9575353,0.000016438455,0.000042958567,0.00006693366,0.00005406459,0.0005967399,0.008636314,0.028835382,0.0035151953,0.00007003415],"about_ca_topic_score_codex":0.000028425779,"about_ca_topic_score_gemma":0.0000100092675,"teacher_disagreement_score":0.27071106,"about_ca_system_score_codex":0.00003528878,"about_ca_system_score_gemma":0.00006469602,"threshold_uncertainty_score":0.17177008},"labels":[],"label_agreement":null},{"id":"W2270046925","doi":"10.1093/cercor/bhv347","title":"Cerebral Activation During Initial Motor Learning Forecasts Subsequent Sleep-Facilitated Memory Consolidation in Older Adults","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and Wakefulness Research","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Université de Montréal","funders":"Fonds de Recherche du Québec - Santé","keywords":"Memory consolidation; Nap; Psychology; Motor learning; Consolidation (business); Putamen; Neuroscience; Sleep (system call); Cerebellum; Procedural memory; Neuroplasticity; Audiology; Hippocampus; Medicine; Cognition; Computer science","score_opus":0.03033999528019915,"score_gpt":0.28221773675304446,"score_spread":0.2518777414728453,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2270046925","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99697065,0.000007084922,0.0002883378,0.00031025993,0.00029824325,0.0007195265,0.000024453908,0.00016608213,0.0012153463],"genre_scores_gemma":[0.9985873,0.0000067121387,0.00001601608,0.00008314145,0.00014331016,0.00012625969,0.000020036616,0.000038909988,0.0009783006],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9971337,0.0004009372,0.00043803873,0.0007379366,0.00058344833,0.0007059929],"domain_scores_gemma":[0.99891514,0.00035538297,0.00014709237,0.0002871424,0.00011622053,0.00017899931],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002383997,0.0002499132,0.00024452616,0.00038102578,0.00024750666,0.00008118235,0.0002844178,0.0001572983,0.0011504035],"category_scores_gemma":[0.0012700639,0.00019957621,0.000085731794,0.0004392673,0.00018428496,0.0009575789,0.00014183445,0.0003878856,0.000330875],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0017740116,0.00028072155,0.05291564,0.000118587646,0.000014832615,0.00010510813,0.0016748217,0.000068248286,0.84354156,0.0003598594,0.00005188558,0.09909471],"study_design_scores_gemma":[0.0045279725,0.00017145653,0.30077416,0.00021228411,0.0000044856633,0.00002328876,0.00029387607,0.002299172,0.69118124,0.00013942058,0.000044542998,0.00032811056],"about_ca_topic_score_codex":0.000119657925,"about_ca_topic_score_gemma":0.00005700676,"teacher_disagreement_score":0.24785851,"about_ca_system_score_codex":0.0002999397,"about_ca_system_score_gemma":0.00008387449,"threshold_uncertainty_score":0.99976265},"labels":[],"label_agreement":null},{"id":"W2272447562","doi":"10.1093/cercor/bhw029","title":"Dynamic Brain Network Correlates of Spontaneous Fluctuations in Attention","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":261,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital; National Institute of Biomedical Imaging and Bioengineering; National Institute of Mental Health; Canadian Institutes of Health Research; U.S. Department of Veterans Affairs","keywords":"Salience (neuroscience); Psychology; Task-positive network; Neuroscience; Default mode network; Stimulus (psychology); Cognitive psychology; Resting state fMRI; Cognition; Network dynamics","score_opus":0.014626207623244184,"score_gpt":0.2453102766917019,"score_spread":0.23068406906845773,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2272447562","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.992147,0.00003918114,0.0008226471,0.004515488,0.00061660353,0.00021338579,0.000026094547,0.000062226434,0.0015573695],"genre_scores_gemma":[0.9968951,0.000012984187,0.00008041812,0.00055023056,0.000038532504,0.000015259417,0.00000211847,0.000014626909,0.0023907323],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988075,0.000117065225,0.00025511088,0.00036209146,0.00020388764,0.00025434897],"domain_scores_gemma":[0.99569935,0.0039091366,0.00011024497,0.00020572364,0.00004021676,0.00003530472],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001683256,0.000119711425,0.00017961675,0.00009807399,0.00009956773,0.000009509356,0.00013936823,0.000055548593,0.00021005915],"category_scores_gemma":[0.0040980875,0.00009203424,0.00006882374,0.00036701423,0.00016105433,0.00016799578,0.00008089225,0.0000897229,0.00013130029],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024946476,0.0001922792,0.1397886,0.000032486056,0.000026093483,0.00017676524,0.00019180024,0.00060080417,0.7988769,0.03504294,0.004872401,0.019949457],"study_design_scores_gemma":[0.000642278,0.00015255086,0.97728324,0.000096154254,0.00000876822,0.00012957132,0.000033402674,0.0024017848,0.00070806226,0.01797536,0.00039303346,0.00017576557],"about_ca_topic_score_codex":0.000018037488,"about_ca_topic_score_gemma":0.0005967704,"teacher_disagreement_score":0.8374947,"about_ca_system_score_codex":0.00010521264,"about_ca_system_score_gemma":0.00003570116,"threshold_uncertainty_score":0.49060896},"labels":[],"label_agreement":null},{"id":"W2278468917","doi":"10.1093/cercor/bhw024","title":"Language Ability Predicts Cortical Structure and Covariance in Boys with Autism Spectrum Disorder","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":34,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; Holland Bloorview Kids Rehabilitation Hospital; University of Toronto; SickKids Foundation; Montreal Neurological Institute and Hospital; Glenrose Rehabilitation Hospital; McGill University; International Laboratory for Brain, Music and Sound Research; Université de Montréal","funders":"Canadian Institutes of Health Research; Simons Foundation Autism Research Initiative; Simons Foundation","keywords":"Psychology; Autism; Autism spectrum disorder; Cognition; Covariance; Developmental psychology; Cognitive psychology; Neuroscience; Neurodevelopmental disorder; Correlation; Audiology; Medicine","score_opus":0.011022937453621305,"score_gpt":0.25833773244870367,"score_spread":0.24731479499508235,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2278468917","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9881873,0.00008144038,0.00075625157,0.009383783,0.0000786498,0.00054510805,0.00009205192,0.00011992,0.00075551245],"genre_scores_gemma":[0.9990888,0.000028640827,0.00010661536,0.00021531325,0.00002864612,0.000020002613,0.0000024599226,0.000035435867,0.0004740414],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.997472,0.00021195042,0.0002561522,0.0008617584,0.0004743354,0.00072378974],"domain_scores_gemma":[0.9989266,0.00025642503,0.00006632968,0.00053499127,0.000004072565,0.00021162583],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00013783626,0.00024274772,0.00027476615,0.00010597818,0.00013572618,0.00006588935,0.00033385935,0.000117392905,0.0009496062],"category_scores_gemma":[0.00031713716,0.00015344813,0.000029725383,0.0004345395,0.00062587956,0.0003394244,0.00020672675,0.00041548265,0.000050195133],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006152808,0.00027134182,0.6625932,0.00008946229,0.000012818516,0.00040520573,0.0011673163,0.000006968893,0.162031,0.16728057,0.00007406201,0.005452813],"study_design_scores_gemma":[0.0019664103,0.00029013545,0.9624724,0.00004884008,0.0000062162517,0.000090754686,0.000039601167,0.00049351837,0.01194962,0.022243382,0.00012296285,0.0002761548],"about_ca_topic_score_codex":0.00019527075,"about_ca_topic_score_gemma":0.0017074512,"teacher_disagreement_score":0.29987925,"about_ca_system_score_codex":0.000095552874,"about_ca_system_score_gemma":0.00011946714,"threshold_uncertainty_score":0.99996364},"labels":[],"label_agreement":null},{"id":"W2279074872","doi":"10.1093/cercor/bhv166","title":"Subregional Mesiotemporal Network Topology Is Altered in Temporal Lobe Epilepsy","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"Canadian Institutes of Health Research; Montreal Neurological Institute and Hospital","keywords":"Neuroscience; Temporal lobe; Entorhinal cortex; Hippocampus; Epilepsy; Amygdala; Psychology; Magnetic resonance imaging; Medicine","score_opus":0.07727580015493615,"score_gpt":0.2928791600840995,"score_spread":0.21560335992916332,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2279074872","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96715474,0.00020598725,0.00015763898,0.019441007,0.0030734118,0.00039202344,0.000028420383,0.00017081237,0.009375938],"genre_scores_gemma":[0.98173314,0.0000072644834,0.00029203325,0.015113919,0.00084038783,0.000031686945,0.000011234533,0.000030040328,0.0019402837],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9973792,0.00029857273,0.00038934013,0.000825889,0.0004603102,0.0006467274],"domain_scores_gemma":[0.99815786,0.0010176104,0.0001455796,0.00038396553,0.00007791401,0.00021707178],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00040214392,0.00027657958,0.00040352988,0.00013086462,0.00016478426,0.00004297732,0.00035964628,0.00014636516,0.00027976042],"category_scores_gemma":[0.0017922594,0.00026490734,0.00011374792,0.00057602447,0.0003618515,0.00030539787,0.0002868282,0.00036028025,0.0003833428],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035415773,0.00014597566,0.5959128,0.000011917076,0.000014637837,0.00012316549,0.00046636164,0.000080001664,0.00064424536,0.011854142,0.38980287,0.0005896837],"study_design_scores_gemma":[0.0060463417,0.0014668494,0.69222486,0.000084589024,0.000030521678,0.00044570802,0.0006560745,0.0047706487,0.0039446256,0.12150461,0.1672443,0.0015808416],"about_ca_topic_score_codex":0.00037641881,"about_ca_topic_score_gemma":0.00047138796,"teacher_disagreement_score":0.22255857,"about_ca_system_score_codex":0.00017606292,"about_ca_system_score_gemma":0.00023006111,"threshold_uncertainty_score":0.99998033},"labels":[],"label_agreement":null},{"id":"W2280426197","doi":"10.1093/cercor/bhv335","title":"Adolescent Cannabinoid Exposure Induces a Persistent Sub-Cortical Hyper-Dopaminergic State and Associated Molecular Adaptations in the Prefrontal Cortex","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cannabis and Cannabinoid Research","field":"Medicine","cited_by":119,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Prefrontal cortex; Endophenotype; Neuroscience; Dopaminergic; Dopamine; Psychology; Schizophrenia (object-oriented programming); Psychosis; Cannabinoid; Medicine; Internal medicine; Psychiatry; Cognition","score_opus":0.018070622914841624,"score_gpt":0.2574712433312819,"score_spread":0.23940062041644028,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2280426197","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9861151,0.001230215,0.00001837471,0.011028618,0.00009463122,0.00081077585,0.0000586614,0.000032919368,0.00061070133],"genre_scores_gemma":[0.99457085,0.00014959853,0.000011002597,0.0007555305,0.00005824608,0.00012505596,0.00003403518,0.000034901484,0.0042607626],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9974953,0.0002447052,0.00041612782,0.000494926,0.0007154004,0.00063353404],"domain_scores_gemma":[0.99898434,0.000029898425,0.00009234109,0.00037020832,0.00020777667,0.00031544667],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003895567,0.0002620755,0.00036340958,0.00016007236,0.0001468928,0.000065400716,0.00019211292,0.00012790959,0.00012369851],"category_scores_gemma":[0.0002549888,0.00015228671,0.00018612813,0.00034184422,0.00029973834,0.00011405249,0.00009486602,0.0004749067,0.000025863597],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008175615,0.0016752713,0.12857953,0.000155751,0.00027828003,0.00088322803,0.0027735436,0.0000067756705,0.8182596,0.00046246446,0.013652154,0.032455847],"study_design_scores_gemma":[0.0028957212,0.0010211832,0.9905917,0.00016440003,0.000106051426,0.00015865709,0.0014618742,0.00015962958,0.0020518051,0.00004321433,0.0011051667,0.0002405873],"about_ca_topic_score_codex":0.0002536026,"about_ca_topic_score_gemma":0.0006679495,"teacher_disagreement_score":0.8620122,"about_ca_system_score_codex":0.0002868836,"about_ca_system_score_gemma":0.00035875896,"threshold_uncertainty_score":0.6210072},"labels":[],"label_agreement":null},{"id":"W2283128416","doi":"10.1093/cercor/bhv180","title":"Altered Human Memory Modification in the Presence of Normal Consolidation","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; Center for Neuroscience and Regenerative Medicine; National Institutes of Health; National Institute of Neurological Disorders and Stroke; Israel National Road Safety Authority","keywords":"Memory consolidation; Neuroscience; Consolidation (business); Engram; Dissociation (chemistry); Human memory; Psychology; Human brain; Cognition; Hippocampus; Chemistry","score_opus":0.16406319875743555,"score_gpt":0.39272486988972,"score_spread":0.22866167113228444,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2283128416","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98442304,0.000027415326,0.005009993,0.0014561083,0.000025253263,0.0005162363,0.0000045952866,0.000053335363,0.008484051],"genre_scores_gemma":[0.9977288,0.0000037097766,0.001724279,0.00024509343,0.000045780536,0.000050062677,0.000044568977,0.0000062752965,0.00015140562],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9994543,0.000025746278,0.00017606563,0.00012313109,0.00013695657,0.000083760904],"domain_scores_gemma":[0.9994552,0.000025580279,0.00008199062,0.0003253217,0.00007625611,0.00003561871],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014313303,0.000052768235,0.000090954425,0.000045188153,0.000027604447,0.000005532635,0.00011548458,0.000023663717,0.000011628428],"category_scores_gemma":[0.00005374151,0.00003989796,0.000021447162,0.00014936943,0.000072920964,0.00007915551,0.000020981483,0.00010638474,0.0000058230257],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000405878,0.0016267747,0.14552931,0.0002649878,0.000031633615,0.000026198119,0.006593359,0.00031467387,0.62013507,0.15702482,0.03811465,0.029932681],"study_design_scores_gemma":[0.0029575129,0.00061519793,0.86879814,0.00013553689,0.00007808988,0.00014553929,0.0015480117,0.0088778995,0.08704414,0.022880673,0.0066229226,0.00029631742],"about_ca_topic_score_codex":0.000048193408,"about_ca_topic_score_gemma":0.000006065687,"teacher_disagreement_score":0.72326887,"about_ca_system_score_codex":0.000018924105,"about_ca_system_score_gemma":0.000031448035,"threshold_uncertainty_score":0.16269916},"labels":[],"label_agreement":null},{"id":"W2285496484","doi":"10.1093/cercor/bhv307","title":"Modular Development of Cortical Gray Matter Across Childhood and Adolescence","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary; Alberta Children's Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Alberta Children's Hospital Foundation; Universities Space Research Association","keywords":"Gray (unit); Psychology; Modular design; Neuroscience; Brain development; Developmental psychology; Computer science; Medicine","score_opus":0.03753808710143896,"score_gpt":0.2716601022662012,"score_spread":0.23412201516476222,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2285496484","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973639,0.00005278184,0.00071092986,0.0007629031,0.00023776774,0.00015026075,0.000010614897,0.000040078943,0.00067073],"genre_scores_gemma":[0.9973633,0.0000021644555,0.00070284953,0.0017063381,0.000041169336,0.000010674425,0.0000016711432,0.000013551791,0.00015824391],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9986834,0.000061767416,0.00022615753,0.00042222958,0.00033140302,0.0002750296],"domain_scores_gemma":[0.99924237,0.00029405984,0.000069689035,0.00019179384,0.00006563506,0.0001364529],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018893181,0.00014222223,0.00019774758,0.000029787363,0.00016887696,0.000027932263,0.00014707539,0.000045223114,0.00003547488],"category_scores_gemma":[0.0014500299,0.00012404336,0.000031152907,0.00014947295,0.00026633515,0.00015199132,0.00025711168,0.00014975634,0.00015037856],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001703068,0.00056113926,0.6913639,0.00010809906,0.00004176852,0.000029392482,0.007445858,0.000025328336,0.284802,0.0014507545,0.0053439224,0.008657557],"study_design_scores_gemma":[0.00048516266,0.0000689958,0.9548261,0.000025536301,0.00000501464,0.00003396748,0.0002126433,0.00010885104,0.04259046,0.00059519085,0.00088612,0.00016192414],"about_ca_topic_score_codex":0.000007771209,"about_ca_topic_score_gemma":0.000016964572,"teacher_disagreement_score":0.26346225,"about_ca_system_score_codex":0.00003692536,"about_ca_system_score_gemma":0.00007308783,"threshold_uncertainty_score":0.50583416},"labels":[],"label_agreement":null},{"id":"W2288116722","doi":"10.1093/cercor/bhv105","title":"Altered Gray Matter Structural Covariance Networks in Early Stages of Alzheimer's Disease","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":98,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal; Institut Universitaire de Gériatrie de Montréal; Université de Montréal","funders":"National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; National Institute on Aging; National Institutes of Health; Alzheimer Society","keywords":"Neuroscience; Default mode network; Entorhinal cortex; Psychology; Prefrontal cortex; Temporal lobe; Thalamus; Hippocampal formation; Functional magnetic resonance imaging; Cognition; Epilepsy","score_opus":0.04567101731694269,"score_gpt":0.2747856023643131,"score_spread":0.22911458504737042,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2288116722","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962102,0.00028799084,0.00015920693,0.0013073012,0.0010133631,0.00028264435,0.00005075581,0.00004696632,0.00064155174],"genre_scores_gemma":[0.9975938,0.000003494198,0.000088865476,0.0018722994,0.00015792731,0.000019644718,0.0000045588067,0.000021225638,0.00023814595],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998443,0.00015621452,0.0002727281,0.00047903202,0.00032266523,0.00032635004],"domain_scores_gemma":[0.9988233,0.00047873735,0.00013270005,0.000325432,0.0000675612,0.00017228328],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013463659,0.00018527199,0.00026306722,0.000087606524,0.00006778637,0.000037155947,0.00023019259,0.00004571316,0.000121626435],"category_scores_gemma":[0.00089281646,0.0001666512,0.00006761482,0.0003092265,0.00022160323,0.00033529545,0.00015844927,0.00019036047,0.000086187756],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003656536,0.000054816468,0.9807438,0.000017715998,0.000026043646,0.00004319621,0.00029995004,0.0027153285,0.0021351243,0.0019487749,0.011281895,0.00036769957],"study_design_scores_gemma":[0.0007555635,0.00009444908,0.9919287,0.000024189221,0.000020493286,0.0000051876686,0.00003062375,0.0025040405,0.0014236316,0.0027587686,0.00024470114,0.00020967734],"about_ca_topic_score_codex":0.00015665525,"about_ca_topic_score_gemma":0.000057019897,"teacher_disagreement_score":0.011184872,"about_ca_system_score_codex":0.00004417263,"about_ca_system_score_gemma":0.00006647228,"threshold_uncertainty_score":0.67958385},"labels":[],"label_agreement":null},{"id":"W2290858622","doi":"10.1093/cercor/bhv204","title":"Unstable Maternal Environment Affects Stress Response in Adult Mice in a Genotype-Dependent Manner","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; Institut Universitaire en Santé Mentale de Québec","funders":"","keywords":"Genotype; Fight-or-flight response; Stress (linguistics); Biology; Neuroscience; Genetics; Gene","score_opus":0.021930534918040343,"score_gpt":0.24827645227078807,"score_spread":0.22634591735274773,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2290858622","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980517,0.000112186615,0.000032076787,0.00023637552,0.00026542065,0.00037787302,0.000044161752,0.000043219556,0.00083695375],"genre_scores_gemma":[0.9965705,0.00009881149,0.000050833252,0.00041392038,0.000040519204,0.00006154732,0.0000026024022,0.00003346896,0.0027277856],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99752563,0.00048883515,0.00030152866,0.0006053707,0.00050162483,0.00057701353],"domain_scores_gemma":[0.99912816,0.00015816401,0.000101634825,0.00037816577,0.000016698801,0.00021716944],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001334089,0.00023008307,0.00023961948,0.00021604312,0.00004433853,0.00007693965,0.00038617192,0.000103851446,0.00022305599],"category_scores_gemma":[0.00028734026,0.00021538301,0.000049517548,0.00022116525,0.00007476942,0.00020725187,0.00020801682,0.00026450003,0.0004143504],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.029195575,0.0009185094,0.3015735,0.00008374513,0.0000122130305,0.0051737544,0.002116432,0.004703803,0.6440864,0.0011716632,0.00064238894,0.010322027],"study_design_scores_gemma":[0.00422689,0.0007282736,0.72757864,0.00014363685,0.0000104149385,0.000120541146,0.00053688715,0.0038205513,0.260882,0.00029069165,0.0010864139,0.0005750824],"about_ca_topic_score_codex":0.0007273919,"about_ca_topic_score_gemma":0.00056783785,"teacher_disagreement_score":0.42600515,"about_ca_system_score_codex":0.00027884057,"about_ca_system_score_gemma":0.000097684024,"threshold_uncertainty_score":0.8783064},"labels":[],"label_agreement":null},{"id":"W2294126936","doi":"10.1093/cercor/bhv324","title":"Different Patterns of Cortical Inputs to Subregions of the Primary Motor Cortex Hand Representation in<i>Cebus apella</i>","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":55,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Douglas College; Université de Montréal","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Premotor cortex; Neuroscience; Primary motor cortex; Cortex (anatomy); Motor cortex; Representation (politics); Posterior parietal cortex; Supplementary motor area; Motor area; Dorsum; Anatomy; Biology; Psychology; Functional magnetic resonance imaging; Stimulation","score_opus":0.02623389405345423,"score_gpt":0.24910334182731014,"score_spread":0.22286944777385592,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2294126936","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99537385,0.000007514304,0.002439979,0.00091943616,0.00030806544,0.0005826507,0.00006445071,0.000016064956,0.00028798246],"genre_scores_gemma":[0.99843484,0.00001396036,0.000013524239,0.00057918316,0.000045664307,0.000027660097,0.0000024183655,0.000013927415,0.00086881255],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983876,0.00018422653,0.00045661713,0.00035775328,0.00038303135,0.00023082395],"domain_scores_gemma":[0.99889475,0.00033577168,0.00021036867,0.00040338913,0.000059810278,0.00009592953],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000071784125,0.00013852434,0.00026721234,0.00008900974,0.000063021536,0.000016417835,0.0002903913,0.000056564426,0.00007371098],"category_scores_gemma":[0.00036899387,0.0000794638,0.00011425035,0.0002143036,0.00014072757,0.00012208396,0.00012144628,0.00009829573,0.000013585827],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001286907,0.000107778884,0.102896206,0.000020789388,0.0000032570015,0.0000027396964,0.00017470645,0.0000026924722,0.89337873,0.00068470865,0.000025988962,0.0025737311],"study_design_scores_gemma":[0.000938092,0.00013611032,0.88806117,0.000097772034,0.00001301571,0.000003876439,0.00001400852,0.00016976151,0.110164836,0.00023256207,0.000075383185,0.000093430404],"about_ca_topic_score_codex":0.000085902284,"about_ca_topic_score_gemma":0.00015203474,"teacher_disagreement_score":0.78516495,"about_ca_system_score_codex":0.000051260206,"about_ca_system_score_gemma":0.000046407516,"threshold_uncertainty_score":0.324044},"labels":[],"label_agreement":null},{"id":"W2294499230","doi":"10.1093/cercor/bhw063","title":"Ancestral Exposure to Stress Generates New Behavioral Traits and a Functional Hemispheric Dominance Shift","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Alberta Innovates - Health Solutions","keywords":"Laterality; Dominance (genetics); Psychology; Sexual dimorphism; Affect (linguistics); Lateralization of brain function; Developmental psychology; Neuroscience; Biology; Genetics; Zoology; Gene; Communication","score_opus":0.03905291619570442,"score_gpt":0.27230855938544596,"score_spread":0.23325564318974154,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2294499230","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947522,0.000060812934,0.0028670966,0.0008638108,0.00052867876,0.0002727171,0.00006660028,0.00013321178,0.00045485733],"genre_scores_gemma":[0.9922385,0.000018070215,0.0012575361,0.0011025104,0.00029851013,0.000032911947,8.2062616e-7,0.00003240264,0.005018743],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99741596,0.00006686249,0.00031669333,0.0010647242,0.00047739985,0.00065835373],"domain_scores_gemma":[0.9988803,0.00015128689,0.00011077139,0.0002686776,0.00003196823,0.00055699446],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007630696,0.00030878876,0.00025500084,0.000037845843,0.00021793086,0.00013130598,0.00041288993,0.000097007585,0.000434852],"category_scores_gemma":[0.0002831044,0.00023103083,0.00006372684,0.0006057576,0.00029760794,0.00054408854,0.0001615762,0.00015661077,0.00009855927],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006273433,0.00007012396,0.011798647,0.000008339208,0.0000010771508,0.000037853206,0.00011719985,0.000017019274,0.9512861,0.000350164,0.0018070334,0.034443714],"study_design_scores_gemma":[0.0011097813,0.00056391844,0.39931265,0.00006979265,0.00001302069,0.00011558924,0.000036375433,0.00005827553,0.5952655,0.000312945,0.0025860174,0.000556114],"about_ca_topic_score_codex":0.000031092488,"about_ca_topic_score_gemma":0.00003171295,"teacher_disagreement_score":0.387514,"about_ca_system_score_codex":0.000059694794,"about_ca_system_score_gemma":0.00017804393,"threshold_uncertainty_score":0.9421164},"labels":[],"label_agreement":null},{"id":"W2295636094","doi":"10.1093/cercor/bhv326","title":"Ordering Information in Working Memory and Modulation of Gamma by Theta Oscillations in Humans","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":72,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health","funders":"Canadian Institutes of Health Research; Brain and Behavior Research Foundation","keywords":"Working memory; Electroencephalography; Coupling (piping); Neurophysiology; Psychology; Cognition; Physics; Neuroscience; Computer science; Cognitive psychology; Materials science","score_opus":0.02034573418301651,"score_gpt":0.22840305420237528,"score_spread":0.20805732001935878,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2295636094","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973149,0.0000062980935,0.0006775128,0.00023022365,0.00010930562,0.00014357112,0.0000056851736,0.000016752478,0.0014957569],"genre_scores_gemma":[0.9997291,0.00002010582,0.000019803583,0.00007134392,0.000010007918,0.0000047571275,0.000003767668,0.0000046059145,0.0001365016],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9993837,0.000034172917,0.00023005686,0.00013155793,0.000106137035,0.00011441051],"domain_scores_gemma":[0.9997072,0.00007877935,0.0000914382,0.000090759204,0.0000123206755,0.000019495452],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009683375,0.00006374664,0.00008317423,0.00013891922,0.00003933509,0.000020482174,0.000052461983,0.000037010075,0.000021655824],"category_scores_gemma":[0.00011028251,0.000049172028,0.000014073219,0.00021517654,0.00003885841,0.00055510085,0.000032755048,0.000054071137,0.000003867581],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000027539545,0.000020251191,0.08317632,0.000016582546,8.153911e-7,6.83944e-7,0.00035470608,0.0004579076,0.8481981,0.0027397587,0.00003183083,0.06497548],"study_design_scores_gemma":[0.0010945468,0.000065130895,0.9259628,0.00012422919,0.0000024990652,0.000003272767,0.00007888505,0.056212947,0.011835704,0.004038772,0.00039631044,0.0001848739],"about_ca_topic_score_codex":0.000045934936,"about_ca_topic_score_gemma":0.0001534336,"teacher_disagreement_score":0.8427865,"about_ca_system_score_codex":0.000035019246,"about_ca_system_score_gemma":0.00000882937,"threshold_uncertainty_score":0.2005177},"labels":[],"label_agreement":null},{"id":"W2298073589","doi":"10.1093/cercor/bhv190","title":"Aging Effects on Whole-Brain Functional Connectivity in Adults Free of Cognitive and Psychiatric Disorders","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":207,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital","funders":"Coordenação de Aperfeiçoamento de Pessoal de Nível Superior; Fundação de Amparo à Pesquisa do Estado de São Paulo","keywords":"Default mode network; Neuropsychology; Resting state fMRI; Neuroscience; Functional connectivity; Psychology; Cognition; Neuroimaging; Psychiatry","score_opus":0.021686878675402095,"score_gpt":0.25105968078534896,"score_spread":0.22937280210994687,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2298073589","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.988044,0.000116245144,0.00015427466,0.0077265804,0.0007159709,0.000474864,0.00004900597,0.000059558774,0.002659494],"genre_scores_gemma":[0.9973972,0.00000473068,0.00002188089,0.002243126,0.00013043631,0.000047533846,0.0000050117824,0.000019999225,0.00013011994],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981837,0.0002735755,0.00020574647,0.00065399957,0.00040426583,0.00027865983],"domain_scores_gemma":[0.9902613,0.009236611,0.00012303391,0.00020376498,0.00006767399,0.00010762365],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00029734982,0.00021533333,0.0002828799,0.00026890382,0.00012188214,0.000019375271,0.00012568495,0.00006945813,0.000010708902],"category_scores_gemma":[0.018616075,0.00020796437,0.000062097024,0.00054642383,0.00022066497,0.00024632562,0.00016778895,0.00026867056,0.000024799321],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0045411247,0.0013663055,0.8998291,0.00048529424,0.00007878112,0.000044840523,0.0028475844,0.00015268386,0.01057573,0.017725648,0.028079309,0.03427361],"study_design_scores_gemma":[0.0067318366,0.0012511892,0.9688418,0.00022428132,0.00001690023,0.000012393484,0.0004375365,0.00058681745,0.0044825785,0.01681135,0.00028584283,0.0003174555],"about_ca_topic_score_codex":0.00012126957,"about_ca_topic_score_gemma":0.00063493015,"teacher_disagreement_score":0.069012724,"about_ca_system_score_codex":0.00007282808,"about_ca_system_score_gemma":0.00007591242,"threshold_uncertainty_score":0.98965055},"labels":[],"label_agreement":null},{"id":"W2299587748","doi":"10.1093/cercor/bhv289","title":"Functional Evidence for Memory Stabilization in Sensorimotor Adaptation: A 24-h Resting-State fMRI Study","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"James S. McDonnell Foundation","keywords":"Neuroscience; Memory consolidation; Psychology; Motor learning; Long-term memory; Short-term memory; Working memory; Cognitive psychology; Cognition; Hippocampus","score_opus":0.26365412262652843,"score_gpt":0.33691859140149283,"score_spread":0.0732644687749644,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2299587748","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98905057,0.00007450775,0.0045556985,0.0021724703,0.0017754097,0.001775329,0.0000162671,0.00016626017,0.00041348304],"genre_scores_gemma":[0.9964473,0.000003139884,0.00035023323,0.00083436025,0.00025683135,0.00032190708,0.000005603234,0.000028821654,0.0017517849],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99758667,0.00031099498,0.0003820465,0.0007899254,0.0006107838,0.0003195544],"domain_scores_gemma":[0.9937997,0.0052944943,0.0001575198,0.0002909371,0.00034040355,0.00011694518],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.0007633032,0.00020663733,0.00023687848,0.00017391844,0.00022163666,0.00006851024,0.0001602113,0.000045077086,0.00003828922],"category_scores_gemma":[0.032396954,0.00020532003,0.000060140675,0.00060361234,0.0001070809,0.00065593363,0.00010714453,0.0001691688,0.00006796712],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.013163904,0.00441575,0.59933203,0.00046596472,0.00014395852,0.00024947803,0.034863487,0.15279521,0.069136955,0.004345387,0.103508756,0.017579108],"study_design_scores_gemma":[0.0101388,0.0045476654,0.8387607,0.00021066055,0.00008364942,0.00006860452,0.013179732,0.1100161,0.009154394,0.010348417,0.0021971015,0.0012942123],"about_ca_topic_score_codex":0.00012382238,"about_ca_topic_score_gemma":0.00085443526,"teacher_disagreement_score":0.23942862,"about_ca_system_score_codex":0.00029507975,"about_ca_system_score_gemma":0.00029351024,"threshold_uncertainty_score":0.9757536},"labels":[],"label_agreement":null},{"id":"W2302269872","doi":"10.1093/cercor/bhv349","title":"Regulation of Cognitive Processing by Hippocampal Cholinergic Tone","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Robarts Clinical Trials","funders":"Canadian Institutes of Health Research; Kuwait University; Conselho Nacional de Desenvolvimento Científico e Tecnológico; Alzheimer's Society; Weston Brain Institute; Natural Sciences and Engineering Research Council of Canada; Fondation Brain Canada; Heart and Stroke Foundation of Canada","keywords":"Cholinergic; Neuroscience; Vesicular acetylcholine transporter; Hippocampal formation; Hippocampus; Acetylcholine; Basal forebrain; Long-term potentiation; Cholinergic neuron; Biology; Psychology; Choline acetyltransferase; Endocrinology; Biochemistry","score_opus":0.04151171379265233,"score_gpt":0.3492451337381494,"score_spread":0.3077334199454971,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2302269872","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99788,0.000020029525,0.00016688285,0.00051093963,0.00017149645,0.00021864662,0.00004168993,0.000053248903,0.00093710574],"genre_scores_gemma":[0.9951185,0.000024848905,0.00000420099,0.0006716297,0.000059727965,0.000014348941,8.986892e-7,0.00001658188,0.004089281],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99838567,0.0001570685,0.00022969577,0.00048869615,0.00038093276,0.0003579232],"domain_scores_gemma":[0.99926615,0.00026673314,0.00013460414,0.00013350308,0.0000824518,0.000116584015],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013025434,0.0001230701,0.00015721383,0.00010292525,0.0001468716,0.000023032415,0.00027017377,0.000051346116,0.0004470703],"category_scores_gemma":[0.0006022889,0.00008294851,0.00004590229,0.00045310077,0.0005805505,0.00041346528,0.00009189915,0.0001268581,0.0000998031],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009766456,0.00007812828,0.0018075404,0.000009286902,7.325393e-7,0.000009058221,0.000047596386,2.4301676e-7,0.97619784,0.00008364932,0.0006191518,0.021049093],"study_design_scores_gemma":[0.00084215624,0.00026933866,0.01997934,0.000045830315,0.000007130864,0.00002452909,0.000009422315,0.00023338765,0.9779558,0.0003531869,0.00017721075,0.000102628204],"about_ca_topic_score_codex":0.0000021982255,"about_ca_topic_score_gemma":7.113007e-7,"teacher_disagreement_score":0.020946465,"about_ca_system_score_codex":0.00001845345,"about_ca_system_score_gemma":0.00008030996,"threshold_uncertainty_score":0.48951066},"labels":[],"label_agreement":null},{"id":"W2304438957","doi":"10.1093/cercor/bhv320","title":"Neural Processing of Second-Order Motion in the Suprasylvian Cortex of the Cat","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Canadian Institutes of Health Research","keywords":"Stimulus (psychology); Neuroscience; Primate; Macaque; Spatial frequency; Contrast (vision); Grating; Luminance; Physics; Psychology; Optics; Biology; Cognitive psychology","score_opus":0.021249392838125804,"score_gpt":0.2433234752635446,"score_spread":0.2220740824254188,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2304438957","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968755,0.000008349212,0.00007565169,0.0012520513,0.0003696285,0.00026325905,0.000018060884,0.000013575974,0.0011238776],"genre_scores_gemma":[0.9986207,0.0000036736972,0.000008846092,0.0006205846,0.0000374506,0.000007137721,0.0000011382067,0.000011351278,0.0006891086],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988213,0.0001594666,0.00028709174,0.00025353956,0.00027399915,0.00020459827],"domain_scores_gemma":[0.999253,0.0001443019,0.00022112028,0.00030195198,0.00005566023,0.000023965868],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015997938,0.000112348964,0.00014372087,0.000054411426,0.00008905473,0.000020333711,0.00038311767,0.00004997327,0.000110246474],"category_scores_gemma":[0.00022916857,0.000050865863,0.00006997415,0.0004686227,0.00020846985,0.00022890903,0.00006621121,0.00010736073,0.000005322289],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002614735,0.00005476,0.015361177,0.000034346034,0.0000011533327,0.0000018343492,0.00031933424,0.0000076860115,0.95774555,0.0012916828,0.00010050847,0.025055848],"study_design_scores_gemma":[0.000651495,0.00015849256,0.9224326,0.00007997239,0.000012092783,0.000045732617,0.0001859476,0.0055312845,0.06810947,0.0023353565,0.00030581933,0.00015175513],"about_ca_topic_score_codex":0.00003032101,"about_ca_topic_score_gemma":0.00027821684,"teacher_disagreement_score":0.9070714,"about_ca_system_score_codex":0.00002417321,"about_ca_system_score_gemma":0.000050339775,"threshold_uncertainty_score":0.20742497},"labels":[],"label_agreement":null},{"id":"W2305155074","doi":"10.1093/cercor/bhv352","title":"Direct Recordings from Human Anterior Insula Reveal its Leading Role within the Error-Monitoring Network","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":139,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Université de Lyon; Canada Research Chairs; Agence Nationale de la Recherche; KAUTE-Säätiö","keywords":"Insula; Neuroscience; Anterior cingulate cortex; Neurophysiology; Electroencephalography; Psychology; Electrophysiology; Cognition","score_opus":0.0358704197083678,"score_gpt":0.28296298384140955,"score_spread":0.24709256413304176,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2305155074","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9919711,0.00020400686,0.0000760686,0.00042688038,0.0025788026,0.00020282797,0.0000193846,0.00024021075,0.0042807674],"genre_scores_gemma":[0.99326783,0.000011320361,0.00015765756,0.0004329615,0.0016695487,0.000015073574,8.765385e-7,0.000042797117,0.00440194],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99786955,0.00022493265,0.0004195173,0.00068685535,0.00027844135,0.00052069424],"domain_scores_gemma":[0.998698,0.00044645512,0.00026317764,0.00043950308,0.0000357278,0.00011714321],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00031925307,0.000267478,0.00031236824,0.000048545087,0.0005537127,0.00021774761,0.00080568786,0.000090615584,0.00009605938],"category_scores_gemma":[0.0002142022,0.00015528992,0.000119137636,0.00023149453,0.00013560153,0.0004286583,0.00030895649,0.00026139888,0.00023635146],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000031490432,0.000016364043,0.02252323,0.000005572627,0.0000120928535,0.000015633908,0.0006374538,0.000009854462,0.9694394,0.00017993023,0.0012131026,0.0059158583],"study_design_scores_gemma":[0.0005758873,0.00021432464,0.06764121,0.0009012702,0.000023498338,0.000026456613,0.0001264578,0.00034373873,0.9250397,0.0014604719,0.0031658574,0.00048114598],"about_ca_topic_score_codex":0.0000844648,"about_ca_topic_score_gemma":0.000030647705,"teacher_disagreement_score":0.04511798,"about_ca_system_score_codex":0.000068068075,"about_ca_system_score_gemma":0.000023572244,"threshold_uncertainty_score":0.63325393},"labels":[],"label_agreement":null},{"id":"W2306974599","doi":"10.1093/cercor/bhw075","title":"eEF2K/eEF2 Pathway Controls the Excitation/Inhibition Balance and Susceptibility to Epileptic Seizures","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":69,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Biotechnology and Biological Sciences Research Council; Istituto Italiano di Tecnologia; Israel Science Foundation; Ministry of Health, British Columbia; Ministry of Science and Technology; Wellcome Trust; National Institute of Mental Health; Wellcome; Fondazione Cariplo; Israel Society for Neuroscience; ERA-Net NEURON","keywords":"Neuroscience; Epilepsy; GABAergic; Neurotransmission; Inhibitory postsynaptic potential; Biology; Excitatory postsynaptic potential; Receptor; Genetics","score_opus":0.03623882881853303,"score_gpt":0.30775226983378756,"score_spread":0.27151344101525454,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2306974599","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9898994,0.000016900265,0.00014100251,0.008068412,0.0003722735,0.00072557374,0.000046328896,0.00008725215,0.0006428618],"genre_scores_gemma":[0.99022615,0.0000446473,0.000008257721,0.00773181,0.00011905487,0.000080401514,3.3217313e-7,0.000016648666,0.0017726959],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975635,0.00048479592,0.000243324,0.0007731624,0.00040415194,0.0005310882],"domain_scores_gemma":[0.9980934,0.0011511783,0.00007400723,0.000381798,0.00007003349,0.00022954404],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00040746515,0.00017312408,0.00017782395,0.00008383019,0.00045439356,0.00010613693,0.00033763624,0.000050653678,0.00024003818],"category_scores_gemma":[0.0014810101,0.00009570682,0.000055737302,0.0003849169,0.0006989247,0.0003603786,0.00018387365,0.00019900853,0.00039294938],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010061971,0.000040781328,0.0034978725,0.0000068593276,0.000001062977,0.00004688519,0.00008152656,6.747238e-7,0.9899609,0.0016355042,0.0011452767,0.0034820358],"study_design_scores_gemma":[0.0015870441,0.0007366439,0.18575256,0.000031508844,0.000009585638,0.00012434935,0.00004439031,0.0001982977,0.8026608,0.0048512896,0.003708605,0.00029491523],"about_ca_topic_score_codex":0.0000057859,"about_ca_topic_score_gemma":0.000014699762,"teacher_disagreement_score":0.18730009,"about_ca_system_score_codex":0.000036449954,"about_ca_system_score_gemma":0.00007886904,"threshold_uncertainty_score":0.50507003},"labels":[],"label_agreement":null},{"id":"W2307223514","doi":"10.1093/cercor/bhv222","title":"Age-Dependent D1–D2 Receptor Coactivation in the Lateral Orbitofrontal Cortex Potentiates NMDA Receptors and Facilitates Cognitive Flexibility","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurotransmitter Receptor Influence on Behavior","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Addiction and Mental Health; University of Calgary; Hotchkiss Brain Institute; University of British Columbia","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Dopamine; Dopamine receptor D2; Neurotransmission; Excitatory postsynaptic potential; Glutamatergic; Biology; Dopamine receptor; Long-term potentiation; Glutamate receptor; Receptor; Inhibitory postsynaptic potential","score_opus":0.05895690605621889,"score_gpt":0.2974530165193798,"score_spread":0.23849611046316088,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2307223514","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99640626,0.000037969818,0.000030008061,0.0004413723,0.0009462187,0.0013363925,0.00014602329,0.00016412836,0.0004916167],"genre_scores_gemma":[0.9980719,0.000020514795,0.00006833957,0.0010180764,0.000079551246,0.00013703178,0.000056017798,0.00004328317,0.0005052634],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99601024,0.0007989371,0.0006068946,0.0011138371,0.0008253882,0.00064472243],"domain_scores_gemma":[0.99863726,0.0003619418,0.00019851635,0.00041659139,0.00012017267,0.00026553433],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005944826,0.00044096095,0.00039411546,0.00016835971,0.00022311846,0.0002923244,0.0005290759,0.0001662177,0.00032967833],"category_scores_gemma":[0.0005951634,0.00034396886,0.00010933216,0.0004599437,0.0005958233,0.000981812,0.00013948888,0.00066197256,0.00030704832],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00090004125,0.00073140167,0.26318753,0.000058707068,0.000017879907,0.00015023607,0.0114456,0.000008834638,0.7102616,0.00020808855,0.0010219427,0.012008178],"study_design_scores_gemma":[0.004138613,0.00095011847,0.72764766,0.00013124986,0.000064627406,0.0001399469,0.0053527555,0.0001566146,0.25740474,0.0016118117,0.001301987,0.0010998929],"about_ca_topic_score_codex":0.00048919953,"about_ca_topic_score_gemma":0.00017666584,"teacher_disagreement_score":0.4644601,"about_ca_system_score_codex":0.00017110577,"about_ca_system_score_gemma":0.00009545528,"threshold_uncertainty_score":0.99990124},"labels":[],"label_agreement":null},{"id":"W2310987806","doi":"10.1093/cercor/bhv332","title":"Intraneuronal Amyloid Beta Accumulation Disrupts Hippocampal CRTC1-Dependent Gene Expression and Cognitive Function in a Rat Model of Alzheimer Disease","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"McGill University Health Centre; McGill University","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Hippocampal formation; Psychology; Cognition; Amyloid beta; Synaptic plasticity; Alzheimer's disease; Hippocampus; Biology; Disease; Medicine; Internal medicine; Receptor","score_opus":0.050336339568035175,"score_gpt":0.3190491278485007,"score_spread":0.2687127882804655,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2310987806","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99524283,0.002587235,0.0009391686,0.000176321,0.000054847995,0.00071736693,0.00016601665,0.000028563534,0.000087629596],"genre_scores_gemma":[0.9993741,0.00011242621,0.000074967196,0.00006935253,0.00006254836,0.00005931782,0.0001778475,0.00002708626,0.000042367494],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9984322,0.00008526358,0.00029663832,0.00042178802,0.0004610777,0.0003030006],"domain_scores_gemma":[0.99903274,0.00007520564,0.00009352389,0.00019807757,0.000121875375,0.00047857908],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008788643,0.00019944976,0.00027090192,0.00015212838,0.00005853708,0.000013039587,0.000044485278,0.00007196812,0.00019111704],"category_scores_gemma":[0.000052071933,0.00013349154,0.00008358021,0.00009504994,0.00013345318,0.0002872453,0.000070200964,0.000108441374,0.000023927276],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.017913625,0.0016622201,0.7960903,0.00013772717,0.001859618,0.00025331927,0.00020338417,0.000048028225,0.14461878,0.00012998783,0.00010779179,0.0369752],"study_design_scores_gemma":[0.009526508,0.00053032365,0.95046264,0.0003915582,0.0015609694,0.000012428501,0.000047856494,0.004378869,0.03161921,0.0012460317,0.0000015873447,0.00022199829],"about_ca_topic_score_codex":0.00001592053,"about_ca_topic_score_gemma":0.00000830009,"teacher_disagreement_score":0.15437233,"about_ca_system_score_codex":0.000038680657,"about_ca_system_score_gemma":0.0001871634,"threshold_uncertainty_score":0.5443627},"labels":[],"label_agreement":null},{"id":"W2311069675","doi":"10.1093/cercor/bhw070","title":"Multivariate Associations of Fluid Intelligence and NAA","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Office of Naval Research; National Science Foundation","keywords":"Fluid intelligence; Cognition; Psychology; Context (archaeology); Cognitive psychology; Human intelligence; Principal component analysis; Neural correlates of consciousness; Neuroscience; Artificial intelligence; Working memory; Computer science; Developmental psychology; Biology","score_opus":0.06962653240492846,"score_gpt":0.29240226269036257,"score_spread":0.22277573028543413,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2311069675","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9872731,0.000051343282,0.0035306003,0.004460624,0.00045779994,0.00018727979,0.000110357265,0.00008416193,0.003844711],"genre_scores_gemma":[0.998418,0.00002253071,0.00013908683,0.0005272417,0.000040371116,0.000007553586,3.7914333e-7,0.0000079050815,0.00083697477],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991754,0.00006545133,0.00015798824,0.0002865056,0.00016524142,0.00014939382],"domain_scores_gemma":[0.99645436,0.0032127472,0.00008864422,0.00014350547,0.00005987207,0.000040895517],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000116441064,0.00008512244,0.00013336152,0.00004967457,0.00011777248,0.000010635738,0.00010169478,0.000035124158,0.00008767512],"category_scores_gemma":[0.008330148,0.000059610444,0.000036901347,0.00015044915,0.00017746555,0.0001706967,0.00011447582,0.000047139278,0.000059722035],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024195237,0.000063444255,0.027783068,0.000010066492,0.000017025894,0.0000023599366,0.00024886944,0.0000026283312,0.91590273,0.03885715,0.0014536825,0.01563477],"study_design_scores_gemma":[0.00038600105,0.00018098507,0.5122144,0.00004056461,0.00001543183,0.000009151998,0.00006282953,0.00026035725,0.46870652,0.016331738,0.0015739703,0.00021802532],"about_ca_topic_score_codex":0.00003119939,"about_ca_topic_score_gemma":0.000026371798,"teacher_disagreement_score":0.48443136,"about_ca_system_score_codex":0.000035969024,"about_ca_system_score_gemma":0.000023882954,"threshold_uncertainty_score":0.99725664},"labels":[],"label_agreement":null},{"id":"W2311328643","doi":"10.1093/cercor/bhw055","title":"Altered Brain Network Segregation in Fragile X Syndrome Revealed by Structural Connectomics","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institutes of Health","keywords":"Fragile X syndrome; Connectomics; Connectome; Autism spectrum disorder; Neuroscience; Neurocognitive; Intellectual disability; Autism; Psychology; Cognition; Developmental psychology; Functional connectivity; Psychiatry","score_opus":0.017957186009788677,"score_gpt":0.2445232375547855,"score_spread":0.22656605154499682,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2311328643","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98560417,0.00005862012,0.00019485557,0.011855391,0.0010423851,0.00038317707,0.000087922424,0.00013973423,0.00063377427],"genre_scores_gemma":[0.99297833,0.000008013492,0.00008727821,0.0048875045,0.00015734562,0.000035749763,0.000009783557,0.000032380067,0.0018035868],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9978695,0.00025120084,0.0003378958,0.0007224684,0.00029750136,0.0005214211],"domain_scores_gemma":[0.9953963,0.003981933,0.0001547083,0.00033087475,0.00004159388,0.000094569594],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024148326,0.00024250896,0.00031980497,0.000085623185,0.00020836238,0.000045176315,0.00026486148,0.000104620296,0.00033430822],"category_scores_gemma":[0.004343924,0.00018553853,0.00007577926,0.00043069824,0.00017953207,0.00042867535,0.00014344847,0.00018787422,0.00015084972],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004892285,0.00010157085,0.15779641,0.00006411186,0.000053923814,0.00013513734,0.00037659644,0.00026706303,0.47944847,0.030345539,0.31836113,0.012560804],"study_design_scores_gemma":[0.0064941896,0.0007514082,0.8368055,0.00031603329,0.000025124898,0.00038220105,0.000083642764,0.0041204314,0.021841023,0.115501,0.012180194,0.0014992577],"about_ca_topic_score_codex":0.000045019155,"about_ca_topic_score_gemma":0.00013724617,"teacher_disagreement_score":0.6790091,"about_ca_system_score_codex":0.0002058845,"about_ca_system_score_gemma":0.00004700436,"threshold_uncertainty_score":0.7566042},"labels":[],"label_agreement":null},{"id":"W2312194412","doi":"10.1093/cercor/bhw047","title":"Effects of Prior-Knowledge on Brain Activation and Connectivity During Associative Memory Encoding","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Psychology; Semantic memory; Episodic memory; Cognition; Associative property; Functional magnetic resonance imaging; Content-addressable memory; Ventromedial prefrontal cortex; Cognitive psychology; Perception; Encoding (memory); Neuroscience; Fusiform face area; Human brain; Hippocampus; Prefrontal cortex; Face perception; Computer science; Artificial intelligence","score_opus":0.036556844233509876,"score_gpt":0.28687565862748426,"score_spread":0.2503188143939744,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2312194412","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99704653,0.000006096315,0.00012435648,0.00031592068,0.00026564393,0.0003389257,0.000005199565,0.00006171189,0.0018355922],"genre_scores_gemma":[0.9984952,0.0000073786564,0.000008928184,0.0002335162,0.000068223126,0.000013507685,1.759088e-7,0.000014192782,0.0011588814],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99876475,0.00030423093,0.0001527483,0.00039451523,0.00016504693,0.00021871373],"domain_scores_gemma":[0.9962448,0.0033456055,0.00017449555,0.00013411405,0.000025986457,0.00007499599],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016863202,0.00014443955,0.00020863749,0.00008266946,0.00017501923,0.000013869517,0.000108505104,0.000074367905,0.00003540106],"category_scores_gemma":[0.0035304937,0.00010314012,0.000046951354,0.00014254473,0.00007401108,0.00030140756,0.00007870422,0.000117643925,0.000022897002],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009399177,0.000058980262,0.0002691791,0.00007579545,0.0000039261577,0.0000057132165,0.0004383287,9.7368634e-8,0.9889887,0.0021074307,0.000022403936,0.007935432],"study_design_scores_gemma":[0.0010202954,0.00023835176,0.06468265,0.0001768166,0.0000061782785,0.0000040197483,0.000025910855,0.000021483287,0.93240833,0.0012796051,0.000006374738,0.00012999079],"about_ca_topic_score_codex":0.0000015082629,"about_ca_topic_score_gemma":0.000002181698,"teacher_disagreement_score":0.064413466,"about_ca_system_score_codex":0.00007369557,"about_ca_system_score_gemma":0.000020908128,"threshold_uncertainty_score":0.42265856},"labels":[],"label_agreement":null},{"id":"W2337760290","doi":"10.1093/cercor/bhv214","title":"Individual Differences in Adult Reading Are Associated with Left Temporo-parietal to Dorsal Striatal Functional Connectivity","year":2015,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Alberta Children's Hospital; University of Calgary; Hotchkiss Brain Institute","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Mental Health; National Institute of Child Health and Human Development; Alberta Children's Hospital Foundation; Natural Sciences and Engineering Research Council of Canada; University of California, Davis; American College Health Foundation; Children's Hospital Foundation; Hotchkiss Brain Institute; University of California, San Francisco; MIND Institute, University of California, Davis; Dyslexia Foundation; Vanderbilt University","keywords":"Supramarginal gyrus; Psychology; Pseudoword; Functional magnetic resonance imaging; Neuroscience; Insula; Parietal lobe; Reading (process); Dyslexia; Cognitive psychology; Cognition","score_opus":0.0626350705110146,"score_gpt":0.26650021208499264,"score_spread":0.20386514157397803,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2337760290","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99800336,0.000007069888,0.00002084626,0.000352006,0.0005147559,0.00028096006,0.0001463523,0.00012758297,0.0005470597],"genre_scores_gemma":[0.99806976,4.9640187e-7,0.000021493539,0.0012832332,0.00012481431,0.000010891882,0.000051793817,0.000018746661,0.0004187374],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9978902,0.00027996473,0.0002682472,0.0006746242,0.00043646424,0.00045050326],"domain_scores_gemma":[0.99895203,0.00038139065,0.00017909947,0.00019946005,0.00009578645,0.00019226031],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00029675913,0.00024323817,0.00034783108,0.00015240385,0.00013228373,0.00008636706,0.00028561516,0.00014570811,0.00007439992],"category_scores_gemma":[0.0023793695,0.00018776629,0.000050697996,0.00033947235,0.00017980339,0.0002722811,0.000147161,0.00039863668,0.000044722565],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00047569888,0.0003109965,0.9735924,0.000007049729,0.000028213452,0.0007028394,0.0025611948,0.000015133895,0.020539697,0.00030778555,0.0010398155,0.00041917237],"study_design_scores_gemma":[0.0026596114,0.0008992642,0.9740127,0.000088867106,0.000031394127,0.00025000254,0.0016630092,0.00009477183,0.019386582,0.00032120958,0.000059614245,0.0005329789],"about_ca_topic_score_codex":0.00018566159,"about_ca_topic_score_gemma":0.001709191,"teacher_disagreement_score":0.0021839126,"about_ca_system_score_codex":0.00007773434,"about_ca_system_score_gemma":0.00016606555,"threshold_uncertainty_score":0.76568866},"labels":[],"label_agreement":null},{"id":"W2338911401","doi":"10.1093/cercor/bhw025","title":"Cerebral Cortical Circuitry Formation Requires Functional Glycine Receptors","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":39,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation","funders":"Medical Research Council; Walloon excellence in life sciences and biotechnology; Vlaamse regering; Fonds Léon Fredericq; Fonds Wetenschappelijk Onderzoek","keywords":"Neuroscience; Somatosensory system; Cerebral cortex; Neurogenesis; Glycine receptor; Biology; Cortex (anatomy); Neocortex; Neurotransmitter receptor; Receptor; Biological neural network; Glycine","score_opus":0.07460799403046078,"score_gpt":0.315299136955309,"score_spread":0.2406911429248482,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2338911401","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99098396,0.000010790033,0.0005757085,0.0026786877,0.0020754747,0.00031973943,0.000017516399,0.0002378231,0.0031002937],"genre_scores_gemma":[0.990931,0.000052453484,0.000010008771,0.002976319,0.00035973798,0.00003735088,0.000002091286,0.000030554485,0.0056005125],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9969232,0.00035251118,0.00040917224,0.00078130665,0.0007438122,0.00078997045],"domain_scores_gemma":[0.9985564,0.00056080957,0.00012005379,0.00035692792,0.00007725825,0.00032857832],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.0002492374,0.00023323476,0.00021890074,0.0002088776,0.0005130504,0.00007843226,0.00048384728,0.00010948103,0.0035655722],"category_scores_gemma":[0.0010979347,0.00015827717,0.00011941394,0.0005619698,0.0006990872,0.0012320869,0.00020913786,0.00038320993,0.0018377102],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018034139,0.00009072319,0.003750754,0.00000852509,0.0000021397543,0.000056507517,0.000025817282,9.207895e-7,0.9763882,0.002982741,0.009482505,0.007030832],"study_design_scores_gemma":[0.0016503717,0.0004902921,0.030895228,0.000025034667,0.000013796346,0.0003169239,0.000022711223,0.00036432728,0.9541618,0.0013210617,0.010419254,0.000319169],"about_ca_topic_score_codex":0.0000026847706,"about_ca_topic_score_gemma":0.000002927856,"teacher_disagreement_score":0.027144473,"about_ca_system_score_codex":0.00010075473,"about_ca_system_score_gemma":0.00012662953,"threshold_uncertainty_score":0.99893945},"labels":[],"label_agreement":null},{"id":"W2341654072","doi":"10.1093/cercor/bhw089","title":"Network-Level Structure-Function Relationships in Human Neocortex","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":330,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; McGill University; Montreal Neurological Institute and Hospital","funders":"National Center for Complementary and Integrative Health; Division of Graduate Education; Natural Sciences and Engineering Research Council of Canada; McDonnell Center for Systems Neuroscience; James S. McDonnell Foundation; National Institutes of Health; National Science Foundation","keywords":"Neocortex; Computer science; Association (psychology); Function (biology); Functional connectivity; Functional diversity; Complex network; Neuroscience; Topology (electrical circuits); Mathematics; Biology; Psychology; Evolutionary biology","score_opus":0.0811612316889845,"score_gpt":0.2678992310468351,"score_spread":0.18673799935785063,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2341654072","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9852019,0.000036336827,0.0025032659,0.0038017316,0.0012480539,0.00040441178,0.00004602335,0.00021379854,0.0065444713],"genre_scores_gemma":[0.9944143,0.0000031898714,0.00009809436,0.0019359584,0.0004316747,0.000029235887,0.000004764063,0.000029740204,0.0030530076],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9979596,0.00027179858,0.00031989138,0.00068482873,0.0003170531,0.00044679968],"domain_scores_gemma":[0.99708396,0.0023001155,0.0001273357,0.0003599434,0.000048041467,0.00008058376],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024617766,0.00021628168,0.00021715814,0.00014628256,0.0004929217,0.00003875022,0.00020309197,0.00012174667,0.00048813267],"category_scores_gemma":[0.0031303607,0.0001627961,0.00006683525,0.00052236125,0.00017191074,0.00045582058,0.00012645009,0.00031713452,0.0001753157],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000184617,0.0000905375,0.40024114,0.000016461723,0.000019051642,0.000026114174,0.00014597263,0.00021058174,0.3959153,0.16469249,0.028559828,0.009897892],"study_design_scores_gemma":[0.00081809674,0.00012650045,0.88437754,0.00003962092,0.000010245359,0.00001679409,0.000022015418,0.00006306879,0.0033543971,0.106921084,0.003987811,0.0002628297],"about_ca_topic_score_codex":0.000035407953,"about_ca_topic_score_gemma":0.00083462696,"teacher_disagreement_score":0.48413637,"about_ca_system_score_codex":0.00016816464,"about_ca_system_score_gemma":0.000046269008,"threshold_uncertainty_score":0.66386324},"labels":[],"label_agreement":null},{"id":"W2343268737","doi":"10.1093/cercor/bhw104","title":"Here Comes Trouble: Prestimulus Brain Activity Predicts Enhanced Perception of Threat","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"","keywords":"Perception; Psychology; Salience (neuroscience); Functional magnetic resonance imaging; Cognitive psychology; Amygdala; Brain activity and meditation; Electroencephalography; Neuroscience","score_opus":0.038239378372134376,"score_gpt":0.29017003041630984,"score_spread":0.2519306520441755,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2343268737","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9898114,0.0000043018335,0.0033989525,0.0010838398,0.00029396915,0.00031993815,0.00008073999,0.00015270003,0.0048541166],"genre_scores_gemma":[0.9954918,0.00005556238,0.0000659583,0.00030216848,0.000079795456,0.000020484687,0.0000062013014,0.000019209883,0.0039588255],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99866796,0.00017329617,0.0002003858,0.00040682842,0.00028922054,0.00026232857],"domain_scores_gemma":[0.999198,0.0002424464,0.0001253542,0.00026518406,0.00005583082,0.000113146685],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00010086517,0.00016317883,0.00020913457,0.00007393819,0.00009777632,0.00002378487,0.00016611944,0.00011761238,0.002514474],"category_scores_gemma":[0.00031227808,0.00011553814,0.00009591677,0.00016702262,0.0001944979,0.0004893466,0.000051016985,0.00010649846,0.00044327098],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013177384,0.000082202045,0.0027338485,0.000024668083,0.0000027380206,0.000001068364,0.00016964761,0.000002009397,0.8928712,0.00007769099,0.000657172,0.103246],"study_design_scores_gemma":[0.0023460942,0.0004993353,0.38277113,0.00016376389,0.000020492733,0.000020127813,0.00019066999,0.00063443114,0.6118075,0.00079892785,0.0004318091,0.00031569088],"about_ca_topic_score_codex":0.000031376716,"about_ca_topic_score_gemma":0.000032638865,"teacher_disagreement_score":0.38003728,"about_ca_system_score_codex":0.000069234746,"about_ca_system_score_gemma":0.000044990084,"threshold_uncertainty_score":0.99839735},"labels":[],"label_agreement":null},{"id":"W2344409160","doi":"10.1093/cercor/bhw098","title":"Relationship Between Cortical Gyrification, White Matter Connectivity, and Autism Spectrum Disorder","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":92,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University of Toronto; SickKids Foundation; Centre for Addiction and Mental Health","funders":"Innovative Medicines Initiative; National Institute for Health and Care Research; Medical Research Council; European Federation of Pharmaceutical Industries and Associations; European Commission; Autism Speaks","keywords":"Gyrification; White matter; Diffusion MRI; Neuroscience; Psychology; Fractional anisotropy; Autism spectrum disorder; Fusiform gyrus; Neuroimaging; Anatomy; Biology; Autism; Magnetic resonance imaging; Medicine; Cerebral cortex; Developmental psychology; Cognition","score_opus":0.04032136534314778,"score_gpt":0.2948920732298234,"score_spread":0.25457070788667563,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2344409160","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9154994,0.000029375835,0.0050934907,0.073997736,0.000103663515,0.00041205657,0.000045995275,0.00015948151,0.0046588075],"genre_scores_gemma":[0.99399525,0.000010314004,0.000045007215,0.00031875697,0.0000654991,0.0000358176,0.0000050691715,0.00004864379,0.0054756487],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9974431,0.00033466815,0.0003408002,0.00081167364,0.0004351326,0.00063462136],"domain_scores_gemma":[0.9978569,0.0012239888,0.000103774706,0.00055804604,0.0000077192735,0.00024956264],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00024324609,0.000228742,0.00024580042,0.00017343854,0.00042754668,0.00012178215,0.0003364499,0.0001375047,0.0019386035],"category_scores_gemma":[0.00057963264,0.00017308502,0.00006128918,0.00040765994,0.0005400476,0.00048848096,0.00024306568,0.00035874255,0.0023188428],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000013728371,0.00003635504,0.8291451,0.000010104043,0.0000027782735,0.000004195899,0.00007698051,1.0330341e-7,0.0017910425,0.16829756,0.0003189179,0.0003031652],"study_design_scores_gemma":[0.00061717915,0.00007424551,0.8818388,0.00001403901,0.000012815177,0.000025324376,0.000009823776,0.00003395988,0.0014660783,0.11521662,0.0004451943,0.00024589707],"about_ca_topic_score_codex":0.000033975,"about_ca_topic_score_gemma":0.00006829427,"teacher_disagreement_score":0.07849585,"about_ca_system_score_codex":0.000077212506,"about_ca_system_score_gemma":0.00006680057,"threshold_uncertainty_score":0.9989738},"labels":[],"label_agreement":null},{"id":"W2372642502","doi":"10.1093/cercor/bhw127","title":"Reorganization of Functional Networks in Verbal Working Memory Circuitry in Early Midlife: The Impact of Sex and Menopausal Status","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":86,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Women's Health Research Institute","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institutes of Health; National Center for Research Resources; Harvard Catalyst","keywords":"Working memory; Psychology; Prefrontal cortex; Cognition; Dorsolateral prefrontal cortex; Developmental psychology; Hippocampus; Population; Neuroscience; Medicine","score_opus":0.022722187561797995,"score_gpt":0.2525523036420828,"score_spread":0.2298301160802848,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2372642502","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99899125,0.00015680616,0.00025967715,0.000026156595,0.00011099617,0.00013999613,0.0000124328035,0.00000964156,0.00029302802],"genre_scores_gemma":[0.9996464,0.00015294609,0.000002426485,0.000033038872,0.000043930217,0.000003945835,0.0000013228715,0.000012481664,0.0001034946],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9989252,0.00014671293,0.0002764837,0.00022492488,0.00018446417,0.0002422136],"domain_scores_gemma":[0.9992929,0.00033211,0.00013758958,0.00016725661,0.000023188533,0.000046969402],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006461149,0.00010124321,0.00015966826,0.0000899657,0.000034926263,0.00001508294,0.00011198165,0.000061014915,0.00010623491],"category_scores_gemma":[0.00018170378,0.000061918225,0.000026221824,0.00040644043,0.0001421994,0.00011820694,0.000065206295,0.000111898094,0.0000014865634],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038103719,0.00004813244,0.6869124,0.000005154536,0.0000060919415,0.000008766422,0.00039290928,0.00041698958,0.2851755,0.00022183104,0.00003507735,0.026396073],"study_design_scores_gemma":[0.000742865,0.00021041022,0.9904898,0.00006175878,0.0000040686896,0.00000906667,0.000067456705,0.0011404568,0.006983155,0.00020771497,0.0000047423828,0.00007854554],"about_ca_topic_score_codex":0.00031674348,"about_ca_topic_score_gemma":0.00006940658,"teacher_disagreement_score":0.30357733,"about_ca_system_score_codex":0.00006412621,"about_ca_system_score_gemma":0.00008995868,"threshold_uncertainty_score":0.25249517},"labels":[],"label_agreement":null},{"id":"W2374330807","doi":"10.1093/cercor/bhw128","title":"Disrupted Network Topology in Patients with Stable and Progressive Mild Cognitive Impairment and Alzheimer's Disease","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":146,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Aging; Canadian Institutes of Health Research","keywords":"Assortativity; Dementia; Clinical Dementia Rating; Cognitive impairment; Entorhinal cortex; Neuroscience; Disease; Centrality; Medicine; Cognition; Psychology; Topology (electrical circuits); Internal medicine; Hippocampus; Complex network; Computer science","score_opus":0.017650611476095868,"score_gpt":0.2481130428300329,"score_spread":0.23046243135393704,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2374330807","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99727964,0.0004203781,0.000013172913,0.0012986467,0.00011265251,0.00065049954,0.00007287578,0.000033580938,0.000118575466],"genre_scores_gemma":[0.9986894,0.000016449698,0.000022905608,0.001055148,0.00004278055,0.000079612524,0.000003710494,0.000013740086,0.00007622082],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99876255,0.00010541382,0.00011801662,0.00051857583,0.00016270239,0.00033276953],"domain_scores_gemma":[0.99853086,0.0011077353,0.00007236498,0.000103588594,0.00005102796,0.0001344242],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005450384,0.0001589188,0.0001742553,0.00004534569,0.00016325997,0.000022649352,0.0000499787,0.000030455214,0.000047895886],"category_scores_gemma":[0.00049787614,0.00009949753,0.000014625664,0.00014502434,0.00044918922,0.00021444779,0.00015403015,0.00007203696,0.00000646315],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011693272,0.00013504199,0.9951918,0.0000073814413,0.000026083266,0.00002519956,0.000086460626,9.202327e-7,0.00002478761,0.00044198683,0.00044175325,0.002449231],"study_design_scores_gemma":[0.0025102661,0.00057569594,0.99543154,0.00010063748,0.000037570506,0.0000026500886,0.00004130279,0.00002561135,0.00016473744,0.0008532044,0.000089410416,0.0001673945],"about_ca_topic_score_codex":0.000013772746,"about_ca_topic_score_gemma":0.000051145704,"teacher_disagreement_score":0.0022818365,"about_ca_system_score_codex":0.00002935301,"about_ca_system_score_gemma":0.000033760152,"threshold_uncertainty_score":0.40573913},"labels":[],"label_agreement":null},{"id":"W2376978716","doi":"10.1093/cercor/bhw120","title":"Modulation of Functional Connectivity in Auditory–Motor Networks in Musicians Compared with Nonmusicians","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":145,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University; International Laboratory for Brain, Music and Sound Research","funders":"","keywords":"Neuroscience; Auditory cortex; Premotor cortex; Psychology; Motor cortex; Functional connectivity; Motor area; Auditory feedback; Functional magnetic resonance imaging; Cognitive neuroscience of music; Motor system; Audiology; Biology; Medicine; Anatomy; Dorsum","score_opus":0.032014684671635214,"score_gpt":0.24073701398261074,"score_spread":0.20872232931097554,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2376978716","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99051535,9.681821e-7,0.0074550603,0.00014733864,0.0007789388,0.00029261791,0.000013662613,0.000036290447,0.00075977074],"genre_scores_gemma":[0.99905246,0.000004194104,0.00001715676,0.00055182935,0.00018644102,0.000022025248,0.0000020046066,0.000012935897,0.00015092983],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985491,0.000114645394,0.00026152868,0.0004819818,0.00029046362,0.00030224858],"domain_scores_gemma":[0.9994008,0.00016202105,0.00013532527,0.00021947637,0.000030053448,0.000052300515],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014927403,0.0001380097,0.00020957262,0.00019538504,0.00006242625,0.000014984994,0.00014443806,0.00006684428,0.00013635868],"category_scores_gemma":[0.000102264545,0.00009964702,0.00003915712,0.0005326094,0.0002392146,0.00045733948,0.000038131413,0.00012812912,0.0000151711965],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020195816,0.00015415634,0.032732822,0.0000051409365,6.455691e-7,0.000011877229,0.00012429294,0.0021442296,0.9605827,0.00036774512,0.00015394052,0.0035205206],"study_design_scores_gemma":[0.0011308773,0.00016549404,0.9782382,0.00007412931,0.0000026336797,0.000008160118,0.00003550127,0.017326493,0.0025793263,0.00018774917,0.00010343788,0.00014795394],"about_ca_topic_score_codex":0.00009541262,"about_ca_topic_score_gemma":0.0016178607,"teacher_disagreement_score":0.95800334,"about_ca_system_score_codex":0.00011673753,"about_ca_system_score_gemma":0.00006694706,"threshold_uncertainty_score":0.40634874},"labels":[],"label_agreement":null},{"id":"W2385222830","doi":"10.1093/cercor/bhw114","title":"Transcranial Direct-Current Stimulation Can Enhance Motor Learning in Children","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":107,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Alberta Children's Hospital; University of Calgary","funders":"Alberta Children's Hospital Foundation","keywords":"Transcranial direct-current stimulation; Motor learning; Psychology; Physical medicine and rehabilitation; Primary motor cortex; Tolerability; Cerebral palsy; Supplementary motor area; Motor cortex; Medicine; Audiology; Adverse effect; Physical therapy; Stimulation; Neuroscience; Functional magnetic resonance imaging","score_opus":0.018855464173398312,"score_gpt":0.2704463373211221,"score_spread":0.25159087314772377,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2385222830","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9958871,0.000109151275,0.0012920193,0.0004561973,0.00037255586,0.0005255726,0.000039683622,0.00021825751,0.001099432],"genre_scores_gemma":[0.9989756,0.000069661066,0.000048130125,0.0000823535,0.00015953368,0.00003465752,0.0000026958348,0.00002820242,0.00059918733],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99815756,0.00016405131,0.00035529578,0.00058830803,0.0003423566,0.0003924354],"domain_scores_gemma":[0.99929935,0.00030402114,0.00008893341,0.00018101888,0.000035390232,0.000091268295],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009772926,0.00021886878,0.00025335728,0.00014188931,0.00015383658,0.00003123521,0.00019593968,0.000060751994,0.00031045606],"category_scores_gemma":[0.00036419378,0.00017001605,0.00008463991,0.00033657864,0.00013532533,0.00017882064,0.000028832234,0.0001804759,0.00011002427],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016963165,0.00009744015,0.19288431,0.000009610373,0.0000050552444,0.0000028959162,0.0004441339,0.00022822565,0.7056689,0.0003131009,0.000027010565,0.10014964],"study_design_scores_gemma":[0.0020495648,0.00018995717,0.98720545,0.000059210262,0.000013921497,0.0000034960017,0.0000051050124,0.00053822,0.008892428,0.000225309,0.00054771575,0.0002696482],"about_ca_topic_score_codex":0.00007341966,"about_ca_topic_score_gemma":0.00008599164,"teacher_disagreement_score":0.7943211,"about_ca_system_score_codex":0.00007555203,"about_ca_system_score_gemma":0.000041895797,"threshold_uncertainty_score":0.6933053},"labels":[],"label_agreement":null},{"id":"W2409538787","doi":"10.1093/cercor/bhw153","title":"Newborn Brain Function Is Affected by Fetal Exposure to Maternal Serotonin Reuptake Inhibitors","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Maternal Mental Health During Pregnancy and Postpartum","field":"Medicine","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Päivikki ja Sakari Sohlbergin Säätiö; Suomen Kulttuurirahasto; Academy of Finland","keywords":"Serotonergic; Electroencephalography; Anxiety; Neuroscience; Brain activity and meditation; Neurology; Psychology; Serotonin; Medicine; Mood; Psychiatry; Internal medicine; Receptor","score_opus":0.010491822111600423,"score_gpt":0.25725857101375604,"score_spread":0.2467667489021556,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2409538787","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98915875,0.00018298152,0.00027308904,0.006945062,0.0010578522,0.0008604115,0.000098255034,0.00018400267,0.001239593],"genre_scores_gemma":[0.9626062,0.000015427095,0.00023553817,0.005208353,0.0004028887,0.00007067205,0.000029820394,0.000045673012,0.031385448],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9982831,0.00006583332,0.00037684347,0.00043261095,0.00034889914,0.00049269566],"domain_scores_gemma":[0.9989731,0.000033551154,0.000107972795,0.00034374237,0.000058017362,0.00048363057],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00013946928,0.00024957833,0.00029535338,0.00009232538,0.00012476208,0.000027642562,0.00010877317,0.00015546501,0.0016853289],"category_scores_gemma":[0.000034649183,0.00017252633,0.00009726871,0.00014695685,0.000038930208,0.00015449316,0.000065796776,0.00016964962,0.00097639736],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00505099,0.0003882422,0.3890244,0.002046614,0.00015940756,0.00015913881,0.00065722934,3.462483e-7,0.3181513,0.00015798121,0.12504558,0.15915875],"study_design_scores_gemma":[0.0028582402,0.0026677651,0.8201153,0.0035400854,0.000046158522,0.00013880071,0.00003001391,0.0000065252593,0.12662993,0.00007634735,0.04359744,0.00029333273],"about_ca_topic_score_codex":0.0001279267,"about_ca_topic_score_gemma":0.000027829543,"teacher_disagreement_score":0.43109095,"about_ca_system_score_codex":0.0001294382,"about_ca_system_score_gemma":0.000053092605,"threshold_uncertainty_score":0.99980146},"labels":[],"label_agreement":null},{"id":"W2435266457","doi":"10.1093/cercor/bhw177","title":"Cholinergic Surveillance over Hippocampal RNA Metabolism and Alzheimer's-Like Pathology","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Western University; Robarts Clinical Trials","funders":"European Research Council; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Kuwait University","keywords":"Cholinergic; Hyperphosphorylation; Hippocampal formation; Vesicular acetylcholine transporter; Cholinergic neuron; Biology; Neuroscience; Dementia; Basal forebrain; Choline acetyltransferase; Neurodegeneration; Hippocampus; Cell biology; Internal medicine; Endocrinology; Medicine; Disease; Phosphorylation","score_opus":0.023323199423842162,"score_gpt":0.29548344757785683,"score_spread":0.2721602481540147,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2435266457","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9754895,0.020961009,0.000017803599,0.0008608901,0.00024042715,0.00036830085,0.00009878447,0.00009848682,0.001864806],"genre_scores_gemma":[0.9977211,0.00087992486,0.00012669567,0.00054490584,0.0002907324,0.00003638017,0.000049749942,0.000040991476,0.00030952776],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981963,0.000106476386,0.0002456086,0.0005214535,0.00034284865,0.0005873051],"domain_scores_gemma":[0.9986565,0.00008998751,0.000076385346,0.00045095183,0.00010729207,0.0006188794],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014561586,0.0002629173,0.0004467263,0.00011046646,0.000098799734,0.000021906959,0.000101941805,0.00012510056,0.0008888324],"category_scores_gemma":[0.000057482626,0.00015941961,0.00012928607,0.00014722554,0.00027859418,0.00015071967,0.000107471016,0.00014509707,0.00030385406],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018078181,0.0007197175,0.8753609,0.000050228748,0.009942101,0.0021290584,0.00011516053,2.283094e-7,0.006242915,0.0017645513,0.00822201,0.09364528],"study_design_scores_gemma":[0.005323244,0.000247966,0.9904356,0.00003478724,0.00044819826,0.00022025009,0.0000129915215,0.00002865754,0.00047457765,0.0006042727,0.0019434729,0.0002259595],"about_ca_topic_score_codex":0.000044748373,"about_ca_topic_score_gemma":0.00001949785,"teacher_disagreement_score":0.115074694,"about_ca_system_score_codex":0.00003274628,"about_ca_system_score_gemma":0.00014127382,"threshold_uncertainty_score":0.97320914},"labels":[],"label_agreement":null},{"id":"W2464050582","doi":"10.1093/cercor/bhw208","title":"Cognitive Reserve and Brain Maintenance: Orthogonal Concepts in Theory and Practice","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Dementia and Cognitive Impairment Research","field":"Medicine","cited_by":91,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"National Institute on Aging","keywords":"Cognitive reserve; Cognition; Psychology; Neuropsychology; Cognitive neuropsychology; Cognitive psychology; Developmental psychology; Neuroscience; Cognitive impairment","score_opus":0.020311450035061823,"score_gpt":0.36975534350077605,"score_spread":0.34944389346571425,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2464050582","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96864873,0.00054616464,0.00026393682,0.009695452,0.000028592907,0.00049142,0.000017391834,0.000020970045,0.020287314],"genre_scores_gemma":[0.9876062,0.00020064738,0.000057887275,0.002704115,0.00005533832,0.00003503566,0.000009433989,0.000014762316,0.009316552],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99845564,0.00041192843,0.00018046808,0.00034621588,0.0002626575,0.00034309202],"domain_scores_gemma":[0.9972092,0.002220273,0.000055260276,0.00009965628,0.0002240814,0.00019154849],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0013065211,0.00012750558,0.0001982057,0.00009944767,0.000056161054,0.000025281088,0.000041465577,0.00006331604,0.0009137783],"category_scores_gemma":[0.004565696,0.00008097319,0.000029179195,0.00012621246,0.00045981898,0.00025743878,0.00011465823,0.00017798149,0.00004989104],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0064923265,0.00021286633,0.8268427,0.00007582864,0.00011814781,0.0005288549,0.00054474367,1.893168e-9,0.0077410312,0.010607034,0.0021245102,0.14471194],"study_design_scores_gemma":[0.006938408,0.0008803189,0.9819588,0.00047721146,0.000058016,0.00035262597,0.002686289,0.000005636202,0.0005448865,0.002780993,0.0031774142,0.00013936938],"about_ca_topic_score_codex":0.00009375391,"about_ca_topic_score_gemma":0.00018233387,"teacher_disagreement_score":0.15511611,"about_ca_system_score_codex":0.000042012784,"about_ca_system_score_gemma":0.00016751129,"threshold_uncertainty_score":0.9999995},"labels":[],"label_agreement":null},{"id":"W2475045783","doi":"10.1093/cercor/bhw198","title":"Frontoparietal Functional Connectivity in the Common Marmoset","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":115,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada; Brain and Behavior Research Foundation","keywords":"Marmoset; Callithrix; Macaque; Neuroscience; Frontal eye fields; Primate; Saccade; Biology; Superior colliculus; Rhesus macaque; Functional connectivity; Psychology; Eye movement; Genetics","score_opus":0.04672411650868578,"score_gpt":0.2605524596957121,"score_spread":0.21382834318702634,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2475045783","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9669028,0.000032245076,0.00043812516,0.018426646,0.0008608867,0.00029144986,0.000054794575,0.000090420064,0.012902617],"genre_scores_gemma":[0.9922948,0.000005732105,0.000011724651,0.0065189297,0.00019987696,0.0000649473,0.0000025233123,0.000013595384,0.00088787853],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99812907,0.00036838278,0.00019828403,0.0005332376,0.0004313287,0.00033971827],"domain_scores_gemma":[0.99288076,0.006610956,0.00007376554,0.000359352,0.000029168868,0.00004596973],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00040921097,0.00018065979,0.00019911857,0.00006667213,0.0002779428,0.000046062007,0.00029849447,0.00006120141,0.0004651466],"category_scores_gemma":[0.0033351067,0.00010086972,0.00009393943,0.00026276615,0.000296143,0.00034146794,0.00013771036,0.00020579279,0.0003603334],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008100549,0.0007546591,0.48125273,0.000025550902,0.00003781407,0.00015228787,0.0007175849,0.000015465424,0.20921512,0.13075642,0.14580716,0.030455146],"study_design_scores_gemma":[0.0010478519,0.0001491912,0.95984036,0.000015096952,0.000007987075,0.000084041516,0.00011581568,0.00008399225,0.0061844196,0.015494891,0.016751114,0.00022524185],"about_ca_topic_score_codex":0.000081875565,"about_ca_topic_score_gemma":0.0008191294,"teacher_disagreement_score":0.47858763,"about_ca_system_score_codex":0.000113916685,"about_ca_system_score_gemma":0.00004745846,"threshold_uncertainty_score":0.5093029},"labels":[],"label_agreement":null},{"id":"W2480505647","doi":"10.1093/cercor/bhw186","title":"Modulatory Effects of the Ipsi and Contralateral Ventral Premotor Cortex (PMv) on the Primary Motor Cortex (M1) Outputs to Intrinsic Hand and Forearm Muscles in<i>Cebus apella</i>","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Muscle activation and electromyography studies","field":"Engineering","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Neuroscience; Premotor cortex; Hand muscles; Motor cortex; Forearm; Primary motor cortex; Stimulus (psychology); Inferior parietal lobule; Psychology; Anatomy; Medicine; Functional magnetic resonance imaging; Dorsum","score_opus":0.00485343635761276,"score_gpt":0.17383375723803465,"score_spread":0.1689803208804219,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2480505647","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971282,0.0006101599,0.00005644018,0.0003328844,0.00034898942,0.001028867,0.000019234967,0.00006689829,0.00040835852],"genre_scores_gemma":[0.9990623,0.00015260711,0.00002256567,0.00045946316,0.00007583867,0.000053389824,0.0000017001712,0.00003590365,0.00013625207],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99869704,0.000061229446,0.00030051687,0.00030748907,0.00021454462,0.00041914912],"domain_scores_gemma":[0.99916065,0.00028806942,0.00007400868,0.00031846095,0.000039764167,0.00011905186],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010656035,0.00028219313,0.00035196915,0.00011835838,0.0001316636,0.000044163986,0.0001821226,0.00009154342,0.000011802893],"category_scores_gemma":[0.00005769278,0.00015884385,0.00009449206,0.00019502001,0.00022581014,0.00012485104,0.00009308763,0.00018324536,0.0000020249847],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026857614,0.0001308735,0.13800602,0.0005138627,0.00037574812,0.000013354711,0.0016296622,0.00001208447,0.6948072,0.0018304394,0.0021044044,0.16030778],"study_design_scores_gemma":[0.0011854443,0.00022789318,0.9877063,0.0002495637,0.000028836968,0.000005257341,0.00002564991,0.00011920726,0.009335639,0.00027836883,0.00062188535,0.00021593267],"about_ca_topic_score_codex":0.00002917609,"about_ca_topic_score_gemma":0.000060143113,"teacher_disagreement_score":0.8497003,"about_ca_system_score_codex":0.00007347623,"about_ca_system_score_gemma":0.000020410742,"threshold_uncertainty_score":0.6477464},"labels":[],"label_agreement":null},{"id":"W2507267013","doi":"10.1093/cercor/bhw231","title":"Distinct Neurophysiological Mechanisms Support the Online Formation of Individual and Across-Episode Memory Representations","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Encoding (memory); Psychology; Generalization; Neurophysiology; Memory formation; Cognitive psychology; Neuroscience; Hippocampus","score_opus":0.08980528977192244,"score_gpt":0.3324350876481096,"score_spread":0.24262979787618716,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2507267013","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964033,0.0000032273454,0.0017151756,0.00069924386,0.00026219914,0.00029030596,0.00030945856,0.000062361294,0.00025475858],"genre_scores_gemma":[0.9984069,0.000015177733,0.000111507215,0.0008615085,0.00005846051,0.000017278624,0.00001562719,0.000011998879,0.0005015662],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99849993,0.00021481935,0.00033179848,0.0003705717,0.00030925358,0.00027365034],"domain_scores_gemma":[0.9989035,0.0004362115,0.00019934548,0.00033995745,0.000033633445,0.000087316206],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001858984,0.00014838073,0.00018016064,0.000029447508,0.00028094446,0.000036430454,0.00037233898,0.000060477294,0.00025127167],"category_scores_gemma":[0.0005817553,0.00007533187,0.00006830171,0.0001574676,0.0002765521,0.0003555884,0.0002862703,0.0001299294,0.000035939083],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000050063336,0.000053714368,0.00007598454,0.000011107781,0.0000019643282,0.000012629251,0.00022507779,6.937241e-7,0.98633426,0.0033030529,0.00010598049,0.00982548],"study_design_scores_gemma":[0.00050658523,0.00042339409,0.04774289,0.000013431392,0.000013636506,0.00013036102,0.00020576242,0.00016406394,0.9362827,0.014350749,0.00003467055,0.00013175145],"about_ca_topic_score_codex":0.0000029593893,"about_ca_topic_score_gemma":0.000010366044,"teacher_disagreement_score":0.050051544,"about_ca_system_score_codex":0.000008001128,"about_ca_system_score_gemma":0.000012668625,"threshold_uncertainty_score":0.30719444},"labels":[],"label_agreement":null},{"id":"W2507877373","doi":"10.1093/cercor/bhw236","title":"Functional Connectivity of the Dorsal Attention Network Predicts Selective Attention in 4–7 year-old Girls","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":72,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Alberta Children's Hospital; University of Calgary","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Alberta Children's Hospital Research Institute","keywords":"Intraparietal sulcus; Default mode network; Task-positive network; Psychology; Functional magnetic resonance imaging; Neuroscience; Attention network; Dorsum; Association (psychology); Cognition; Early childhood; Developmental psychology; Medicine; Anatomy","score_opus":0.02499040794592448,"score_gpt":0.23334476773658427,"score_spread":0.2083543597906598,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2507877373","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9926719,0.000019246372,0.00063934864,0.002547214,0.0017008723,0.00046314287,0.00003969385,0.000073043804,0.0018455037],"genre_scores_gemma":[0.99701214,0.000006570852,0.000015088044,0.0004908952,0.00025816925,0.000049886577,0.0000021557016,0.000020026497,0.00214505],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99782777,0.00037222754,0.0003105324,0.0006108553,0.00050610263,0.0003725128],"domain_scores_gemma":[0.99718016,0.0021148028,0.00022966103,0.0003093965,0.00012500623,0.000040994546],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00039857114,0.00019074482,0.0002437009,0.000088421904,0.00023385328,0.000018157409,0.00020067822,0.00010195963,0.00013140203],"category_scores_gemma":[0.0033190877,0.00012346733,0.00016891604,0.0007014094,0.0003059278,0.00037468245,0.00020136297,0.00021626565,0.000079603844],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002575778,0.00014649723,0.78361726,0.000016453258,0.00002646841,0.0000020761206,0.00003569833,0.000090399066,0.19609939,0.010389013,0.008170093,0.0011491016],"study_design_scores_gemma":[0.0011827041,0.00013288809,0.98178333,0.00009245977,0.000017457542,0.000012019316,0.000019656649,0.00013301388,0.010700451,0.0055025215,0.0002705973,0.00015290499],"about_ca_topic_score_codex":0.00005607245,"about_ca_topic_score_gemma":0.00026274603,"teacher_disagreement_score":0.19816609,"about_ca_system_score_codex":0.00021548572,"about_ca_system_score_gemma":0.000082764665,"threshold_uncertainty_score":0.50348514},"labels":[],"label_agreement":null},{"id":"W2509013218","doi":"10.1093/cercor/bhw249","title":"Metabotropic Glutamate Receptor Type 5 (mGluR5) Cortical Abnormalities in Focal Cortical Dysplasia Identified In Vivo With [<sup>11</sup>C]ABP688 Positron-Emission Tomography (PET) Imaging","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":27,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University; Montreal Neurological Institute and Hospital; Douglas Mental Health University Institute; McGill University","funders":"Canadian Institutes of Health Research; Epilepsy Society; Savoy Foundation; American Epilepsy Society","keywords":"Cortical dysplasia; Positron emission tomography; Metabotropic glutamate receptor 5; Nuclear medicine; In vivo; Medicine; Pathology; Epilepsy; Glutamate receptor; Metabotropic glutamate receptor; Magnetic resonance imaging; Radiology; Neuroscience; Biology; Internal medicine; Receptor","score_opus":0.019342627442580067,"score_gpt":0.28652954979166473,"score_spread":0.26718692234908464,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2509013218","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971593,0.00004075065,0.00004986039,0.0010527801,0.0005418066,0.00056965486,0.00003059798,0.00014933413,0.00040591863],"genre_scores_gemma":[0.9972529,0.00011566891,0.000042619013,0.00094255107,0.00009116652,0.000055774453,0.0000013410673,0.00006013895,0.0014378316],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99455804,0.0009885341,0.0007111821,0.0013279793,0.0009205054,0.0014937518],"domain_scores_gemma":[0.9980029,0.0008062203,0.00012638845,0.00050008844,0.0000912139,0.0004732258],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004687357,0.00043777053,0.000543889,0.00065215334,0.0003328518,0.0001968446,0.00084815355,0.000102214006,0.000927479],"category_scores_gemma":[0.00068406423,0.00030144418,0.0001213791,0.0017263026,0.0012401437,0.0010611688,0.00036989036,0.0008585663,0.00018513761],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00093240396,0.0002347349,0.15959379,0.000024317653,0.000004219399,0.0012985521,0.00009793932,0.000008400214,0.8362579,0.00073487544,0.00047729735,0.00033558276],"study_design_scores_gemma":[0.0042660274,0.0009186712,0.15697816,0.00022025798,0.000045671095,0.00060121104,0.0001697617,0.00458668,0.82985693,0.000272077,0.0013167007,0.0007678318],"about_ca_topic_score_codex":0.000056429963,"about_ca_topic_score_gemma":0.000042832646,"teacher_disagreement_score":0.0064009354,"about_ca_system_score_codex":0.00013130024,"about_ca_system_score_gemma":0.0002438654,"threshold_uncertainty_score":0.9999858},"labels":[],"label_agreement":null},{"id":"W2509568402","doi":"10.1093/cercor/bhw228","title":"Linguistic Bias Modulates Interpretation of Speech via Neural Delta-Band Oscillations","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":163,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Prosody; Phrase; Psychology; Comprehension; Linguistics; Syntax; Speech recognition; Natural language processing; Computer science","score_opus":0.04646622924942704,"score_gpt":0.2873327127035363,"score_spread":0.24086648345410924,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2509568402","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99178344,0.0000037951115,0.005171908,0.00027415558,0.0008258505,0.00017001569,0.000025421263,0.000077448356,0.0016679944],"genre_scores_gemma":[0.998971,0.000009991189,0.00007490425,0.00037011874,0.00013523991,0.000005272746,0.0000025808924,0.000013773789,0.000417122],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99870193,0.00007737741,0.00029691058,0.00040649754,0.0002751164,0.00024215692],"domain_scores_gemma":[0.9992301,0.00019086154,0.00015038138,0.00026602607,0.00008025213,0.00008241806],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010100218,0.00013007555,0.00015069172,0.00013332209,0.000112006244,0.000034256238,0.00021508615,0.00004741645,0.00022626933],"category_scores_gemma":[0.0010565018,0.00009074785,0.00007812924,0.00030873306,0.00024483417,0.0003067434,0.00004596876,0.00007138917,0.00009145386],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000022077029,0.000021108002,0.0019153274,0.000006667403,7.9651704e-7,0.0000047970634,0.0003283714,0.00003367133,0.968963,0.00022487975,0.000048421778,0.02843086],"study_design_scores_gemma":[0.0008572595,0.00045143606,0.16081196,0.00010715177,0.000036482586,0.000106810774,0.000037172063,0.062222563,0.7664322,0.007912521,0.0005935453,0.00043089848],"about_ca_topic_score_codex":0.000030459762,"about_ca_topic_score_gemma":0.000020895279,"teacher_disagreement_score":0.20253082,"about_ca_system_score_codex":0.00003272052,"about_ca_system_score_gemma":0.000033986504,"threshold_uncertainty_score":0.37005898},"labels":[],"label_agreement":null},{"id":"W2510181200","doi":"10.1093/cercor/bhw232","title":"Brain Network Activity During Face Perception: The Impact of Perceptual Familiarity and Individual Differences in Childhood Experience","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"","keywords":"Psychology; Perception; Face perception; Salience (neuroscience); Cognitive psychology; Cognition; Face (sociological concept); Perspective (graphical); Developmental psychology; Neuroscience; Artificial intelligence; Computer science","score_opus":0.05096015377674929,"score_gpt":0.29095676480604493,"score_spread":0.23999661102929565,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2510181200","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99879164,0.000010456188,0.000057456324,0.0003996308,0.000094502575,0.0002705992,0.00005531632,0.000040282524,0.00028010498],"genre_scores_gemma":[0.9995308,0.0000964775,0.000011678947,0.00010997607,0.000086694585,0.000018919178,0.0000016014733,0.000010223233,0.0001336337],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9984302,0.00032401938,0.00021052905,0.00041993245,0.00026969568,0.0003456142],"domain_scores_gemma":[0.99929357,0.0002806636,0.00010116924,0.00021115565,0.000018656745,0.00009478707],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017367562,0.00018872769,0.00022088135,0.00006120541,0.00022010386,0.00005264405,0.00024519608,0.00009915961,0.0009846124],"category_scores_gemma":[0.00022049615,0.00010446095,0.0000943491,0.00027746038,0.0004689783,0.0004278411,0.00013568341,0.00021390188,0.000030018464],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008800325,0.00012856995,0.5479709,0.000008636798,0.0000056129497,0.0000019705703,0.011605332,0.0000064884057,0.41708454,0.000037652586,0.00008187991,0.022980392],"study_design_scores_gemma":[0.00062243827,0.000141526,0.99534297,0.000052651372,0.0000037823881,0.000027302665,0.001354381,0.00020794703,0.0018949931,0.00018814484,0.0000028168283,0.00016101949],"about_ca_topic_score_codex":0.00018200991,"about_ca_topic_score_gemma":0.00011439791,"teacher_disagreement_score":0.44737208,"about_ca_system_score_codex":0.000060549857,"about_ca_system_score_gemma":0.000040965486,"threshold_uncertainty_score":0.9999286},"labels":[],"label_agreement":null},{"id":"W2511678394","doi":"10.1093/cercor/bhw221","title":"Longitudinal Study of White Matter Development and Outcomes in Children Born Very Preterm","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":45,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Hospital for Sick Children","funders":"Canadian Institutes of Health Research","keywords":"White matter; Fractional anisotropy; Diffusion MRI; Gestational age; Internal capsule; Pediatrics; Psychology; Medicine; Magnetic resonance imaging; Biology; Pregnancy; Radiology; Genetics","score_opus":0.03852160220448467,"score_gpt":0.31879269295294693,"score_spread":0.28027109074846224,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2511678394","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9984447,0.000010859658,0.00041333825,0.00041554167,0.000009362406,0.0004982748,0.000003952727,0.000036161917,0.00016785187],"genre_scores_gemma":[0.99686104,0.0000037340665,0.0024920078,0.00012012557,0.000008971394,0.00004396623,0.0000026290945,0.000012020598,0.00045547792],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9993755,0.000008341476,0.0001985407,0.00021278237,0.00008957235,0.00011523987],"domain_scores_gemma":[0.99965334,0.000015264684,0.000053909884,0.00021635785,0.000019368725,0.000041776435],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00003507814,0.000090170615,0.0001880614,0.00006606606,0.000032778153,0.0000031224786,0.00005507156,0.000020490177,0.000044257322],"category_scores_gemma":[0.0000068003856,0.000058249952,0.00001730475,0.00006122892,0.000037003585,0.00005402661,0.00009641419,0.000057537807,0.0000068720137],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000019547158,0.00017243948,0.99667406,0.0000074328645,0.000014556388,0.0000027712608,0.00012531935,3.0577045e-8,0.00029584992,0.000018761037,0.00007884641,0.002590404],"study_design_scores_gemma":[0.0009861883,0.00012073849,0.9979972,0.00004540004,0.000016339864,0.000021410726,0.000017246972,0.0000011076081,0.0005699622,0.00008867472,0.0000642452,0.00007144788],"about_ca_topic_score_codex":0.00001146433,"about_ca_topic_score_gemma":0.000011743788,"teacher_disagreement_score":0.002518956,"about_ca_system_score_codex":0.000022317277,"about_ca_system_score_gemma":0.0000148891295,"threshold_uncertainty_score":0.23753642},"labels":[],"label_agreement":null},{"id":"W2512144532","doi":"10.1093/cercor/bhw254","title":"Traumatic Brain Injury Results in Cellular, Structural and Functional Changes Resembling Motor Neuron Disease","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Amyotrophic Lateral Sclerosis Research","field":"Medicine","cited_by":67,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institutes of Health Research","keywords":"Atrophy; Amyotrophic lateral sclerosis; Traumatic brain injury; Medicine; Magnetic resonance imaging; Motor cortex; Pathological; Neuroscience; Motor neuron; Spinal cord; Pathology; Corticospinal tract; Spinal cord injury; Disease; Psychology; Stimulation; Diffusion MRI","score_opus":0.054114924117475045,"score_gpt":0.30303313020433353,"score_spread":0.2489182060868585,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2512144532","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98036665,0.00014531131,0.000019238083,0.018589798,0.00014856942,0.00048094106,0.00006618139,0.000051453415,0.00013188194],"genre_scores_gemma":[0.9956909,0.000044148503,0.000057623733,0.0004981918,0.00030796183,0.000028582392,0.000037076486,0.00002967795,0.0033058345],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9982362,0.00011756914,0.0002924675,0.00046017187,0.00046091276,0.0004327148],"domain_scores_gemma":[0.9989856,0.00016874717,0.00006412593,0.00031219193,0.00006472984,0.00040461225],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023687833,0.0001787671,0.00024792514,0.00021905168,0.00007964786,0.000033776454,0.00008789294,0.000081702674,0.00034003932],"category_scores_gemma":[0.0005363803,0.00011268001,0.000052471012,0.00020785569,0.00014783021,0.00016715174,0.00011205143,0.0002271172,0.00003906677],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.008467217,0.00009152515,0.08190498,0.0002750131,0.000042813746,0.00021879574,0.0002938943,0.0000015107674,0.8548025,0.00031553264,0.0035893754,0.049996875],"study_design_scores_gemma":[0.0029526358,0.0004219855,0.9941045,0.00026620843,0.00001473525,0.000009197972,0.00002321597,0.0009161585,0.00042096747,0.00039860196,0.00032493976,0.00014683293],"about_ca_topic_score_codex":0.00008060794,"about_ca_topic_score_gemma":0.00007684258,"teacher_disagreement_score":0.91219956,"about_ca_system_score_codex":0.0001247323,"about_ca_system_score_gemma":0.000083587795,"threshold_uncertainty_score":0.45949575},"labels":[],"label_agreement":null},{"id":"W2517726185","doi":"10.1093/cercor/bhw239","title":"Asymmetric Direct Reciprocal Connections Between Primary Visual and Somatosensory Cortices of the Mouse","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Trois-Rivières","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Somatosensory system; Neuroscience; Sensory system; Visual cortex; Retinotopy; Projection (relational algebra); Reciprocal; Biology; Psychology; Anatomy; Computer science","score_opus":0.034145145355922626,"score_gpt":0.31288085550782047,"score_spread":0.27873571015189785,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2517726185","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97198707,0.00006805112,0.00024494086,0.00028552592,0.00037990714,0.00022657136,0.000051584764,0.00006894678,0.026687415],"genre_scores_gemma":[0.98499095,0.000026209626,0.000046735924,0.00020188437,0.000139144,0.000014387744,0.000008403687,0.000017430275,0.014554871],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99886936,0.00020507113,0.00031385195,0.00027348287,0.00015671465,0.0001815297],"domain_scores_gemma":[0.9991852,0.00023724022,0.0001658003,0.00025589563,0.00007816517,0.00007770029],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012063318,0.00012775642,0.00021659647,0.0001243688,0.00011957594,0.000014923785,0.00011144384,0.00012729097,0.0013495086],"category_scores_gemma":[0.00012456714,0.00007188474,0.00008745063,0.00022301514,0.00023074645,0.000118355754,0.000042889154,0.000113578535,0.00018985804],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014533686,0.00024336913,0.60900813,0.000034991648,0.00016288902,0.0000016269876,0.0008864924,1.9426791e-7,0.20775428,0.003399988,0.012222633,0.16614008],"study_design_scores_gemma":[0.0006960943,0.00014403982,0.98940444,0.000020387595,0.000043277123,0.000009453118,0.00022253521,0.000014335364,0.005299236,0.00005090546,0.0039739427,0.00012136948],"about_ca_topic_score_codex":0.000084558305,"about_ca_topic_score_gemma":0.000046636585,"teacher_disagreement_score":0.3803963,"about_ca_system_score_codex":0.000042587195,"about_ca_system_score_gemma":0.000023324314,"threshold_uncertainty_score":0.9995634},"labels":[],"label_agreement":null},{"id":"W2517974079","doi":"10.1093/cercor/bhw250","title":"Impaired Frontal-Limbic White Matter Maturation in Children at Risk for Major Depression","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Mental Health; Canadian Institutes of Health Research; Tommy Fuss Fund","keywords":"Depression (economics); Fractional anisotropy; White matter; Psychology; Corpus callosum; Cingulum (brain); Anterior cingulate cortex; Pathological; Limbic system; Risk factor; Neuroscience; Mood disorders; Clinical psychology; Anxiety; Internal medicine; Medicine; Psychiatry; Central nervous system; Magnetic resonance imaging; Cognition","score_opus":0.017751103400360176,"score_gpt":0.28944592070922104,"score_spread":0.27169481730886086,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2517974079","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97861534,0.00004657622,0.017885655,0.0018049763,0.00003601373,0.0010933111,0.00007934057,0.0001514559,0.00028731354],"genre_scores_gemma":[0.9889017,0.000022333179,0.007328116,0.00046589374,0.00008738991,0.00021206886,0.00009719803,0.000033656008,0.002851658],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9991791,0.00001534713,0.00020037651,0.00031799823,0.00008515673,0.00020199805],"domain_scores_gemma":[0.9994358,0.000026947308,0.00010203058,0.0003354454,0.000029730376,0.00007007637],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000047983332,0.00012182519,0.00015904887,0.00006487703,0.000081489394,0.000008410702,0.000075129356,0.00006442494,0.0002486145],"category_scores_gemma":[0.0000195388,0.00008127666,0.0000713969,0.00007269634,0.000033451848,0.00011142659,0.000056882236,0.00008343207,0.00010291705],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002694421,0.000042858355,0.96351707,0.000009195034,0.0000064164396,8.75969e-7,0.000014830757,2.9560152e-7,0.021919103,0.000023969345,0.009215726,0.00498019],"study_design_scores_gemma":[0.0016073985,0.00006675629,0.98938465,0.000076165554,0.00003457806,0.00005101363,0.0000028514817,0.000118560005,0.006310883,0.001364036,0.0008694537,0.000113679605],"about_ca_topic_score_codex":0.000019238136,"about_ca_topic_score_gemma":0.000018660463,"teacher_disagreement_score":0.025867525,"about_ca_system_score_codex":0.00010443255,"about_ca_system_score_gemma":0.000012322017,"threshold_uncertainty_score":0.3314366},"labels":[],"label_agreement":null},{"id":"W2529598372","doi":"10.1093/cercor/bhw283","title":"Within-Category Decoding of Information in Different Attentional States in Short-Term Memory","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":97,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Brock University","funders":"National Institute of General Medical Sciences; National Institute of Mental Health; National Institutes of Health","keywords":"Functional magnetic resonance imaging; Working memory; Psychology; Stimulus (psychology); Decoding methods; Cognition; Electroencephalography; Brain activity and meditation; Cognitive psychology; Neural activity; Short-term memory; Neuroscience; Computer science","score_opus":0.02349647891529975,"score_gpt":0.24716458976227274,"score_spread":0.223668110846973,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2529598372","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99847674,0.000003017968,0.00034003195,0.00019713193,0.0003620201,0.00016387882,0.0000170329,0.000019585957,0.0004205748],"genre_scores_gemma":[0.99964106,0.000015387252,0.000013748874,0.00014930264,0.000020132878,0.000011331582,0.000013404281,0.000006349182,0.00012927524],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99897975,0.00005272871,0.00040107276,0.00018009654,0.00020448779,0.00018187461],"domain_scores_gemma":[0.99961644,0.00012290309,0.00008096914,0.00011810472,0.000022173026,0.000039421502],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011796105,0.00010811681,0.00014365496,0.00021369869,0.000029583833,0.00002167466,0.00012506093,0.000044101133,0.00010236451],"category_scores_gemma":[0.000095851356,0.00007081789,0.000043208038,0.0001584372,0.00006326665,0.00061927753,0.000059760874,0.00009359748,0.000021154368],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009753745,0.00008195002,0.21979305,0.00004573238,0.0000021784829,0.0000065190056,0.00024190822,0.00010093311,0.76079917,0.0044843475,0.000054178083,0.01429247],"study_design_scores_gemma":[0.00073222606,0.00008805945,0.91422045,0.000095218835,0.0000028322263,0.000008202761,0.00007017226,0.009157933,0.071748294,0.0037131584,0.000011227778,0.00015219519],"about_ca_topic_score_codex":0.00002154933,"about_ca_topic_score_gemma":0.00011536517,"teacher_disagreement_score":0.69442743,"about_ca_system_score_codex":0.0000798552,"about_ca_system_score_gemma":0.000021382313,"threshold_uncertainty_score":0.28878698},"labels":[],"label_agreement":null},{"id":"W2530621480","doi":"10.1093/cercor/bhw304","title":"Temporal Evolution of Target Representation, Movement Direction Planning, and Reach Execution in Occipital–Parietal–Frontal Cortex: An fMRI Study","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":53,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; York University","funders":"","keywords":"Posterior parietal cortex; Neuroscience; Working memory; Psychology; Parietal lobe; Sensory system; Visual memory; Cortex (anatomy); Cognitive psychology; Cognition","score_opus":0.02696518345626595,"score_gpt":0.2802295478751903,"score_spread":0.2532643644189243,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2530621480","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9950093,0.00005851804,0.0032138457,0.00009102677,0.00031502056,0.0007440051,0.00001990198,0.00006772659,0.00048064528],"genre_scores_gemma":[0.9992735,0.00000461309,0.00008682278,0.000037352303,0.00007020883,0.00005287356,0.00001862712,0.000014864997,0.00044117146],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981365,0.0002475279,0.00045987943,0.0005731303,0.00035692292,0.000226008],"domain_scores_gemma":[0.9992809,0.000057160894,0.0002686776,0.00024508257,0.000058970105,0.000089207395],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002588603,0.00016463001,0.00022751607,0.00017925154,0.00011423854,0.000035142544,0.00011082731,0.00006619617,0.000046382786],"category_scores_gemma":[0.00016524871,0.00013153077,0.00004024762,0.00023466865,0.00009149104,0.0008632047,0.000046974415,0.00008797432,0.0000057831026],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026655014,0.000407528,0.59487057,0.0000074001778,0.0000064260257,0.000009739646,0.0009188436,0.00003093535,0.4003857,0.00094003265,0.000052172818,0.002104087],"study_design_scores_gemma":[0.0019903847,0.00080022,0.98506886,0.000029791021,0.000014323553,0.0000052773507,0.0011283075,0.0033043688,0.0056038913,0.0018424027,0.00004476009,0.00016743469],"about_ca_topic_score_codex":0.0011409955,"about_ca_topic_score_gemma":0.00039862073,"teacher_disagreement_score":0.39478183,"about_ca_system_score_codex":0.00016280549,"about_ca_system_score_gemma":0.000045000652,"threshold_uncertainty_score":0.53636694},"labels":[],"label_agreement":null},{"id":"W2540663907","doi":"10.1093/cercor/bhw306","title":"Complex Trajectories of Brain Development in the Healthy Human Fetus","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":169,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; Canadian Institutes of Health Research","keywords":"Cerebellum; Fetus; Human brain; White matter; Gestation; Brain size; Gestational age; Laterality; Lateralization of brain function; Cerebellar hemisphere; Neuroscience; Brain asymmetry; Anatomy; Psychology; Medicine; Magnetic resonance imaging; Pregnancy; Biology; Radiology","score_opus":0.07256478207220317,"score_gpt":0.31949163909927936,"score_spread":0.24692685702707617,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2540663907","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9929618,0.000005720099,0.00027788582,0.0020927575,0.00019285976,0.0002651383,0.000008251699,0.00004285912,0.0041526943],"genre_scores_gemma":[0.9959647,0.0000026644875,0.00022162926,0.0033104592,0.000034365406,0.000020183206,5.9457744e-7,0.000012720275,0.00043268644],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99795425,0.00025373595,0.00042312854,0.0004400672,0.00049896137,0.00042983587],"domain_scores_gemma":[0.9986904,0.00066170364,0.00014994876,0.00039472594,0.00002374109,0.000079457684],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003935494,0.00015239543,0.00019819073,0.000056306097,0.00020091118,0.00002569787,0.00082724687,0.000042967622,0.00016531356],"category_scores_gemma":[0.0008193513,0.00008746475,0.00004025512,0.0006681306,0.0004317627,0.00015699603,0.000101000645,0.0001273549,0.000035488156],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020427597,0.00010350945,0.012613312,0.000019242201,6.513008e-7,0.000014255199,0.00096714444,5.1734895e-7,0.9727118,0.0052000615,0.0012437329,0.007105326],"study_design_scores_gemma":[0.00096138415,0.00030534988,0.6021542,0.000047938014,0.000002076232,0.000043107237,0.00022262576,0.000028107339,0.37247592,0.0007610346,0.022702504,0.00029577722],"about_ca_topic_score_codex":0.000030962998,"about_ca_topic_score_gemma":0.00006736773,"teacher_disagreement_score":0.6002359,"about_ca_system_score_codex":0.000076992525,"about_ca_system_score_gemma":0.00014248095,"threshold_uncertainty_score":0.3566709},"labels":[],"label_agreement":null},{"id":"W2558058909","doi":"10.1093/cercor/bhw366","title":"Long-term In Vivo Calcium Imaging of Astrocytes Reveals Distinct Cellular Compartment Responses to Sensory Stimulation","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":141,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Heart and Stroke Foundation of Canada","keywords":"Stimulation; Astrocyte; Calcium imaging; Neuroscience; Sensory system; Calcium; Biology; Compartment (ship); Sensory stimulation therapy; Calcium signaling; Cell biology; Signal transduction; Chemistry; Central nervous system","score_opus":0.07526011946060633,"score_gpt":0.36213887909584525,"score_spread":0.2868787596352389,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2558058909","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99811536,0.00001312855,0.0003251405,0.00057047384,0.00026879762,0.00049086584,0.000054054555,0.000044425764,0.00011775974],"genre_scores_gemma":[0.99728674,0.0000062929744,0.000016588709,0.00048039196,0.000048115304,0.000021522157,3.8075413e-7,0.00001889702,0.0021210508],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99757034,0.0004800262,0.0003792782,0.00061949115,0.0004279229,0.00052297284],"domain_scores_gemma":[0.99859256,0.0007449493,0.0001117353,0.0003111351,0.00005261482,0.00018703502],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028053517,0.00017136372,0.00025032958,0.0003008926,0.00011570034,0.000029813897,0.000379052,0.00002943273,0.00027244524],"category_scores_gemma":[0.00056712766,0.00012839849,0.00006055209,0.0004238975,0.00031383085,0.00024386706,0.00021434212,0.00013377592,0.00009747424],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027975912,0.000071194525,0.32257575,0.000011538346,6.1298164e-7,0.00015427468,0.00002739168,0.000005895513,0.67635536,0.000027936216,0.00012144077,0.00036882557],"study_design_scores_gemma":[0.0004795343,0.00011623348,0.36451975,0.000034050874,0.0000035041678,0.000012303642,0.0000031958255,0.00013233283,0.6345576,0.000016154023,0.000034303124,0.00009103557],"about_ca_topic_score_codex":0.0000057344055,"about_ca_topic_score_gemma":0.0000052886735,"teacher_disagreement_score":0.041943982,"about_ca_system_score_codex":0.00007637929,"about_ca_system_score_gemma":0.00006644428,"threshold_uncertainty_score":0.52359384},"labels":[],"label_agreement":null},{"id":"W2558634889","doi":"10.1093/cercor/bhw343","title":"Differential Sources for 2 Neural Signatures of Target Detection: An Electrocorticography Study","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Neurological Disorders and Stroke; Natural Sciences and Engineering Research Council of Canada; National Institutes of Health","keywords":"P3b; Electrocorticography; Electroencephalography; Neuroimaging; Neuroscience; Neural correlates of consciousness; Psychology; Electrophysiology; Scalp; Posterior parietal cortex; Event-related potential; Biology; Cognition","score_opus":0.018170446007886563,"score_gpt":0.2646311257294384,"score_spread":0.24646067972155186,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2558634889","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9928971,0.00002247011,0.0057489076,0.000066542576,0.0005278299,0.000551232,0.000023737472,0.00011936429,0.000042815333],"genre_scores_gemma":[0.9993556,0.0000011740433,0.000082190985,0.000118418306,0.00024486036,0.00004229742,0.0000012346793,0.000021723585,0.00013247196],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985301,0.00012316169,0.00028391575,0.0004950581,0.00023074354,0.00033705318],"domain_scores_gemma":[0.999231,0.0002051723,0.00015157103,0.00026209548,0.000057385823,0.0000927855],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000055079126,0.00018683668,0.00023453825,0.00013524972,0.00014948653,0.00005814568,0.00039259315,0.000060592705,0.000119414086],"category_scores_gemma":[0.00007116471,0.00011722661,0.00014863338,0.00018428128,0.00012208497,0.00025219863,0.00006361761,0.000102361075,0.000002973884],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020906983,0.00030783625,0.0075722598,0.000011012606,0.000016285234,0.0000021820047,0.0002363251,0.000006232953,0.9816696,0.000112703165,0.00005617725,0.00980033],"study_design_scores_gemma":[0.0010355021,0.0031238352,0.04612857,0.000009503096,0.000024374829,0.0000069161183,0.0000829426,0.0011208855,0.9471979,0.00089057186,0.00018492968,0.00019408084],"about_ca_topic_score_codex":0.000009351428,"about_ca_topic_score_gemma":0.00003376531,"teacher_disagreement_score":0.03855631,"about_ca_system_score_codex":0.000009460138,"about_ca_system_score_gemma":0.000013800581,"threshold_uncertainty_score":0.47803625},"labels":[],"label_agreement":null},{"id":"W2560161547","doi":"10.1093/cercor/bhw381","title":"Medial Temporal Lobe Contributions to Episodic Future Thinking: Scene Construction or Future Projection?","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Mental Health; Rehabilitation Research and Development Service; Canadian Institutes of Health Research; U.S. Department of Veterans Affairs","keywords":"Projection (relational algebra); Psychology; Contrast (vision); Cognitive psychology; Temporal lobe; Functional magnetic resonance imaging; Cognitive science; Artificial intelligence; Neuroscience; Computer science","score_opus":0.035232026257925375,"score_gpt":0.3084804642717464,"score_spread":0.27324843801382104,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2560161547","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.956869,0.000024472938,0.0031891377,0.024034293,0.013010584,0.001199131,0.0003556063,0.00055836403,0.000759387],"genre_scores_gemma":[0.98815334,0.000040408708,0.00083802524,0.0035159034,0.0052001546,0.00007470058,0.000012444211,0.000033708537,0.0021313012],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9975803,0.00023322026,0.00037824162,0.00075627834,0.00050115207,0.0005508037],"domain_scores_gemma":[0.9988059,0.0001317048,0.00017498544,0.00040677123,0.00013502207,0.0003456604],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00020991884,0.0002984165,0.00030229,0.00016365435,0.00065248215,0.00009177546,0.00039195135,0.00023968884,0.001440138],"category_scores_gemma":[0.0005242258,0.00017878908,0.00011977433,0.0006543699,0.00016198203,0.00047504742,0.00011881698,0.0003004666,0.0005002155],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007250387,0.00009415124,0.0007804344,0.000020483265,0.000008908202,0.00009208678,0.00024000907,3.410149e-7,0.9253511,0.041790996,0.009142592,0.021753892],"study_design_scores_gemma":[0.0017573127,0.0007505145,0.0019887656,0.00006080519,0.000031451465,0.0005765896,0.00023880441,0.00001965953,0.9505643,0.009060837,0.034471415,0.00047949122],"about_ca_topic_score_codex":0.000005469153,"about_ca_topic_score_gemma":0.000071323404,"teacher_disagreement_score":0.03273016,"about_ca_system_score_codex":0.0001487616,"about_ca_system_score_gemma":0.00020320683,"threshold_uncertainty_score":0.9994727},"labels":[],"label_agreement":null},{"id":"W2562692540","doi":"10.1093/cercor/bhw391","title":"Memory-Guided Stumbling Correction in the Hindlimb of Quadrupeds Relies on Parietal Area 5","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta; Ontario Brain Institute; Western University","funders":"Canadian Institutes of Health Research","keywords":"Obstacle; Tripping; Neuroscience; Proprioception; Hindlimb; Obstacle avoidance; Computer science; Efference copy; Physical medicine and rehabilitation; Psychology; Anatomy; Biology; Robot; Medicine; Artificial intelligence; Physics; Sensory system; Mobile robot","score_opus":0.05610374943442104,"score_gpt":0.27429925657272836,"score_spread":0.21819550713830732,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2562692540","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99104124,0.000010822755,0.000517854,0.00079514587,0.0007911172,0.0002465317,0.00000543161,0.000037646223,0.006554192],"genre_scores_gemma":[0.9979623,0.000014172548,0.000008551061,0.00046963105,0.00008186039,0.000018213375,0.0000012301824,0.000009138746,0.0014349334],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988329,0.00016206806,0.0002678135,0.0002544491,0.00030312626,0.00017966927],"domain_scores_gemma":[0.9991264,0.00044399808,0.0001406977,0.00022927554,0.00003116435,0.00002848284],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002489171,0.00010856341,0.00014311275,0.00008890259,0.000084210915,0.00002636315,0.00020126077,0.000047521276,0.00008909443],"category_scores_gemma":[0.00068916305,0.00005906386,0.00006455315,0.00019796964,0.00007884453,0.000176937,0.000020374986,0.000111921945,0.000040095223],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00049649517,0.00035286753,0.00886006,0.000023201887,0.000008924369,0.000028385133,0.002752175,0.0002268345,0.8946508,0.007883954,0.0030558587,0.08166044],"study_design_scores_gemma":[0.00593255,0.0016585175,0.71636033,0.00041155517,0.000051267532,0.000058887097,0.0019396595,0.013067824,0.25061703,0.005222572,0.003957941,0.00072185986],"about_ca_topic_score_codex":0.00009618149,"about_ca_topic_score_gemma":0.00009051989,"teacher_disagreement_score":0.7075003,"about_ca_system_score_codex":0.000032127988,"about_ca_system_score_gemma":0.000030691528,"threshold_uncertainty_score":0.24085543},"labels":[],"label_agreement":null},{"id":"W2564576559","doi":"10.1093/cercor/bhw392","title":"Delta-Band Oscillations in Motor Regions Predict Hand Selection for Reaching","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":44,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Fonds de Recherche du Québec - Santé; Natural Sciences and Engineering Research Council of Canada","keywords":"Selection (genetic algorithm); Electroencephalography; Neuroscience; Psychology; Action (physics); Motor system; Cognitive psychology; Physics; Computer science; Artificial intelligence","score_opus":0.037218354828878523,"score_gpt":0.27593602431594394,"score_spread":0.2387176694870654,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2564576559","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96516025,0.000012758092,0.031989433,0.0011888662,0.0003764886,0.00038204677,0.000056414898,0.000100988844,0.0007327257],"genre_scores_gemma":[0.9972199,0.000006082848,0.00037322604,0.00023208112,0.00017080327,0.000040254658,0.0000027682072,0.000015715352,0.0019391202],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99895,0.0000656411,0.00021278278,0.0003810625,0.000119887205,0.00027061597],"domain_scores_gemma":[0.9992989,0.00037638302,0.00007420455,0.00014865401,0.00003464079,0.00006727207],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000121007695,0.000114876275,0.00012504085,0.00012951261,0.00023025187,0.000080775186,0.00016206807,0.00006291772,0.00002761918],"category_scores_gemma":[0.00034513886,0.00008086319,0.00006105518,0.00017975226,0.00008483659,0.0003076161,0.000028874358,0.00009018222,0.000014911374],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006537414,0.000049468774,0.018457772,0.0000133915855,0.0000044229587,0.0000015490131,0.00040253415,0.000020310008,0.969676,0.0021177074,0.003329674,0.005861761],"study_design_scores_gemma":[0.003919377,0.0011035572,0.15171632,0.0004097348,0.000034572342,0.00010030909,0.000093386305,0.025545089,0.7762597,0.015090253,0.02499388,0.0007338157],"about_ca_topic_score_codex":0.000035956964,"about_ca_topic_score_gemma":0.00017632237,"teacher_disagreement_score":0.19341633,"about_ca_system_score_codex":0.00007126098,"about_ca_system_score_gemma":0.000041915613,"threshold_uncertainty_score":0.3297505},"labels":[],"label_agreement":null},{"id":"W2569374490","doi":"10.1093/cercor/bhw403","title":"Joint Attention and Brain Functional Connectivity in Infants and Toddlers","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":158,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta; Health Sciences Centre; McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Environmental Health Sciences; National Institute of Mental Health; National Institutes of Health; Simons Foundation; McDonnell Center for Systems Neuroscience; Intellectual and Developmental Disabilities Research Center; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Autism Speaks","keywords":"Default mode network; Joint attention; Psychology; Functional magnetic resonance imaging; Neuroscience; Autism spectrum disorder; Autism; Functional connectivity; Neurodevelopmental disorder; Association (psychology); Posterior cingulate; Empathy; Cognitive psychology; Developmental psychology; Psychiatry","score_opus":0.04199263968048771,"score_gpt":0.2464109192878283,"score_spread":0.20441827960734058,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2569374490","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9854205,0.00004554687,0.00027511467,0.012653138,0.00037555714,0.00019316396,0.000018102326,0.00005846007,0.0009603827],"genre_scores_gemma":[0.99691814,0.00002568664,0.000019725223,0.0021226925,0.00007443566,0.000022273347,7.891004e-7,0.0000119435135,0.00080429297],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99865735,0.00013101882,0.0001706578,0.0005911543,0.00020672401,0.00024308133],"domain_scores_gemma":[0.99723196,0.0024602383,0.000065179454,0.00013615958,0.000028980405,0.00007750576],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027076944,0.00014952935,0.00018366596,0.00013503141,0.0001617712,0.000034644476,0.0000447384,0.000058992824,0.000096049116],"category_scores_gemma":[0.005217936,0.00011305133,0.000033499677,0.00016865286,0.000280492,0.00042501316,0.00015145434,0.00010842995,0.000032700293],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019325537,0.00007499548,0.3684346,0.000023197748,0.000012504957,0.000016174303,0.00010166279,0.0000014665119,0.59468853,0.009319722,0.0041028797,0.023031017],"study_design_scores_gemma":[0.0012420289,0.00011087859,0.98770374,0.000041270894,0.0000039497213,0.000053563414,0.00004234981,0.00011794839,0.0049357675,0.004726844,0.0008496655,0.00017199623],"about_ca_topic_score_codex":0.00004140601,"about_ca_topic_score_gemma":0.00024132528,"teacher_disagreement_score":0.61926913,"about_ca_system_score_codex":0.000071576076,"about_ca_system_score_gemma":0.000027262102,"threshold_uncertainty_score":0.62467337},"labels":[],"label_agreement":null},{"id":"W2571132132","doi":"10.1093/cercor/bhw404","title":"In Vivo Evidence of Reduced Integrity of the Gray–White Matter Boundary in Autism Spectrum Disorder","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University of Toronto; SickKids Foundation; Centre for Addiction and Mental Health","funders":"Seventh Framework Programme; Hospital for Sick Children; Dr Mortimer and Theresa Sackler Foundation; Deutsche Forschungsgemeinschaft; Medical Research Council; Institute of Psychiatry, Psychology and Neuroscience, King’s College London; European Federation of Pharmaceutical Industries and Associations; National Institute for Health and Care Research; NIHR Biomedical Research Centre, Royal Marsden NHS Foundation Trust/Institute of Cancer Research; Centre for Addiction and Mental Health; GlaxoSmithKline","keywords":"Gray (unit); White matter; Autism spectrum disorder; Autism; Neuroscience; Psychology; Nuclear magnetic resonance; Magnetic resonance imaging; Medicine; Developmental psychology; Physics; Radiology","score_opus":0.029081789354380955,"score_gpt":0.3008005290121846,"score_spread":0.2717187396578037,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2571132132","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95862377,0.00010894622,0.00004088681,0.03847494,0.0002562333,0.0005118173,0.000023503602,0.000017160464,0.001942756],"genre_scores_gemma":[0.9968994,0.00007052852,0.00001888361,0.00029020532,0.000012897657,0.000024448129,1.2847995e-7,0.00002668605,0.002656774],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9972435,0.00043312807,0.0005816028,0.00057377986,0.0005937202,0.0005742698],"domain_scores_gemma":[0.9985803,0.00032095858,0.00021538207,0.00080833037,0.000008801155,0.00006625664],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003961375,0.00020655965,0.0003555207,0.0002662552,0.000063701664,0.00002370047,0.0010403127,0.00011284312,0.0026977514],"category_scores_gemma":[0.00042670988,0.00012554495,0.00012224,0.0010584522,0.0008083513,0.0005207863,0.00048662227,0.00050670287,0.00009720509],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012829182,0.00017672869,0.66883355,0.000071817936,0.000002433193,0.000011805889,0.0005034559,0.0000013670284,0.31435063,0.015328849,0.00036523203,0.00022581851],"study_design_scores_gemma":[0.0005892684,0.00009248692,0.7757046,0.00040583435,0.000002932651,0.000011687135,0.000027306236,0.000048230177,0.18129298,0.041560177,0.00011312944,0.00015132887],"about_ca_topic_score_codex":0.0009808531,"about_ca_topic_score_gemma":0.0026163794,"teacher_disagreement_score":0.13305767,"about_ca_system_score_codex":0.0001446787,"about_ca_system_score_gemma":0.00025427667,"threshold_uncertainty_score":0.99821395},"labels":[],"label_agreement":null},{"id":"W2572260529","doi":"10.1093/cercor/bhw401","title":"Neural Representations of Belief Concepts: A Representational Similarity Approach to Social Semantics","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":27,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; National Science Foundation","keywords":"Similarity (geometry); Semantics (computer science); Cognitive science; Computer science; Artificial intelligence; Psychology; Natural language processing; Cognitive psychology; Programming language","score_opus":0.061084131835349,"score_gpt":0.3708673805012288,"score_spread":0.3097832486658798,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2572260529","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.7312656,0.000021621323,0.18269214,0.0082108,0.0012603329,0.0008038276,0.0002589172,0.0002029736,0.07528376],"genre_scores_gemma":[0.99051034,0.0000011727194,0.0009594277,0.0008372037,0.00028135435,0.00004650258,0.000109676344,0.000019198076,0.007235121],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.9985639,0.0001562134,0.0004184458,0.00036816488,0.00028798849,0.00020529685],"domain_scores_gemma":[0.9990161,0.00011359474,0.00020068667,0.00029208526,0.00028771537,0.00008978477],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00013354594,0.000120281584,0.00018759901,0.00010246669,0.00015403763,0.00001849267,0.00017151353,0.00011284456,0.0022906475],"category_scores_gemma":[0.0001588978,0.000099697405,0.000093359624,0.00037355625,0.00013593514,0.0002013151,0.00005498013,0.00008706997,0.00014825018],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028868602,0.0009596093,0.39623758,0.000042262185,0.00022913047,0.000004643892,0.010183972,0.00011926064,0.009229326,0.39889303,0.16649634,0.017316181],"study_design_scores_gemma":[0.001313363,0.00007056871,0.9906782,0.000007211087,0.000028884004,0.000010095524,0.0015442483,0.00049929786,0.00033082732,0.001272057,0.0040564938,0.00018875385],"about_ca_topic_score_codex":0.00006864317,"about_ca_topic_score_gemma":0.000013257124,"teacher_disagreement_score":0.59444064,"about_ca_system_score_codex":0.000050045808,"about_ca_system_score_gemma":0.000044569668,"threshold_uncertainty_score":0.9986214},"labels":[],"label_agreement":null},{"id":"W2577408733","doi":"10.1093/cercor/bhw414","title":"Cognitive Control Structures in the Imitation Learning of Spatial Sequences and Rhythms—An fMRI Study","year":2016,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre Intégré Universitaire de Santé et de Services Sociaux du Centre-Sud-de-l'Île-de-Montréal; Centre Intégré Universitaire de Santé et de Services Sociaux du Saguenay–Lac-Saint-Jean","funders":"Leverhulme Trust","keywords":"Imitation; Premotor cortex; Psychology; Rhythm; Neuroscience; Functional magnetic resonance imaging; Cognition; Posterior parietal cortex; Working memory; Dorsolateral prefrontal cortex; Dissociation (chemistry); Cognitive psychology; Motor learning; Prefrontal cortex; Dorsum; Biology","score_opus":0.03354019780963839,"score_gpt":0.3247189076136748,"score_spread":0.2911787098040364,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2577408733","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9883624,0.000020124959,0.01002101,0.00031575246,0.00015114793,0.00035386035,0.000005852728,0.000017726477,0.00075214525],"genre_scores_gemma":[0.99957556,0.0000022995735,0.000012230132,0.00016418693,0.00007076895,0.00002213059,0.000011355033,0.000006348413,0.00013514196],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9989341,0.0004750801,0.00019855998,0.00017080667,0.0001286848,0.00009275265],"domain_scores_gemma":[0.99942714,0.00023498,0.00014487936,0.00008020053,0.00009228292,0.00002053769],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024465585,0.00007253021,0.00010869494,0.000058752456,0.00006896533,0.00001688432,0.000055928223,0.0000481817,0.00057108776],"category_scores_gemma":[0.00013504286,0.00004242178,0.000014354447,0.000091941096,0.00007537164,0.00016767888,0.0000064468245,0.000083787214,0.000009567676],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015679937,0.000089342,0.91959006,0.0000032983867,0.000030041094,0.000004024324,0.011115858,0.000011447243,0.0005844224,0.004403657,0.000023115646,0.06398795],"study_design_scores_gemma":[0.0019872105,0.00046466413,0.9806581,0.000008209257,0.000017498183,0.0000057422426,0.015777934,0.00031453616,0.000028447746,0.0006461523,0.000031209693,0.000060300026],"about_ca_topic_score_codex":0.00034876034,"about_ca_topic_score_gemma":0.00046386727,"teacher_disagreement_score":0.06392765,"about_ca_system_score_codex":0.000013211288,"about_ca_system_score_gemma":0.000016874896,"threshold_uncertainty_score":0.625301},"labels":[],"label_agreement":null},{"id":"W2590910803","doi":"10.1093/cercor/bhx038","title":"Cortical Thickness Abnormalities in Autism Spectrum Disorders Through Late Childhood, Adolescence, and Adulthood: A Large-Scale MRI Study","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":234,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Compute Canada; Fondation Brain Canada","keywords":"Autism spectrum disorder; Autism; Psychology; Neuroimaging; Abnormality; Typically developing; Audiology; Developmental psychology; Neuroscience; Medicine; Psychiatry","score_opus":0.017319134786177977,"score_gpt":0.2904298515904296,"score_spread":0.27311071680425164,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2590910803","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9816433,0.00010409393,0.00020908746,0.009958261,0.00033380493,0.0014302679,0.000049505394,0.00016476649,0.0061068903],"genre_scores_gemma":[0.9982687,0.00034506933,0.00006670348,0.00038771698,0.00005391459,0.00008017484,0.0000037943698,0.000065205226,0.00072868576],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9955964,0.00045358573,0.0005306573,0.0012513548,0.0007850166,0.0013830045],"domain_scores_gemma":[0.99811983,0.00015386692,0.00021746471,0.0012534382,0.000006693122,0.0002487253],"candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.0004997604,0.0004325114,0.0005468553,0.00017494135,0.0014620017,0.0005478858,0.0012073931,0.00017168044,0.0002812567],"category_scores_gemma":[0.00031399424,0.00040600594,0.00010118326,0.00031756496,0.00083083217,0.001183348,0.0010946835,0.0012240882,0.0001528578],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016087957,0.0017844047,0.9049249,0.00006757968,0.000015254664,0.00018503438,0.014833212,0.0000065869226,0.00022015073,0.0772536,0.000052985724,0.00049537036],"study_design_scores_gemma":[0.002993185,0.00039486948,0.94736755,0.00007693669,0.000016880043,0.000037399248,0.0016345023,0.0012928828,0.00033708455,0.04521554,0.00015175172,0.00048144744],"about_ca_topic_score_codex":0.00094797695,"about_ca_topic_score_gemma":0.009818218,"teacher_disagreement_score":0.04244258,"about_ca_system_score_codex":0.00007017037,"about_ca_system_score_gemma":0.00014444266,"threshold_uncertainty_score":0.9998392},"labels":[],"label_agreement":null},{"id":"W2596739206","doi":"10.1093/cercor/bhx017","title":"What Role Does “Elongation” Play in “Tool-Specific” Activation and Connectivity in the Dorsal and Ventral Visual Streams?","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":78,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Eye Institute; Korea National Institute of Health; Natural Sciences and Engineering Research Council of Canada; Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada; National Science Foundation","keywords":"Elongation; Functional magnetic resonance imaging; Dorsum; Neuroscience; Functional connectivity; Biology; Identification (biology); Nerve net; Anatomy; Ecology","score_opus":0.021661518269515605,"score_gpt":0.30885252717658135,"score_spread":0.2871910089070657,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2596739206","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99667084,0.00006790992,0.00022683045,0.0013405535,0.0005199034,0.00027855462,0.0000035326875,0.000018647645,0.0008732438],"genre_scores_gemma":[0.9992692,0.000057792477,0.000014278048,0.0002214159,0.000105459796,0.000026297785,0.000037130314,0.00000973086,0.00025869432],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99907064,0.0001609402,0.00020145455,0.00027843146,0.0001236816,0.00016483503],"domain_scores_gemma":[0.99942034,0.00012674886,0.00015932518,0.00023583011,0.00003231087,0.00002545845],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00029901942,0.00011168253,0.00012743201,0.000074783056,0.00024779563,0.00034949908,0.000107796724,0.00011506459,0.00028107647],"category_scores_gemma":[0.00007320893,0.000081657825,0.000017078717,0.0000786676,0.00010050412,0.0011997797,0.00003119268,0.00018745652,0.0000115336825],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000103038234,0.00013110887,0.9210818,0.000006107819,0.000009983542,0.0000047656035,0.0051995427,0.0000040471627,0.0007800151,0.009317528,0.00016086701,0.06320119],"study_design_scores_gemma":[0.0010895815,0.00004763548,0.9899151,0.000022431832,0.000003307657,0.0000060293664,0.005481477,0.00090576446,0.000252397,0.0011464504,0.0010208429,0.00010899456],"about_ca_topic_score_codex":0.00024332307,"about_ca_topic_score_gemma":0.00078927417,"teacher_disagreement_score":0.068833284,"about_ca_system_score_codex":0.000049386294,"about_ca_system_score_gemma":0.000014819341,"threshold_uncertainty_score":0.33702278},"labels":[],"label_agreement":null},{"id":"W2597045775","doi":"10.1093/cercor/bhx065","title":"Effects of Antenatal Maternal Depressive Symptoms and Socio-Economic Status on Neonatal Brain Development are Modulated by Genetic Risk","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Maternal Mental Health During Pregnancy and Postpartum","field":"Medicine","cited_by":118,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; Canadian Institute for Advanced Research; National Institute of Mental Health; Hope for Depression Research Foundation; National Medical Research Council; National Institutes of Health","keywords":"Socioeconomic status; Depressive symptoms; Brain development; Developmental psychology; Medicine; Psychology; Pediatrics; Environmental health; Psychiatry; Cognition; Neuroscience; Population","score_opus":0.005887431840986746,"score_gpt":0.24960504084443152,"score_spread":0.24371760900344477,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2597045775","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99747014,0.0013297388,0.000021717988,0.00010754179,0.00035368872,0.00048257274,0.00013680599,0.000028493372,0.00006931353],"genre_scores_gemma":[0.99874985,0.00019999167,0.00011085067,0.00015518238,0.000056729674,0.0000231113,0.000028046341,0.0000274556,0.00064880424],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998782,0.000043846983,0.00031399785,0.0003287081,0.00016256497,0.00036891276],"domain_scores_gemma":[0.9989169,0.000065913046,0.00044452937,0.00028439058,0.000024246965,0.0002640171],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000058767142,0.0002065535,0.0003417322,0.000047926926,0.0002658261,0.000036698733,0.00013505497,0.000101196034,0.000049347767],"category_scores_gemma":[0.000037963306,0.00017745567,0.00004663703,0.000009356455,0.00012757895,0.00008637747,0.00011683459,0.00018478972,0.000039193837],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00070321374,0.000060366117,0.9764063,0.0020321552,0.0001342034,0.00022799,0.0003199793,0.0000021631063,0.001700145,0.000012813138,0.00010136154,0.018299347],"study_design_scores_gemma":[0.002824373,0.00032089467,0.9302331,0.002346567,0.000043960805,0.00008198375,0.000011733766,0.00022916491,0.06360865,0.000044445813,0.000098546996,0.00015655137],"about_ca_topic_score_codex":0.00044668792,"about_ca_topic_score_gemma":0.000020899655,"teacher_disagreement_score":0.061908502,"about_ca_system_score_codex":0.0001056066,"about_ca_system_score_gemma":0.000066173256,"threshold_uncertainty_score":0.72364324},"labels":[],"label_agreement":null},{"id":"W2617084356","doi":"10.1093/cercor/bhx040","title":"Inter-Regional Variations in Gene Expression and Age-Related Cortical Thinning in the Adolescent Brain","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"Hospital for Sick Children; Cégep de Jonquière; Hotchkiss Brain Institute; Université du Québec à Chicoutimi; University of Calgary; McGill University; SickKids Foundation; University of Toronto; Montreal Neurological Institute and Hospital; Centre for Addiction and Mental Health; Baycrest Hospital","funders":"Canadian Institutes of Health Research","keywords":"Glucocorticoid receptor; Endocrinology; Androgen receptor; Internal medicine; Gene expression; Biology; Human brain; Glucocorticoid; Gene; Neuroscience; Medicine; Genetics","score_opus":0.049190230765208426,"score_gpt":0.30700221509127174,"score_spread":0.25781198432606334,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2617084356","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952225,0.00004557042,0.000279922,0.0034273358,0.00015184797,0.00022814545,0.0000049796286,0.000020729765,0.0006189406],"genre_scores_gemma":[0.9979692,0.000040805106,0.000060249167,0.0016454599,0.00003459163,0.000021083775,0.0000026477182,0.000010012172,0.00021593305],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99867046,0.00026453045,0.00025893806,0.00034645834,0.00021051173,0.00024907925],"domain_scores_gemma":[0.99911535,0.0002978844,0.0001144174,0.00040322696,0.00001025752,0.000058840036],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010639317,0.000118909134,0.00013722997,0.0000790329,0.00033958675,0.00019902876,0.00043101286,0.00007689294,0.00005550497],"category_scores_gemma":[0.00079079444,0.00008565172,0.000039342634,0.00009570818,0.00021306856,0.00019171322,0.0001876184,0.00039356368,0.000012377004],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00044199746,0.0005024038,0.18906906,0.000023012648,0.000004979266,0.000959357,0.004159697,0.000024524174,0.7728115,0.013062232,0.0015820641,0.01735922],"study_design_scores_gemma":[0.0008841994,0.000056471792,0.9888613,0.00012013628,0.0000037587617,0.0000618361,0.00012527192,0.004268781,0.0040307585,0.0011671986,0.00029563866,0.00012464006],"about_ca_topic_score_codex":0.00009064271,"about_ca_topic_score_gemma":0.00011519923,"teacher_disagreement_score":0.79979223,"about_ca_system_score_codex":0.00002670693,"about_ca_system_score_gemma":0.000032310283,"threshold_uncertainty_score":0.3492776},"labels":[],"label_agreement":null},{"id":"W2622848799","doi":"10.1093/cercor/bhx137","title":"Abnormal Gray Matter Shape, Thickness, and Volume in the Motor Cortico-Subcortical Loop in Idiopathic Rapid Eye Movement Sleep Behavior Disorder: Association with Clinical and Motor Features","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Parkinson's Disease Mechanisms and Treatments","field":"Medicine","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary; Montreal General Hospital; Université de Montréal; Hôpital du Sacré-Cœur de Montréal; Institut Universitaire de Gériatrie de Montréal; Université du Québec à Montréal","funders":"Natural Sciences and Engineering Research Council of Canada; Servier; Canadian Institutes of Health Research; Parkinson Canada; Teva Pharmaceutical Industries; Alzheimer Society; Valeant Pharmaceuticals International; Biogen; Fonds de Recherche du Québec - Santé; W. Garfield Weston Foundation; Michael J. Fox Foundation for Parkinson's Research","keywords":"Eye movement; Rapid eye movement sleep; Neuroscience; Association (psychology); Gray (unit); Psychology; Sleep (system call); Audiology; Medicine; Computer science","score_opus":0.012797549728262879,"score_gpt":0.27852405085569315,"score_spread":0.2657265011274303,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2622848799","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963283,0.00068614364,0.000011031698,0.0015025062,0.0001508799,0.0010962768,0.00004584589,0.000020174644,0.00015882099],"genre_scores_gemma":[0.9976909,0.00018859592,0.00010599047,0.0012439117,0.00010228725,0.00021854867,0.000031907966,0.000028607372,0.00038921685],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99801916,0.00015211746,0.00045089523,0.0005087076,0.0004520855,0.0004170511],"domain_scores_gemma":[0.9989676,0.000049486993,0.00025338845,0.00046351782,0.000061242376,0.00020479602],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00052103656,0.00027082037,0.00050000846,0.000078568686,0.00023005325,0.00016445527,0.00015995221,0.00022479247,0.000118149386],"category_scores_gemma":[0.00013215689,0.00017576867,0.000085292,0.000064581436,0.0001891946,0.00022752701,0.00010420517,0.0004804419,0.000023556782],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00060916535,0.000782231,0.9895122,0.000045896824,0.00006696625,0.00032287076,0.00011459556,7.880908e-8,0.00016266564,0.00007712756,0.00007092253,0.008235278],"study_design_scores_gemma":[0.0053492323,0.0008426762,0.99202424,0.000108755565,0.00037617626,0.00003076644,0.00013089154,0.0006890513,0.000012682153,0.00010590432,0.00013218721,0.00019745849],"about_ca_topic_score_codex":0.00032383853,"about_ca_topic_score_gemma":0.00047429683,"teacher_disagreement_score":0.008037819,"about_ca_system_score_codex":0.00008100961,"about_ca_system_score_gemma":0.00007310785,"threshold_uncertainty_score":0.71676385},"labels":[],"label_agreement":null},{"id":"W2624301763","doi":"10.1093/cercor/bhx142","title":"A Quadrantic Bias in Prefrontal Representation of Visual-Mnemonic Space","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa; Ottawa Hospital; McGill University; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Mnemonic; Macaque; Working memory; Neuroscience; Dorsolateral prefrontal cortex; Psychology; Saccade; Prefrontal cortex; Visual space; Cognitive psychology; Eye movement; Cognition; Perception","score_opus":0.12306715690225861,"score_gpt":0.38488478811949206,"score_spread":0.26181763121723345,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2624301763","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9937725,0.00000926603,0.0003324092,0.00021686948,0.0003079495,0.00017443723,0.000003435357,0.0000404566,0.005142689],"genre_scores_gemma":[0.99820596,0.000015530853,0.00012095933,0.00012420873,0.000039837447,0.0000066740968,0.0000023230834,0.000014908073,0.0014695849],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988459,0.00010031818,0.0002443968,0.00035358034,0.00025134807,0.00020450875],"domain_scores_gemma":[0.99923915,0.000048429883,0.00026055405,0.0003652324,0.000026167121,0.000060440212],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014270094,0.00011164077,0.00019407523,0.00009825481,0.0002018686,0.000115146446,0.00030912738,0.000068793415,0.0003188309],"category_scores_gemma":[0.00061751774,0.00010513765,0.00006319382,0.00013060629,0.00013753612,0.00042313256,0.00009217672,0.00013327428,0.00013385499],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000079506484,0.00013046127,0.013026369,0.000042769898,0.0000014346429,0.00001267064,0.00071069645,0.0000061781816,0.977235,0.0016442316,0.00005039375,0.007060274],"study_design_scores_gemma":[0.0011712802,0.00027852753,0.4565911,0.000113978946,0.000010052584,0.000018313403,0.00030942983,0.008756289,0.5292872,0.0031600764,0.00007850596,0.00022518955],"about_ca_topic_score_codex":0.00024892422,"about_ca_topic_score_gemma":0.00016927175,"teacher_disagreement_score":0.44794777,"about_ca_system_score_codex":0.000029202007,"about_ca_system_score_gemma":0.000050447627,"threshold_uncertainty_score":0.4287389},"labels":[],"label_agreement":null},{"id":"W2734664868","doi":"10.1093/cercor/bhx180","title":"Notch Activation by Shootin1 Opposing Activities on 2 Ubiquitin Ligases","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Developmental Biology and Gene Regulation","field":"Biochemistry, Genetics and Molecular Biology","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation; Hospital for Sick Children; University of Toronto","funders":"Israel Science Foundation; Helen and Martin Kimmel Institute for Stem Cell Research, Weizmann Institute of Science; Minerva Foundation; Fondation Jérôme Lejeune","keywords":"Notch signaling pathway; Notch proteins; Ubiquitin; NUMB; Cell biology; Hes3 signaling axis; Cell fate determination; Ubiquitin ligase; Transcription factor; Signal transduction; Biology; Transmembrane protein; Chemistry; Receptor; Genetics; Gene","score_opus":0.011881346713826471,"score_gpt":0.2646428139269807,"score_spread":0.25276146721315423,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2734664868","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99282485,0.0000453258,0.00015856733,0.00039817588,0.00020218342,0.000107051266,0.000017417831,0.000015313637,0.0062311017],"genre_scores_gemma":[0.9940817,0.00002470861,0.00011431379,0.0004077284,0.00018172948,0.000010788516,0.00042207405,0.000013236768,0.004743728],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99933076,0.000027685805,0.000110433,0.00027887637,0.000076495766,0.0001757783],"domain_scores_gemma":[0.99949855,0.000009400544,0.00012472797,0.00029900062,0.000022619846,0.000045677425],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007212062,0.00013000345,0.000096500386,0.000020661302,0.00041324834,0.00006400612,0.00016948815,0.00015078716,0.000037430033],"category_scores_gemma":[0.000055493012,0.00012316096,0.000047309324,0.00001554233,0.00010117768,0.0000140945685,0.00008810925,0.00006669745,0.000018953924],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010524036,0.00003448266,0.008787891,0.00000565573,0.000025515865,5.494059e-7,0.000016892218,0.0000020559473,0.96310633,0.00009077159,0.0063448497,0.02147979],"study_design_scores_gemma":[0.00026443493,0.00016189479,0.10042322,0.000020138108,0.0000051170623,0.0000037718942,0.00003941325,0.00001128723,0.88897896,0.000062536106,0.009874462,0.00015478108],"about_ca_topic_score_codex":0.000013122612,"about_ca_topic_score_gemma":0.000016569235,"teacher_disagreement_score":0.09163533,"about_ca_system_score_codex":0.000017641036,"about_ca_system_score_gemma":0.000035624988,"threshold_uncertainty_score":0.5022359},"labels":[],"label_agreement":null},{"id":"W2741612961","doi":"10.1093/cercor/bhx186","title":"Contributions of Parietal Cortex to the Working Memory of an Obstacle Acquired Visually or Tactilely in the Locomoting Cat","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Zebrafish Biomedical Research Applications","field":"Biochemistry, Genetics and Molecular Biology","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Canada Foundation for Innovation","keywords":"Obstacle; Working memory; Posterior parietal cortex; Neuroscience; Clearance; Psychology; Cognitive psychology; Computer science; Computer vision; Cognition; Medicine","score_opus":0.028966227770073145,"score_gpt":0.34824131522596874,"score_spread":0.3192750874558956,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2741612961","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959869,0.000055288616,0.00067779794,0.0016168994,0.00006365363,0.0006430317,0.000081017846,0.0000059204563,0.00086949975],"genre_scores_gemma":[0.9990129,0.000013142112,0.00018046398,0.00028931332,0.00014832533,0.00008677053,0.00010411192,0.000013354611,0.0001516384],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99862033,0.00013328355,0.0003241463,0.00028275652,0.00031397367,0.0003255069],"domain_scores_gemma":[0.99832565,0.00009907024,0.00023159668,0.0010514813,0.00016148412,0.00013072445],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006581008,0.00011716673,0.00017919454,0.000036506914,0.00032633165,0.00006623081,0.001212211,0.000112206595,0.000046110716],"category_scores_gemma":[0.0013576456,0.00007140133,0.000078747704,0.00016519488,0.00041450502,0.0000119466695,0.00031871657,0.00010983953,0.0000066913753],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028095508,0.00032784365,0.004467498,0.000023078705,0.00006500297,0.000007742171,0.00043281287,0.000008981605,0.9649657,0.00069292315,0.0016562872,0.027071176],"study_design_scores_gemma":[0.0018171988,0.0013014119,0.6902574,0.00009560756,0.00005467066,0.000033382817,0.0021074137,0.0011714582,0.28810105,0.00036521387,0.014354714,0.00034052526],"about_ca_topic_score_codex":0.0003186798,"about_ca_topic_score_gemma":0.0017614865,"teacher_disagreement_score":0.6857899,"about_ca_system_score_codex":0.000021958269,"about_ca_system_score_gemma":0.00024671375,"threshold_uncertainty_score":0.29116616},"labels":[],"label_agreement":null},{"id":"W2742494644","doi":"10.1093/cercor/bhx197","title":"Cell-Specific Gene-Expression Profiles and Cortical Thickness in the Human Brain","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurological Disease Mechanisms and Treatments","field":"Neuroscience","cited_by":156,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Chicoutimi; Dawson College; Cegep de Thetford; Cegep de Trois-Rivieres; Cégep de Jonquière; University of Calgary; McGill University; University of Toronto; SickKids Foundation; Montreal Neurological Institute and Hospital; Hospital for Sick Children","funders":"National Institute of Mental Health; National Institutes of Health; University of Toronto; Canada Foundation for Innovation; Canadian Institutes of Health Research; Government of Ontario","keywords":"Human brain; Neuroscience; Neuroplasticity; Cerebral cortex; Biology; Microglia; Cell type; Gene expression; Cortex (anatomy); Pyramidal cell; Gene; Cell; Hippocampus; Genetics","score_opus":0.05113930677311627,"score_gpt":0.29469802375742804,"score_spread":0.24355871698431178,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2742494644","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9960154,0.000045247853,0.000023898128,0.00069095416,0.00011093316,0.00034807553,0.000016907708,0.000030561703,0.0027179688],"genre_scores_gemma":[0.99845195,0.000017917531,0.00004550314,0.0011525311,0.000047806476,0.000041425043,0.000003560097,0.000011598272,0.0002276973],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99864453,0.00021533384,0.00014928513,0.00048455535,0.00023494425,0.00027137517],"domain_scores_gemma":[0.99912786,0.00015048892,0.00008718205,0.000529906,0.000008920309,0.000095655116],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000118757845,0.00014960683,0.00013717437,0.000026493453,0.0009134665,0.00026097405,0.00048071347,0.00006818302,0.00011438901],"category_scores_gemma":[0.00012801985,0.000087610955,0.00004370328,0.000040395385,0.00021777394,0.00015561399,0.00019734666,0.00023042843,0.00004672962],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000035059453,0.00027346748,0.017931193,0.000010926783,5.988292e-7,0.00035732295,0.00011808742,2.5880905e-7,0.9669783,0.013207609,0.00074037985,0.0003467731],"study_design_scores_gemma":[0.0009895657,0.00019739964,0.8196023,0.000013177703,0.0000072958796,0.000026354066,0.000032903066,0.00004344312,0.16798323,0.01062086,0.00032993438,0.00015354178],"about_ca_topic_score_codex":0.00001057404,"about_ca_topic_score_gemma":0.000002728781,"teacher_disagreement_score":0.8016711,"about_ca_system_score_codex":0.00000946145,"about_ca_system_score_gemma":0.000009438297,"threshold_uncertainty_score":0.70257384},"labels":[],"label_agreement":null},{"id":"W2743108480","doi":"10.1093/cercor/bhx205","title":"Behavioral Heterogeneity in Relation with Brain Functional Networks in Young Children","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"National Medical Research Council; Medical Research Council; National University Health System; Ministry of Education, India","keywords":"CBCL; Psychology; Default mode network; Functional magnetic resonance imaging; Anxiety; Aggression; Behavioral syndrome; Resting state fMRI; Functional connectivity; Neuroscience; Developmental psychology; Psychiatry","score_opus":0.040787016776221735,"score_gpt":0.27999843457689766,"score_spread":0.23921141780067592,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2743108480","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962898,0.000016076034,0.0002561015,0.0013758045,0.0004148406,0.0003119388,0.0000096849735,0.000048644528,0.0012771194],"genre_scores_gemma":[0.9989639,0.0000031757263,0.0000363943,0.00053621834,0.0001371081,0.00004061654,0.000012723652,0.00002019958,0.00024965056],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99846417,0.00010827336,0.0002071295,0.0006063302,0.00028873686,0.00032535623],"domain_scores_gemma":[0.9989848,0.00036648902,0.00015062738,0.00041750804,0.000026984844,0.000053586267],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022228839,0.00017984524,0.00019398268,0.00012035283,0.00044252776,0.000112940674,0.00023268237,0.0000932348,0.00004501747],"category_scores_gemma":[0.0008678752,0.00016736171,0.00004858309,0.00016729046,0.00021498854,0.0006279384,0.0001552836,0.0003620427,0.000024449962],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014280093,0.00010267938,0.99554074,0.000001722641,0.0000038128385,0.000017674367,0.00004701573,0.00120732,0.0013689128,0.0005309894,0.00032728777,0.0007090233],"study_design_scores_gemma":[0.0011201411,0.00013955025,0.9952886,0.000023654426,0.0000053654126,0.00005118651,0.000011512246,0.00233748,0.00056992495,0.00022838495,0.000026606725,0.00019760363],"about_ca_topic_score_codex":0.0006808523,"about_ca_topic_score_gemma":0.015241229,"teacher_disagreement_score":0.014560377,"about_ca_system_score_codex":0.00014473566,"about_ca_system_score_gemma":0.00004097541,"threshold_uncertainty_score":0.85049635},"labels":[],"label_agreement":null},{"id":"W2747809194","doi":"10.1093/cercor/bhx212","title":"Alternative Splicing of Disabled-1 Controls Multipolar-to-Bipolar Transition of Migrating Neurons in the Neocortex","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"RNA Research and Splicing","field":"Biochemistry, Genetics and Molecular Biology","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"National Key Research and Development Program of China; Changjiang Scholar Program of Chinese Ministry of Education; National Natural Science Foundation of China","keywords":"DAB1; Neocortex; Alternative splicing; Reelin; Exon; RNA splicing; Tyrosine; Biology; Cell biology; Phosphorylation; Gene isoform; Neuroscience; Genetics; Gene; Biochemistry","score_opus":0.016998917562811786,"score_gpt":0.2941877203367649,"score_spread":0.2771888027739531,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2747809194","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970191,0.000107990156,0.0015127816,0.00037939756,0.00004134365,0.0004465829,0.000038020033,0.0000025184238,0.00045225286],"genre_scores_gemma":[0.9993697,0.000036727066,0.00018285342,0.00017158536,0.00009032108,0.000020895217,0.000021446509,0.000012886741,0.00009363181],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99892896,0.00010905487,0.00027375726,0.0002415677,0.00019072361,0.00025591988],"domain_scores_gemma":[0.99910253,0.000040874613,0.00018084185,0.0005316589,0.000080566635,0.00006349798],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00033322396,0.00011890411,0.00020534462,0.00004947035,0.00014521684,0.00003607054,0.0004885791,0.0000629845,0.000007284757],"category_scores_gemma":[0.00026643428,0.000090926485,0.00010219816,0.0000563042,0.000120348974,0.000013581492,0.00007964879,0.00014152481,0.0000018687647],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001360214,0.000052991414,0.024989894,0.000024574449,0.000023151837,0.000004369674,0.00037948426,0.00016548614,0.9708801,0.0001693581,0.000038091275,0.0031364649],"study_design_scores_gemma":[0.0025653178,0.0011700145,0.44324592,0.00016094839,0.00003285244,0.000015380347,0.00076149404,0.010561834,0.54032975,0.00022730141,0.00064532994,0.0002838465],"about_ca_topic_score_codex":0.0019204606,"about_ca_topic_score_gemma":0.0013081686,"teacher_disagreement_score":0.43055034,"about_ca_system_score_codex":0.000008471851,"about_ca_system_score_gemma":0.000040473707,"threshold_uncertainty_score":0.37078744},"labels":[],"label_agreement":null},{"id":"W2754170262","doi":"10.1093/cercor/bhx229","title":"Multidimensional Neuroanatomical Subtyping of Autism Spectrum Disorder","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":150,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute on Deafness and Other Communication Disorders; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; Natural Sciences and Engineering Research Council of Canada; International Max Planck Research School for Environmental, Cellular and Molecular Microbiology; National Institute on Aging; National Institutes of Health; Canadian Institutes of Health Research","keywords":"Subtyping; Autism spectrum disorder; Psychology; Neuroscience; Spectrum (functional analysis); Autism; Cognitive psychology; Computer science; Developmental psychology; Programming language; Physics","score_opus":0.03130971782307597,"score_gpt":0.3038732784193946,"score_spread":0.27256356059631864,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2754170262","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9823803,0.000055508353,0.00020255624,0.01043433,0.00039991108,0.0003137391,0.000025657147,0.00008933997,0.0060987147],"genre_scores_gemma":[0.9986271,0.000029675908,0.00011664872,0.00018229382,0.00004130984,0.0000093663375,0.0000033314277,0.000043585314,0.0009466401],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.99761593,0.00011962658,0.00033848744,0.0006788115,0.00060506794,0.000642085],"domain_scores_gemma":[0.9983007,0.00016032226,0.00026099887,0.0010848873,0.000007798846,0.00018530057],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00015311924,0.0002205282,0.0003101993,0.00013685142,0.0007053553,0.00009982186,0.0009882307,0.00010057107,0.0009801468],"category_scores_gemma":[0.0005737016,0.00020805837,0.00014720752,0.00013970755,0.0006912303,0.0003887421,0.0007095077,0.00042459692,0.0003320857],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017346926,0.0003713515,0.079010844,0.000048098467,0.000017974022,0.00014001307,0.00015298548,0.000016480852,0.13724367,0.7795637,0.00028904324,0.0029723556],"study_design_scores_gemma":[0.0014279214,0.00015372258,0.8505621,0.00003397267,0.000014440437,0.000052008258,0.000011751883,0.010521192,0.10106242,0.03429177,0.0014946717,0.0003740528],"about_ca_topic_score_codex":0.00040810122,"about_ca_topic_score_gemma":0.00017130667,"teacher_disagreement_score":0.77155125,"about_ca_system_score_codex":0.000040490613,"about_ca_system_score_gemma":0.00012373747,"threshold_uncertainty_score":0.99993306},"labels":[],"label_agreement":null},{"id":"W2756062162","doi":"10.1093/cercor/bhx184","title":"Temporal Dynamics of Hippocampal and Medial Prefrontal Cortex Interactions During the Delay Period of a Working Memory-Guided Foraging Task","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute on Alcohol Abuse and Alcoholism; Canadian Institutes of Health Research","keywords":"Prefrontal cortex; Hippocampal formation; Neuroscience; Psychology; Hippocampus; Encoding (memory); Working memory; Cognition","score_opus":0.06340400893708217,"score_gpt":0.30090652368373966,"score_spread":0.23750251474665748,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2756062162","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969053,0.000017115857,0.00013873576,0.0002570898,0.001092785,0.00035406774,0.00003932644,0.00003577613,0.0011597469],"genre_scores_gemma":[0.9991723,0.00000913202,0.00012512035,0.000059189093,0.00012922575,0.000015181703,0.0000049794985,0.000024839219,0.0004600482],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984086,0.00011256173,0.0004470958,0.000414983,0.00030471943,0.00031203817],"domain_scores_gemma":[0.9985131,0.00012948897,0.00060409604,0.00060375594,0.000041461357,0.00010807819],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019155725,0.00020921414,0.0003249023,0.00007914056,0.0008157194,0.00011245953,0.00059914915,0.0000672654,0.00011956731],"category_scores_gemma":[0.00035501202,0.00015996289,0.00011761057,0.00008492018,0.00044226222,0.00041383557,0.000373779,0.0003247122,0.0000038612534],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020824515,0.000053035994,0.014728352,0.000071347145,0.00001542528,0.00005408026,0.0014543374,0.0000057514735,0.9799255,0.00094063045,0.000017065822,0.0025262362],"study_design_scores_gemma":[0.002207522,0.0003348456,0.17520337,0.00032470867,0.000106415166,0.0009815694,0.0015747276,0.022131799,0.79331946,0.003240333,0.00004651553,0.0005287256],"about_ca_topic_score_codex":0.000048156835,"about_ca_topic_score_gemma":0.00050530233,"teacher_disagreement_score":0.18660602,"about_ca_system_score_codex":0.000048904134,"about_ca_system_score_gemma":0.000050656537,"threshold_uncertainty_score":0.6523097},"labels":[],"label_agreement":null},{"id":"W2765430839","doi":"10.1093/cercor/bhx246","title":"Ventromedial Frontal Lobe Damage Alters how Specific Attributes are Weighed in Subjective Valuation","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Aesthetic Perception and Analysis","field":"Neuroscience","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Fonds de Recherche du Québec - Santé; Canadian Institutes of Health Research","keywords":"Ventromedial prefrontal cortex; Psychology; Cognitive psychology; Concreteness; Perception; Frontal lobe; Valuation (finance); Cognition; Neuroscience; Prefrontal cortex","score_opus":0.061738040490211574,"score_gpt":0.28620378317780065,"score_spread":0.22446574268758906,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2765430839","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.995797,0.000012683245,0.00046035706,0.00209361,0.00043998964,0.00017482345,0.000039199207,0.00004206291,0.00094030716],"genre_scores_gemma":[0.9985676,0.000034891116,0.0000533911,0.00021264023,0.00019888164,0.000012023102,0.000024795256,0.0000147377,0.00088104437],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99854624,0.0001391152,0.00017174701,0.0004812611,0.00035980024,0.00030182063],"domain_scores_gemma":[0.9991121,0.00002479057,0.00024752915,0.00047060862,0.000036903635,0.00010801023],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016181693,0.00016144723,0.00024202779,0.00012235853,0.0003685856,0.00026286597,0.00042119905,0.000072936324,0.00055349444],"category_scores_gemma":[0.0002781106,0.00015164001,0.00012568806,0.00012640182,0.0002472495,0.0004569342,0.00009837315,0.00019439808,0.00028598285],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024126183,0.00043820773,0.43181464,0.000017617636,0.000011936485,0.00031754517,0.0019564426,0.000034131353,0.5411351,0.0019910336,0.0034471299,0.018594993],"study_design_scores_gemma":[0.001019167,0.00005914346,0.9896742,0.000021510701,0.000014072606,0.0000073072397,0.0004069058,0.0026349125,0.0044989055,0.0007544227,0.0007145991,0.00019487113],"about_ca_topic_score_codex":0.000047166017,"about_ca_topic_score_gemma":0.00019535134,"teacher_disagreement_score":0.55785954,"about_ca_system_score_codex":0.00014244304,"about_ca_system_score_gemma":0.000031581018,"threshold_uncertainty_score":0.61837},"labels":[],"label_agreement":null},{"id":"W2767487646","doi":"10.1093/cercor/bhx273","title":"Meta-Connectomic Analysis Reveals Commonly Disrupted Functional Architectures in Network Modules and Connectors across Brain Disorders","year":2017,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":88,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"Fundamental Research Funds for the Central Universities; Beijing Municipal Science and Technology Commission; National Natural Science Foundation of China","keywords":"Disconnection; Default mode network; Neuroscience; Disease; Connectomics; Major depressive disorder; Resting state fMRI; Dysfunctional family; Cognition; Functional connectivity; Psychology; Medicine; Connectome; Psychiatry; Pathology","score_opus":0.16506410943571073,"score_gpt":0.3670647464354475,"score_spread":0.20200063699973678,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2767487646","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.017503228,0.9769537,0.00012225943,0.0011474341,0.0009297902,0.0015910476,0.0011223031,0.0001991785,0.00043109315],"genre_scores_gemma":[0.13140537,0.8635987,0.000075215066,0.0017352136,0.00062137237,0.00066810695,0.00032888268,0.00019933857,0.0013677836],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9932301,0.001463361,0.0012106227,0.0023106334,0.0006437975,0.0011414812],"domain_scores_gemma":[0.97918224,0.018046511,0.0011441073,0.0013361692,0.00005687083,0.0002341028],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.001202314,0.0012328168,0.0052011004,0.00066701445,0.0012624612,0.0004566575,0.00091382995,0.00045831228,0.00021433197],"category_scores_gemma":[0.0085449815,0.00097456947,0.002060164,0.001576804,0.0009988247,0.00023415813,0.00083847117,0.0011991262,0.000042494266],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038557468,0.00052663847,0.01963526,0.007419161,0.034479488,0.00019286877,0.0008091878,0.0037708767,0.00003350905,0.007154867,0.014370472,0.9112221],"study_design_scores_gemma":[0.0014948149,0.00027114127,0.0917917,0.0016222115,0.02202108,0.00015981513,0.000067649926,0.00084800675,0.000003539767,0.011500795,0.86713976,0.003079468],"about_ca_topic_score_codex":0.0003787845,"about_ca_topic_score_gemma":0.009676631,"teacher_disagreement_score":0.9081426,"about_ca_system_score_codex":0.00020289162,"about_ca_system_score_gemma":0.00014495915,"threshold_uncertainty_score":0.99980646},"labels":[],"label_agreement":null},{"id":"W2767822199","doi":"10.1093/cercor/bhx291","title":"The Laminar Organization of Piriform Cortex Follows a Selective Developmental and Migratory Program Established by Cell Lineage","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Olfactory and Sensory Function Studies","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Deafness and Other Communication Disorders; National Institutes of Health; Canadian Association of Gastroenterology","keywords":"Laminar organization; Neurogenesis; Neuroscience; Piriform cortex; Neuroblast; Biology; Gliogenesis; Olfactory bulb; Laminar flow; Anatomy; Progenitor cell; Cell biology; Central nervous system; Stem cell","score_opus":0.03381936912430569,"score_gpt":0.24768209198462163,"score_spread":0.21386272286031593,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2767822199","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99408346,0.000056082838,0.000020411868,0.00007506898,0.0002952638,0.0004238455,0.000026845099,0.00007477958,0.0049442654],"genre_scores_gemma":[0.99545634,0.00006835561,0.00007253221,0.000108154265,0.000033015323,0.00001749599,0.00000697868,0.000019485136,0.0042176438],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99890965,0.00006053801,0.00023640192,0.000342071,0.00021393152,0.00023740904],"domain_scores_gemma":[0.999135,0.00013339355,0.00028674293,0.000236408,0.00013896408,0.0000694727],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.0001135127,0.00016730207,0.00018544556,0.000031062827,0.0015937411,0.00021323981,0.000248964,0.000067413945,0.000025674384],"category_scores_gemma":[0.0005827347,0.00012042772,0.00003653924,0.00015714373,0.00040638773,0.00040220146,0.00013756551,0.00014833244,0.00001818559],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001266885,0.0003190651,0.31875116,0.000055315475,0.000037565456,0.000010593987,0.0023117205,2.9706163e-7,0.6527052,0.00022693766,0.016710231,0.008745233],"study_design_scores_gemma":[0.00090527115,0.00033930904,0.41685006,0.00001308495,0.00003277149,0.000014962642,0.0012774181,0.0001022216,0.55379075,0.000029673269,0.02637307,0.00027139182],"about_ca_topic_score_codex":0.000021056463,"about_ca_topic_score_gemma":0.00007314136,"teacher_disagreement_score":0.09891441,"about_ca_system_score_codex":0.00003865857,"about_ca_system_score_gemma":0.0000731449,"threshold_uncertainty_score":0.99970603},"labels":[],"label_agreement":null},{"id":"W2769943692","doi":"10.1093/cercor/bhx325","title":"The Ventral Posterior Lateral Thalamus Preferentially Encodes Externally Applied Versus Active Movement: Implications for Self-Motion Perception","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Vestibular and auditory disorders","field":"Neuroscience","cited_by":75,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute on Deafness and Other Communication Disorders; Canadian Institutes of Health Research; National Institutes of Health","keywords":"Neuroscience; Vestibular system; Sensory system; Motion perception; Macaque; Thalamus; Perception; Vestibular nuclei; Motion (physics); Psychology; Computer science; Computer vision","score_opus":0.03379748674402646,"score_gpt":0.2931530742694792,"score_spread":0.25935558752545274,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2769943692","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99272573,0.0000049457117,0.0015159685,0.00076088693,0.0014236122,0.0008662096,0.00008937782,0.00010425179,0.0025090093],"genre_scores_gemma":[0.99880105,0.000024248411,0.00014561662,0.00017128406,0.000310983,0.00018011134,0.000028027243,0.000023818697,0.0003148868],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988392,0.000041580013,0.00019126943,0.00041241408,0.00016277336,0.0003527818],"domain_scores_gemma":[0.99902755,0.00007374618,0.00024768995,0.0005227215,0.000048860617,0.000079454076],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.00007790328,0.00017092364,0.00011911501,0.00002667953,0.0017257875,0.0004634949,0.0005970314,0.00006812584,0.00004214172],"category_scores_gemma":[0.00009124795,0.00013605617,0.00010747302,0.000030356714,0.00014118491,0.00036660896,0.00010744674,0.000120066914,0.000046388708],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010852256,0.00022669965,0.0050387424,0.000031116026,0.000053053096,0.0000010581351,0.0010842672,0.000057090696,0.8809438,0.007762685,0.00033365694,0.103382625],"study_design_scores_gemma":[0.0020180743,0.00024328302,0.9716403,0.000013848268,0.00006093072,0.0000028544816,0.00009469449,0.00056536216,0.020162834,0.004211434,0.00073924375,0.00024714225],"about_ca_topic_score_codex":0.000017729983,"about_ca_topic_score_gemma":0.00009849013,"teacher_disagreement_score":0.96660155,"about_ca_system_score_codex":0.000076136734,"about_ca_system_score_gemma":0.000051163726,"threshold_uncertainty_score":0.9995738},"labels":[],"label_agreement":null},{"id":"W2771427128","doi":"10.1093/cercor/bhx317","title":"Exploring Individual Brain Variability during Development based on Patterns of Maturational Coupling of Cortical Thickness: A Longitudinal MRI Study","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University","funders":"","keywords":"Neuroscience; Brain development; Coupling (piping); Covariance; Psychology; Correlation; Human brain; Biology","score_opus":0.14757274488153246,"score_gpt":0.3053503553580378,"score_spread":0.15777761047650532,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2771427128","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973227,0.0000014483899,0.00091054046,0.0006516598,0.00044040004,0.00046215847,0.00004730356,0.000042733143,0.00012105493],"genre_scores_gemma":[0.99945146,5.7290237e-7,0.00021478655,0.00011981734,0.000079064994,0.000089055706,0.000004255043,0.000018651139,0.000022362157],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99740756,0.00011857291,0.0005295552,0.00069180294,0.0009627952,0.0002897441],"domain_scores_gemma":[0.9950078,0.0037553532,0.0003902992,0.00062253524,0.00014772991,0.00007627178],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00096158584,0.0002277965,0.00038034428,0.00012423219,0.00083965756,0.00007574439,0.00047754459,0.00005068867,0.00008205854],"category_scores_gemma":[0.010176358,0.00021299119,0.000086520835,0.0001059171,0.00021532041,0.0004212155,0.00038826183,0.00032200204,0.0000073953784],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00036544318,0.00086210074,0.97680175,0.00013797462,0.0000560608,0.000020113755,0.0008556726,0.00096017314,0.01891795,0.00084450084,0.0000114081495,0.00016687093],"study_design_scores_gemma":[0.001061686,0.00026176195,0.95381635,0.000101387064,0.000026193271,0.0000046549794,0.00025496152,0.0021562946,0.04205689,0.00006466038,0.000005210902,0.00018992585],"about_ca_topic_score_codex":0.00003675782,"about_ca_topic_score_gemma":0.00006834403,"teacher_disagreement_score":0.023138938,"about_ca_system_score_codex":0.00009881585,"about_ca_system_score_gemma":0.00017337817,"threshold_uncertainty_score":0.9981614},"labels":[],"label_agreement":null},{"id":"W2787528816","doi":"10.1093/cercor/bhy101","title":"Network-Based Asymmetry of the Human Auditory System","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":82,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Beijing Municipal Science and Technology Commission; Canadian Institutes of Health Research; National Social Science Fund of China; Canada First Research Excellence Fund; National Natural Science Foundation of China; McGill University","keywords":"Auditory cortex; Neuroscience; Lateralization of brain function; Centrality; Connectome; Cortex (anatomy); Psychology; Functional connectivity; Computer science; Tonotopy; Process (computing); Cognitive psychology; Mathematics","score_opus":0.030322649980952392,"score_gpt":0.2533746401585017,"score_spread":0.22305199017754931,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2787528816","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95860237,0.000028553346,0.00022394965,0.0011170332,0.0052916165,0.00030593638,0.000017735769,0.00016981675,0.034242984],"genre_scores_gemma":[0.9951798,1.2196472e-7,0.000031462503,0.0025598865,0.0014345872,0.000011732726,4.7984895e-7,0.000016744041,0.0007651982],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.9986665,0.000184751,0.00019783869,0.00034972883,0.00034961622,0.00025153058],"domain_scores_gemma":[0.99823177,0.0010108777,0.00016628507,0.00046215998,0.000090275746,0.000038659324],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019659387,0.000128193,0.00017581448,0.000038510352,0.0005578952,0.000017218588,0.00036198512,0.000055014323,0.00006786081],"category_scores_gemma":[0.0010825517,0.000091694914,0.00010494657,0.00040063806,0.0005376828,0.00006837401,0.00016690686,0.0001431761,0.000099364144],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011654675,0.00020595937,0.11607016,0.00028635765,0.000053970696,0.000011358588,0.00019058498,0.00025909996,0.36222526,0.10837783,0.41127908,0.00092379143],"study_design_scores_gemma":[0.0011684009,0.00061475317,0.75494,0.00027253185,0.000061813946,0.00002095906,0.0001495742,0.0023649742,0.213009,0.002108001,0.024794815,0.0004951844],"about_ca_topic_score_codex":0.000023963692,"about_ca_topic_score_gemma":0.000040788684,"teacher_disagreement_score":0.6388698,"about_ca_system_score_codex":0.00008333984,"about_ca_system_score_gemma":0.00006095737,"threshold_uncertainty_score":0.4290935},"labels":[],"label_agreement":null},{"id":"W2788222625","doi":"10.1093/cercor/bhy066","title":"Ventromedial Prefrontal Volume in Adolescence Predicts Hyperactive/Inattentive Symptoms in Adulthood","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Attention Deficit Hyperactivity Disorder","field":"Medicine","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital; Université de Montréal","funders":"National Institute of Biomedical Imaging and Bioengineering; Medical Research Council; National Institutes of Health; Cilag; Forskningsrådet om Hälsa, Arbetsliv och Välfärd; National Institute of Mental Health; Vifor Pharma; Svenska Forskningsrådet Formas; European Commission; National Institute of General Medical Sciences; Bundesministerium für Bildung und Forschung; National Institute for Health and Care Research; Wellcome Trust; South London and Maudsley NHS Foundation Trust; National Institute on Drug Abuse; Bristol-Myers Squibb; Eli Lilly and Company; AstraZeneca; Deutsche Forschungsgemeinschaft; King's College London","keywords":"Psychology; Ventromedial prefrontal cortex; Strengths and Difficulties Questionnaire; Structural equation modeling; Developmental psychology; Clinical psychology; Neuroimaging; Young adult; Prefrontal cortex; Cognition; Psychiatry; Mental health","score_opus":0.0144110382196055,"score_gpt":0.278189174035162,"score_spread":0.26377813581555654,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2788222625","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99538875,0.00011278498,0.00011005065,0.00058439706,0.0005979178,0.00085578504,0.00002445728,0.000084100146,0.0022417777],"genre_scores_gemma":[0.9978492,0.000012075771,0.00017161781,0.00032040206,0.0003885078,0.000057094097,0.000068346046,0.00004620148,0.0010865167],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9977388,0.00011829841,0.00044117635,0.0006431426,0.0004667871,0.00059181143],"domain_scores_gemma":[0.9990777,0.000044428773,0.00014310384,0.00036646286,0.00017449791,0.00019383368],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00016135145,0.0002768708,0.0004849166,0.00033302399,0.00006314153,0.000025760044,0.00016686891,0.00019925271,0.0010186641],"category_scores_gemma":[0.00027785555,0.00028036977,0.000116022835,0.00053158175,0.00025786273,0.00048798043,0.00011238604,0.0006288617,0.00081938144],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00069237576,0.0010479577,0.9804478,0.00005954417,0.000038649916,0.00016061607,0.0010722794,0.0000015621893,0.010612489,0.000043173928,0.00024714824,0.005576401],"study_design_scores_gemma":[0.005042147,0.0007093909,0.9896687,0.0003978962,0.000046095367,0.000102881066,0.0015816299,0.0016903115,0.00017014469,0.00004659354,0.00028763022,0.0002565639],"about_ca_topic_score_codex":0.00014873857,"about_ca_topic_score_gemma":0.0005408596,"teacher_disagreement_score":0.010442344,"about_ca_system_score_codex":0.00035258985,"about_ca_system_score_gemma":0.00020068613,"threshold_uncertainty_score":0.99996483},"labels":[],"label_agreement":null},{"id":"W2790446590","doi":"10.1093/cercor/bhy032","title":"Toward Leveraging Human Connectomic Data in Large Consortia: Generalizability of fMRI-Based Brain Graphs Across Sites, Sessions, and Paradigms","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"National Institute of Mental Health; Institut National de la Santé et de la Recherche Médicale; National Institutes of Health; International Mental Health Research Organization","keywords":"Generalizability theory; Reliability (semiconductor); Computer science; Neuroimaging; Sample size determination; Cognition; Artificial intelligence; Machine learning; Data mining; Psychology; Neuroscience; Power (physics); Statistics; Mathematics","score_opus":0.11404637066845401,"score_gpt":0.3487424549112227,"score_spread":0.23469608424276867,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2790446590","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9954771,0.00014220004,0.00026436275,0.002640242,0.000254738,0.00037233584,0.00054511416,0.00008915751,0.00021476741],"genre_scores_gemma":[0.9951543,0.0000077651275,0.0001287938,0.0044809673,0.00006656346,0.00001662438,0.0000688364,0.00002523975,0.00005087449],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9970768,0.00040952364,0.00047802093,0.0011577222,0.000327244,0.00055069686],"domain_scores_gemma":[0.99609804,0.002543431,0.00020200394,0.00096659263,0.000077939076,0.00011201221],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0009973136,0.00026410678,0.00045223767,0.00012886272,0.00048268953,0.000061089384,0.0005259668,0.000100196696,0.00014725201],"category_scores_gemma":[0.005420128,0.0002515252,0.00006233481,0.0004884295,0.0009656206,0.00038396684,0.00071945676,0.00025515657,0.000011633036],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012171938,0.0002726208,0.7962919,0.000114655464,0.000019996447,0.00002425246,0.00084560766,0.0000074723325,0.1908709,0.006450089,0.00465833,0.00032248223],"study_design_scores_gemma":[0.004051063,0.00037337892,0.9032933,0.00010061335,0.00002486109,0.000033621185,0.00052485,0.011503437,0.06968097,0.0061127236,0.0036560255,0.0006451342],"about_ca_topic_score_codex":0.00035229512,"about_ca_topic_score_gemma":0.0020651352,"teacher_disagreement_score":0.12118993,"about_ca_system_score_codex":0.00006397536,"about_ca_system_score_gemma":0.00010514715,"threshold_uncertainty_score":0.9999937},"labels":[],"label_agreement":null},{"id":"W2792533381","doi":"10.1093/cercor/bhy009","title":"The Prolonged Masking of Temporal Acoustic Inputs with Noise Drives Plasticity in the Adult Rat Auditory Cortex","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Centre for Research on Brain Language and Music; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Tonotopy; Auditory cortex; Neuroscience; Masking (illustration); Plasticity; Neuroplasticity; Modulation (music); Noise (video); Excitatory postsynaptic potential; Receptive field; Auditory masking; Biology; Psychology; Inhibitory postsynaptic potential; Physics; Acoustics; Computer science","score_opus":0.012585891922522666,"score_gpt":0.23187139238544885,"score_spread":0.2192855004629262,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2792533381","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968058,0.0000041342673,0.0005412418,0.00051000377,0.0009165848,0.00047658535,0.000009589314,0.000039343555,0.00069675787],"genre_scores_gemma":[0.99852604,0.0000069637563,0.000025665899,0.00082024635,0.0003185289,0.000028265094,0.0000026727007,0.000018566714,0.00025307646],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983488,0.00020809268,0.00028930913,0.00038625847,0.0004224827,0.0003450725],"domain_scores_gemma":[0.9987679,0.00052580034,0.00023742461,0.0003087711,0.00010993114,0.00005018535],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017465118,0.0001851715,0.00017771557,0.00006136956,0.00040232073,0.000084759886,0.0004607013,0.00006400978,0.000018235301],"category_scores_gemma":[0.00045857142,0.00009506963,0.000050486513,0.00040663133,0.0007054017,0.0001803536,0.00008304092,0.00031417116,0.000019634363],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011834026,0.00024638092,0.045577716,0.000067741945,0.000015586109,0.00007466536,0.0014848061,0.00020005033,0.9448386,0.0022882025,0.0018788413,0.0021440422],"study_design_scores_gemma":[0.0021825314,0.0029103125,0.86909586,0.0002053737,0.000072638606,0.00012829572,0.00063564203,0.07600798,0.045708764,0.0014384841,0.0010139561,0.00060013955],"about_ca_topic_score_codex":0.00003517338,"about_ca_topic_score_gemma":0.0011535238,"teacher_disagreement_score":0.8991298,"about_ca_system_score_codex":0.000033934393,"about_ca_system_score_gemma":0.00007931099,"threshold_uncertainty_score":0.3876827},"labels":[],"label_agreement":null},{"id":"W2792845223","doi":"10.1093/cercor/bhx313","title":"Walking, Gross Motor Development, and Brain Functional Connectivity in Infants and Toddlers","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Infant Development and Preterm Care","field":"Medicine","cited_by":101,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University; Health Sciences Centre; University of Alberta","funders":"Intellectual and Developmental Disabilities Research Center, Washington University School of Medicine in St. Louis; National Institute of Child Health and Human Development; National Institute of Environmental Health Sciences; National Institute of Mental Health; National Institutes of Health; Simons Foundation; McDonnell Center for Systems Neuroscience; Intellectual and Developmental Disabilities Research Center; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Autism Speaks","keywords":"Gross motor skill; Neuroscience; Functional connectivity; Motor area; Brain development; Motor skill; Physical medicine and rehabilitation; Psychology; Medicine","score_opus":0.02512769980859463,"score_gpt":0.2685838814327491,"score_spread":0.24345618162415444,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2792845223","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9914515,0.0001029639,0.00000853553,0.00041179804,0.00026759543,0.00025188047,0.000012355395,0.000028573017,0.0074648135],"genre_scores_gemma":[0.99777514,0.0000129066375,0.00056124607,0.0005136349,0.00008479996,0.000015631418,0.00005304099,0.000012971957,0.0009706047],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9990984,0.000020125945,0.00018233075,0.0003032783,0.00015562937,0.00024022194],"domain_scores_gemma":[0.9994736,0.0000625018,0.00009178659,0.00020402428,0.000043873417,0.00012423159],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024138976,0.00015313481,0.00023605338,0.00009230694,0.0003032094,0.000089423935,0.00006511135,0.00010435813,0.000113315335],"category_scores_gemma":[0.0002310491,0.00014003979,0.000023567816,0.000033339264,0.0001318491,0.00025419472,0.00012753392,0.00017798228,0.000005023066],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023523974,0.000007527496,0.9698387,0.00005963711,0.00003084348,0.000048835554,0.0013443974,1.8721439e-8,0.000978756,0.0001982416,0.00052208634,0.026735708],"study_design_scores_gemma":[0.0020913857,0.000055614026,0.9889646,0.00011696498,0.000010286349,0.00008351103,0.00008968015,0.000060252285,0.000627102,0.00016037203,0.007529135,0.0002111058],"about_ca_topic_score_codex":0.0000458568,"about_ca_topic_score_gemma":0.00023495374,"teacher_disagreement_score":0.026524603,"about_ca_system_score_codex":0.000045813023,"about_ca_system_score_gemma":0.00011782519,"threshold_uncertainty_score":0.5710657},"labels":[],"label_agreement":null},{"id":"W2793247508","doi":"10.1093/cercor/bhx294","title":"Amyloid Network Topology Characterizes the Progression of Alzheimer’s Disease During the Predementia Stages","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Northern California Institute for Research and Education; European Research Council; National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; National Institutes of Health; Genentech; Marcus och Amalia Wallenbergs minnesfond; Servier; Karolinska Institutet; Vetenskapsrådet; DoD Alzheimer's Disease Neuroimaging Initiative; BioClinica; Pfizer; Novartis Pharmaceuticals Corporation; Alzheimer's Association; Åke Wiberg Stiftelse; Hjärnfonden; F. Hoffmann-La Roche; Roche; National Institute on Aging; Merck; Takeda Pharmaceutical Company; Eli Lilly and Company; Bristol-Myers Squibb; GE Healthcare","keywords":"Cerebrospinal fluid; Dementia; Amyloid (mycology); Positron emission tomography; Alzheimer's disease; Neuroscience; β amyloid; Pathology; Medicine; Disease; Biology","score_opus":0.03969197582703132,"score_gpt":0.30058557331871233,"score_spread":0.260893597491681,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2793247508","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98375434,0.00039937167,0.000005942592,0.013256984,0.0010253851,0.0005002709,0.000031026837,0.000047811864,0.0009788462],"genre_scores_gemma":[0.9980343,0.00005734478,0.000010526278,0.000785203,0.0003891425,0.000075710974,0.0000016166643,0.000014502038,0.0006316467],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99867934,0.00017934699,0.00019308199,0.00036623992,0.00027117235,0.00031082926],"domain_scores_gemma":[0.9980721,0.0006712467,0.0003465905,0.00081565935,0.00003994698,0.000054457985],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.0002150509,0.00014917662,0.00016961445,0.000017383534,0.0020520007,0.00010734372,0.00064906647,0.000031668897,0.0001346317],"category_scores_gemma":[0.001685633,0.00008081272,0.00009633813,0.000058755923,0.0008536762,0.00022967852,0.00063279964,0.00016353226,0.000019420668],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0008099104,0.00022589523,0.77075803,0.00009614554,0.00021357863,0.00004349263,0.0005578048,0.00006548878,0.1962123,0.014492641,0.0077073653,0.008817316],"study_design_scores_gemma":[0.00022736985,0.000065962595,0.97598964,0.000030183992,0.000054305106,0.0000045590896,0.000031358024,0.000089294525,0.01971286,0.0006656198,0.0030293057,0.00009956777],"about_ca_topic_score_codex":0.000019651678,"about_ca_topic_score_gemma":0.00002686057,"teacher_disagreement_score":0.20523155,"about_ca_system_score_codex":0.000009727405,"about_ca_system_score_gemma":0.000035458022,"threshold_uncertainty_score":0.9992472},"labels":[],"label_agreement":null},{"id":"W2793249164","doi":"10.1093/cercor/bhx363","title":"Diversity of Cortico-descending Projections: Histological and Diffusion MRI Characterization in the Monkey","year":2017,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":33,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Centre d'Imagerie BioMédicale; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung","keywords":"Tractography; Neuroscience; Somatosensory system; Diffusion MRI; Anatomy; White matter; SMA*; Spinal cord; Internal capsule; Axon; Electrophysiology; Biology; Magnetic resonance imaging; Medicine; Computer science","score_opus":0.09689226681129072,"score_gpt":0.34613012875158367,"score_spread":0.24923786194029296,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2793249164","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948322,0.000010278533,0.0028584984,0.0014378503,0.000023935618,0.00035219057,0.0000054413695,0.000032182805,0.0004473976],"genre_scores_gemma":[0.9990173,0.00009698787,0.0006060507,0.00013826457,0.000019652285,0.000013594989,0.000014134858,0.000003704915,0.000090285896],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99958795,0.000014030874,0.000107107575,0.00013724131,0.00007965989,0.00007398386],"domain_scores_gemma":[0.9995482,0.000016663986,0.00012256848,0.00026706635,0.000023820114,0.000021664819],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005485752,0.00005266478,0.00010536841,0.000035273057,0.0005137906,0.000010433789,0.0001032796,0.00003101296,0.000007897489],"category_scores_gemma":[0.000062651394,0.000036530215,0.000021787648,0.000044820288,0.0001235421,0.000083926985,0.00021028679,0.00011018158,6.0132857e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000341357,0.00010962256,0.95058453,0.000022208771,0.0000022186189,0.0000074873274,0.00027648386,6.472671e-8,0.042685747,0.0021552662,0.00004209488,0.004080136],"study_design_scores_gemma":[0.00025422784,0.000068212576,0.99745876,0.000033530097,0.000019244022,0.000031091186,0.00004381525,0.00066216046,0.00038621336,0.0005236632,0.00048158472,0.00003751493],"about_ca_topic_score_codex":0.000049253846,"about_ca_topic_score_gemma":0.00000597832,"teacher_disagreement_score":0.046874207,"about_ca_system_score_codex":0.000019759902,"about_ca_system_score_gemma":0.000007854454,"threshold_uncertainty_score":0.39517134},"labels":[],"label_agreement":null},{"id":"W2793560073","doi":"10.1093/cercor/bhy031","title":"Global White Matter Diffusion Characteristics Predict Longitudinal Cognitive Change Independently of Amyloid Status in Clinically Normal Older Adults","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Center for Research Resources; National Institute on Aging; National Institute of Biomedical Imaging and Bioengineering; Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital; National Institutes of Health; Canadian Institutes of Health Research; Centre d'Imagerie BioMédicale; Massachusetts General Hospital","keywords":"Fractional anisotropy; Diffusion MRI; White matter; Cognitive decline; Cognition; Episodic memory; Psychology; Effects of sleep deprivation on cognitive performance; Neuroscience; Internal medicine; Medicine; Dementia; Magnetic resonance imaging; Radiology","score_opus":0.03980957992377172,"score_gpt":0.341549975888084,"score_spread":0.3017403959643123,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2793560073","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9945006,0.0000176175,0.0022335635,0.000281869,0.00011384403,0.0008480665,0.0003318331,0.00008334019,0.0015892639],"genre_scores_gemma":[0.9970179,0.000048638478,0.001113809,0.0011046503,0.00029860844,0.0000749976,0.00018826325,0.000024797426,0.0001283287],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983837,0.000028873752,0.00054090965,0.00042182542,0.00025735918,0.00036734447],"domain_scores_gemma":[0.9989886,0.000033869772,0.00025044015,0.00030010153,0.00025859545,0.00016835585],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008608659,0.00018684099,0.0003465994,0.0000800524,0.00004951744,0.00001111429,0.00011774468,0.000115177514,0.0005271309],"category_scores_gemma":[0.000052576233,0.00017103877,0.00007880334,0.00023985091,0.00023753212,0.00013197835,0.0001655804,0.00024203322,0.000073778974],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007428723,0.00036236274,0.9896841,0.000063769054,0.000010481093,0.000024236455,0.0001911656,1.1364908e-8,0.000111479225,0.000028030558,0.00025247125,0.008528995],"study_design_scores_gemma":[0.0017855308,0.0006670093,0.99616367,0.0004789085,0.00005659896,0.000049933853,0.000070601855,0.0002596271,0.00012616259,0.000075243755,0.00011775547,0.00014897769],"about_ca_topic_score_codex":0.00008265362,"about_ca_topic_score_gemma":0.00005277266,"teacher_disagreement_score":0.008380018,"about_ca_system_score_codex":0.00006115711,"about_ca_system_score_gemma":0.0000513368,"threshold_uncertainty_score":0.6974759},"labels":[],"label_agreement":null},{"id":"W2797571794","doi":"10.1093/cercor/bhy067","title":"Adult-Onset Hearing Impairment Induces Layer-Specific Cortical Reorganization: Evidence of Crossmodal Plasticity and Central Gain Enhancement","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Crossmodal; Auditory cortex; Neuroscience; Neuroplasticity; Psychology; Sensory system; Cortex (anatomy); Visual cortex; Audiology; Medicine; Perception; Visual perception","score_opus":0.07061668533426668,"score_gpt":0.350566830826588,"score_spread":0.27995014549232133,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2797571794","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.992278,0.000052277377,0.0056327884,0.00019854809,0.00067401316,0.00026070798,0.000012677684,0.000044475026,0.0008465155],"genre_scores_gemma":[0.9983221,0.000039247618,0.0005166218,0.00025455508,0.0002778983,0.000011483317,0.0000139840895,0.000015313792,0.00054875965],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984966,0.00014676066,0.0004277999,0.00039042695,0.00022242927,0.00031597356],"domain_scores_gemma":[0.9991838,0.00008527488,0.00012795233,0.00020815858,0.00024832645,0.0001465238],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00011368582,0.00015958822,0.00020155648,0.000062576706,0.00016990275,0.00005093544,0.000108100954,0.00011744926,0.010549305],"category_scores_gemma":[0.00010769536,0.00014519352,0.00004002986,0.00015304018,0.0003345485,0.00016218254,0.000052974763,0.0001821698,0.00026746962],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0017571438,0.00081429025,0.20483214,0.000093457544,0.00010008823,0.000012302426,0.01852886,0.00000504632,0.73801965,0.011363346,0.01708102,0.00739269],"study_design_scores_gemma":[0.0006449805,0.00090729335,0.96998954,0.00011616675,0.000015988815,0.000024000628,0.0011141516,0.00090091553,0.025876667,0.0000555109,0.00018207313,0.00017270252],"about_ca_topic_score_codex":0.000109020395,"about_ca_topic_score_gemma":0.000076226344,"teacher_disagreement_score":0.7651574,"about_ca_system_score_codex":0.000084234096,"about_ca_system_score_gemma":0.00003742216,"threshold_uncertainty_score":0.9903552},"labels":[],"label_agreement":null},{"id":"W2801394998","doi":"10.1093/cercor/bhy074","title":"Mapping Cortical Laminar Structure in the 3D BigBrain","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":104,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Wellcome Trust","keywords":"Cytoarchitecture; Laminar flow; Laminar organization; Neuroimaging; White matter; Anatomy; Neuroscience; Cerebral cortex; Cortex (anatomy); Geology; Computer science; Biology; Physics; Magnetic resonance imaging; Medicine; Radiology","score_opus":0.05488904631452847,"score_gpt":0.34345049515007975,"score_spread":0.2885614488355513,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2801394998","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98233616,0.0000314056,0.006519908,0.005083677,0.000054510398,0.00043444047,0.000009180443,0.00013985416,0.005390865],"genre_scores_gemma":[0.98688585,0.0000055332866,0.008777712,0.003772064,0.00024685802,0.00001827472,0.000015517886,0.000014300923,0.00026388664],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9992786,0.000030180518,0.00015345233,0.00021354594,0.00012799048,0.00019623552],"domain_scores_gemma":[0.99946135,0.00004836793,0.000034628854,0.00037342936,0.00003708742,0.000045108325],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007984943,0.00009318909,0.00012246927,0.00005612364,0.00009666772,0.000013583523,0.00014254868,0.000047329704,0.00015970804],"category_scores_gemma":[0.00006449431,0.00006222612,0.000032694075,0.00031027466,0.00017345214,0.000038598904,0.000040860425,0.00030103003,0.00003049068],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029650354,0.000724512,0.32454503,0.0002108993,0.000057911315,0.00042991067,0.006316305,0.0000020004084,0.35646597,0.10155262,0.058732215,0.15066612],"study_design_scores_gemma":[0.00061565154,0.000289474,0.8970312,0.00006961537,0.000020059171,0.00032098926,0.00036449084,0.0016352747,0.0020843104,0.008982411,0.08841471,0.0001718464],"about_ca_topic_score_codex":0.000010812521,"about_ca_topic_score_gemma":0.000013190284,"teacher_disagreement_score":0.57248616,"about_ca_system_score_codex":0.000022717999,"about_ca_system_score_gemma":0.000023886261,"threshold_uncertainty_score":0.25375077},"labels":[],"label_agreement":null},{"id":"W2801536214","doi":"10.1093/cercor/bhy097","title":"DSCAM Mutation Impairs Motor Cortex Network Dynamic and Voluntary Motor Functions","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Axon Guidance and Neuronal Signaling","field":"Neuroscience","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; Centre hospitalier universitaire de Québec","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Neuroscience; Corticospinal tract; Motor cortex; Pyramidal tracts; Primary motor cortex; Cortex (anatomy); Cerebral cortex; Biology; Psychology; Anatomy; Stimulation; Medicine; Magnetic resonance imaging; Diffusion MRI","score_opus":0.016193917144895896,"score_gpt":0.253625910441539,"score_spread":0.23743199329664308,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2801536214","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99465305,0.000120860066,0.002120735,0.00015378017,0.0011541616,0.0003881836,0.000047363606,0.00021650176,0.0011453581],"genre_scores_gemma":[0.9945282,0.000030957002,0.00019744196,0.0018832143,0.0006847715,0.000029212917,0.000015007817,0.000041154093,0.002590073],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981466,0.00009705116,0.00031777372,0.0006483691,0.0002855389,0.00050467945],"domain_scores_gemma":[0.9991451,0.00016590589,0.00014806559,0.00027858026,0.00006496932,0.00019738078],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012026701,0.0002341364,0.00020837225,0.000084991756,0.0005989953,0.00008246475,0.00020246505,0.00009521124,0.00050221145],"category_scores_gemma":[0.00010174383,0.00022503997,0.00009019977,0.0003485049,0.0003997471,0.00038595268,0.00010700228,0.0002317221,0.00040949442],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000486765,0.000120600496,0.017149786,0.00004184868,0.000026312782,0.000104220366,0.0002626052,0.000042492764,0.959976,0.0008454548,0.006728703,0.01421519],"study_design_scores_gemma":[0.0014201477,0.0024947296,0.87935627,0.00009889815,0.000109778,0.00038877456,0.00022336016,0.09732428,0.007958157,0.0025873801,0.007144188,0.0008940339],"about_ca_topic_score_codex":0.000043583106,"about_ca_topic_score_gemma":0.00006868915,"teacher_disagreement_score":0.95201784,"about_ca_system_score_codex":0.00006230187,"about_ca_system_score_gemma":0.00005998709,"threshold_uncertainty_score":0.91768634},"labels":[],"label_agreement":null},{"id":"W2802836380","doi":"10.1093/cercor/bhy104","title":"Independent Early and Late Sensory Processes for Proprioceptive Integration When Planning a Step","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; Hôpital du Saint-Sacrement","funders":"Centre National d’Etudes Spatiales","keywords":"Somatosensory system; Sensory system; Stimulus (psychology); Somatosensory evoked potential; Neuroscience; Posterior parietal cortex; Sensory processing; Psychology; Proprioception; Cognitive psychology","score_opus":0.04195904403188436,"score_gpt":0.27605652792756596,"score_spread":0.2340974838956816,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2802836380","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9930775,0.0000123707205,0.005033141,0.00022573485,0.00028368155,0.000508696,0.000023686902,0.00007750193,0.00075769343],"genre_scores_gemma":[0.9964997,0.0000031811826,0.0003925473,0.00046268423,0.0001709279,0.00003313756,0.000005768873,0.00001755016,0.0024145066],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99910986,0.000030835978,0.00014085408,0.00038633103,0.00013239348,0.00019972544],"domain_scores_gemma":[0.99954075,0.00007851703,0.0000958067,0.000097621654,0.0001283386,0.00005895379],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007627017,0.00012493272,0.00011008288,0.00006158993,0.00022160601,0.00012339427,0.00008428072,0.00006236002,0.000017723296],"category_scores_gemma":[0.00023121109,0.000099468714,0.000024261297,0.00010433141,0.00011601355,0.00030872534,0.00004580551,0.000110362016,0.000015547936],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00049226807,0.00006204304,0.011028993,0.00011680465,0.000011334241,0.000008688787,0.0035912471,0.0000043672476,0.9510506,0.0030790546,0.00037234463,0.030182257],"study_design_scores_gemma":[0.0037616543,0.00675782,0.49039397,0.00043071058,0.00010533712,0.00014574877,0.0009640708,0.06685589,0.38691503,0.038124967,0.0041216644,0.0014231611],"about_ca_topic_score_codex":0.0000159136,"about_ca_topic_score_gemma":0.000042612584,"teacher_disagreement_score":0.56413555,"about_ca_system_score_codex":0.000024730985,"about_ca_system_score_gemma":0.0000388743,"threshold_uncertainty_score":0.40562165},"labels":[],"label_agreement":null},{"id":"W2806399101","doi":"10.1093/cercor/bhy102","title":"Neural Correlates of Personalized Spiritual Experiences","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Religion, Spirituality, and Psychology","field":"Social Sciences","cited_by":65,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University","funders":"National Center for Advancing Translational Sciences; National Institute on Drug Abuse; Connecticut Mental Health Center Foundation; National Institutes of Health; Peter Boris Centre for Addictions Research; State of Connecticut Department of Mental Health and Addiction Services; National Center for Responsible Gaming","keywords":"Psychology; Spirituality; Neural correlates of consciousness; Perception; Cognitive psychology; Inferior parietal lobule; Psychology of self; Feeling; Functional magnetic resonance imaging; Cognition; Neuroscience; Social psychology; Medicine","score_opus":0.03777512721511249,"score_gpt":0.3465103042003798,"score_spread":0.3087351769852673,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2806399101","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.93431175,0.00052206166,0.00003600937,0.0009909449,0.0019936142,0.00014540054,0.0000047537314,0.00007009184,0.06192538],"genre_scores_gemma":[0.9960532,0.00003558599,0.00008932005,0.00067457143,0.0008189589,0.000011979979,0.00000417357,0.000009364462,0.0023028275],"study_design_codex":"qualitative","study_design_gemma":"observational","domain_scores_codex":[0.9984566,0.00022156285,0.00029539553,0.00029642938,0.00034955356,0.00038043753],"domain_scores_gemma":[0.99922884,0.000100988305,0.00014098322,0.00020343556,0.0001788072,0.00014695541],"candidate_categories":["sts","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00037535626,0.00012470354,0.00024089117,0.00006345776,0.00040452075,0.0000408465,0.00038555468,0.00015727355,0.0031010164],"category_scores_gemma":[0.00015396519,0.00011194491,0.00012312278,0.00029345893,0.0028065639,0.00017228092,0.000037409434,0.000108803644,0.00015594867],"study_design_candidate":"qualitative","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021458606,0.00019564366,0.34273136,0.000018763007,0.00005339369,0.000010248708,0.51542264,2.9594142e-7,0.000810337,0.08627061,0.04776017,0.0065119383],"study_design_scores_gemma":[0.0026216246,0.001677967,0.44687805,0.00007454921,0.00008285267,0.000030285848,0.3959673,0.00019923916,0.0007223426,0.017148344,0.13351381,0.0010836581],"about_ca_topic_score_codex":0.0038814482,"about_ca_topic_score_gemma":0.0021220385,"teacher_disagreement_score":0.11945537,"about_ca_system_score_codex":0.000021490885,"about_ca_system_score_gemma":0.00010315936,"threshold_uncertainty_score":0.99990726},"labels":[],"label_agreement":null},{"id":"W2885191961","doi":"10.1093/cercor/bhy179","title":"Adolescent Nicotine Exposure Induces Dysregulation of Mesocorticolimbic Activity States and Depressive and Anxiety-like Prefrontal Cortical Molecular Phenotypes Persisting into Adulthood","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Nicotinic Acetylcholine Receptors Study","field":"Biochemistry, Genetics and Molecular Biology","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Prefrontal cortex; Anxiety; Phenotype; Nicotine; Psychology; Medicine; Psychiatry; Cognition; Biology; Genetics; Gene","score_opus":0.006200972733921847,"score_gpt":0.24349839278395727,"score_spread":0.23729742005003543,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2885191961","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99755365,0.0011450899,0.00067063526,0.000055194294,0.0001115811,0.00036460848,0.000014149942,0.000017840588,0.00006726588],"genre_scores_gemma":[0.9987248,0.00014437342,0.0007563329,0.0000794363,0.00017421869,0.000013637137,0.000050077175,0.000029393072,0.00002770026],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985966,0.00012641742,0.00028430784,0.00053803687,0.00018285653,0.0002717641],"domain_scores_gemma":[0.99917597,0.000017698369,0.00021474245,0.00026497745,0.00018636465,0.00014027009],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012628609,0.00023081382,0.0002686634,0.000035333636,0.00014419829,0.000026254027,0.00011763097,0.00017297536,0.000016492295],"category_scores_gemma":[0.00013538227,0.00021781171,0.000060746675,0.000080075304,0.00035317734,0.00001681317,0.00030855954,0.000160923,0.0000013530888],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021324522,0.00014798006,0.11763208,0.00006319953,0.000099987796,2.8338349e-7,0.00048380092,0.0000028281256,0.8687206,0.000019553772,0.000053209904,0.012563232],"study_design_scores_gemma":[0.0010627159,0.0008871048,0.34946245,0.000046622987,0.00009810459,0.000016030177,0.00045243805,0.00041177723,0.64720786,0.000034523,0.000080378544,0.00024000803],"about_ca_topic_score_codex":0.00006144503,"about_ca_topic_score_gemma":0.00011146504,"teacher_disagreement_score":0.23183036,"about_ca_system_score_codex":0.000021796144,"about_ca_system_score_gemma":0.00006401029,"threshold_uncertainty_score":0.88821036},"labels":[],"label_agreement":null},{"id":"W2885545270","doi":"10.1093/cercor/bhy085","title":"Neuronal Mechanisms Recording the Stream of Consciousness–A Reappraisal of Wilder Penfield’s (1891–1976) Concept of Experiential Phenomena Elicited by Electrical Stimulation of the Human Cortex","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurology and Historical Studies","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"University of Calgary; McGill University; Montreal Neurological Institute and Hospital","funders":"Deutsche Forschungsgemeinschaft","keywords":"Context (archaeology); Neuroscience; Cognitive science; Experiential learning; Consciousness; Psychology; Human memory; Declarative memory; Cognitive psychology; Cognition; History","score_opus":0.02055335940285967,"score_gpt":0.27506745415608946,"score_spread":0.2545140947532298,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2885545270","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99640304,0.000049814447,0.0004307621,0.00016284864,0.00067027385,0.00033375242,0.00004750094,0.000020053743,0.0018819646],"genre_scores_gemma":[0.9993996,0.0000050193553,0.00002539625,0.00025664282,0.000086648346,0.000008964421,0.000003574695,0.00001528149,0.00019885547],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980729,0.00028126317,0.000605738,0.0003716739,0.0004085275,0.0002598798],"domain_scores_gemma":[0.99830836,0.0005055348,0.00061988976,0.0003632063,0.00015950594,0.00004350099],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012200484,0.00017918689,0.00042199556,0.000059158592,0.00032556785,0.000006038622,0.00048812345,0.00010733608,0.00026735058],"category_scores_gemma":[0.0003601545,0.00011954186,0.00015045327,0.00043126947,0.0015688465,0.000076999466,0.00018074828,0.00023872731,0.0000016637845],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018261743,0.00020547521,0.0031918956,0.000012432503,0.000020086913,4.4469755e-7,0.00084854674,0.0000046429723,0.97573274,0.016886286,0.0024202173,0.00049463013],"study_design_scores_gemma":[0.001035212,0.0018183334,0.03517491,0.00001980421,0.00008715235,0.0000064263927,0.00016141152,0.0006185239,0.95854104,0.0013154723,0.0010438007,0.00017791941],"about_ca_topic_score_codex":0.00019454077,"about_ca_topic_score_gemma":0.000026063555,"teacher_disagreement_score":0.031983014,"about_ca_system_score_codex":0.000014472942,"about_ca_system_score_gemma":0.000046732745,"threshold_uncertainty_score":0.57804805},"labels":[],"label_agreement":null},{"id":"W2888080590","doi":"10.1093/cercor/bhy193","title":"Musicians at the Cocktail Party: Neural Substrates of Musical Training During Selective Listening in Multispeaker Situations","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":100,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"International Laboratory for Brain, Music and Sound Research; McGill University; Centre for Research on Brain Language and Music; Montreal Neurological Institute and Hospital","funders":"National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; National Institutes of Health; Deutsche Forschungsgemeinschaft; Natural Sciences and Engineering Research Council of Canada; Fondation Brain Canada","keywords":"Active listening; Musical; Psychology; Training (meteorology); Neural correlates of consciousness; Cognitive psychology; Communication; Neuroscience; Cognition; Visual arts; Art; Geography","score_opus":0.054130230338620855,"score_gpt":0.290738131875726,"score_spread":0.23660790153710515,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2888080590","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99633527,0.0000028017498,0.000023726421,0.00032211823,0.0004148801,0.0002653211,0.00001229873,0.000054710916,0.0025688966],"genre_scores_gemma":[0.9982571,0.0000036461151,0.00002272465,0.0009282717,0.00020434032,0.00002028506,0.000002602049,0.00001723671,0.00054377073],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99826205,0.00014507235,0.00031525243,0.0005212064,0.0003071363,0.00044928564],"domain_scores_gemma":[0.99929816,0.0001784193,0.00013659973,0.00025518078,0.00005927341,0.000072397204],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015840722,0.0001611106,0.00018862872,0.000106598716,0.00050975865,0.000052444837,0.00026660334,0.00005914059,0.00020499191],"category_scores_gemma":[0.0003639507,0.00012440266,0.00007829264,0.0007124238,0.00072684005,0.00035163626,0.00011909685,0.0002478939,0.000051237053],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000039151935,0.000043258755,0.0029462816,0.0000048147003,0.0000011156567,0.000013438428,0.009513337,0.000046294437,0.9853075,0.0001541201,0.00008730287,0.0018433839],"study_design_scores_gemma":[0.0006842798,0.00019500784,0.7754236,0.000036296868,0.000014292349,0.00008593706,0.0018804974,0.010295893,0.21084529,0.00018291404,0.00013047797,0.00022554614],"about_ca_topic_score_codex":0.00007907342,"about_ca_topic_score_gemma":0.0023555213,"teacher_disagreement_score":0.7744622,"about_ca_system_score_codex":0.00007237722,"about_ca_system_score_gemma":0.000061660896,"threshold_uncertainty_score":0.50729936},"labels":[],"label_agreement":null},{"id":"W2888188594","doi":"10.1093/cercor/bhy197","title":"Interdatabase Variability in Cortical Thickness Measurements","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Foothills Medical Centre; Alberta Health Services; McGill University; Hotchkiss Brain Institute; University of Calgary","funders":"Canadian Institutes of Health Research; Canada Research Chairs","keywords":"Neuroscience; Biology; Psychology","score_opus":0.08302164276349344,"score_gpt":0.30884286293512825,"score_spread":0.2258212201716348,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2888188594","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97790897,0.000004878192,0.0017088956,0.0017641097,0.0013701909,0.00029360954,0.000020814465,0.00011867753,0.016809842],"genre_scores_gemma":[0.99562037,8.2226046e-7,0.00015193009,0.0038052343,0.00018839969,0.000026172342,0.0000019441527,0.000013820238,0.00019127928],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99776345,0.0005230263,0.00026327872,0.0006879451,0.00041129408,0.00035099484],"domain_scores_gemma":[0.9969347,0.002397511,0.000054077474,0.00041905715,0.00010577426,0.00008889182],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.0010480166,0.00015874725,0.00019887164,0.00008085034,0.000204283,0.000035205125,0.00025808578,0.000057693313,0.000577681],"category_scores_gemma":[0.026121326,0.00014462913,0.000050274128,0.00039708317,0.00047560554,0.00027490963,0.00028477763,0.00028971743,0.00048049047],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00070619053,0.0009967708,0.44265413,0.00007100151,0.000027569416,0.00005442704,0.0009237049,0.000003192438,0.5189039,0.01843217,0.010622452,0.006604501],"study_design_scores_gemma":[0.00150218,0.0004080535,0.8503114,0.000068197965,0.000020076724,0.00005221293,0.000114934825,0.0020644309,0.1319824,0.008610616,0.0043392447,0.0005262764],"about_ca_topic_score_codex":0.000057445373,"about_ca_topic_score_gemma":0.00034355794,"teacher_disagreement_score":0.40765724,"about_ca_system_score_codex":0.00014662536,"about_ca_system_score_gemma":0.00007054544,"threshold_uncertainty_score":0.98208207},"labels":[],"label_agreement":null},{"id":"W2889179699","doi":"10.1093/cercor/bhy204","title":"Maturation of the Human Cerebral Cortex During Adolescence: Myelin or Dendritic Arbor?","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; SickKids Foundation; Holland Bloorview Kids Rehabilitation Hospital; University of Toronto","funders":"National Institute of Biomedical Imaging and Bioengineering; Medical Research Council; National Institutes of Health; Vetenskapsrådet; Svenska Forskningsrådet Formas; Fondation pour la Recherche Médicale; EU Joint Programme – Neurodegenerative Disease Research; Institut National de la Santé et de la Recherche Médicale; Agence Nationale de la Recherche; Deutsche Forschungsgemeinschaft; National Institute for Health and Care Research; Mission Interministérielle de Lutte Contre les Drogues et les Conduites Addictives; European Commission","keywords":"Myelin; Neuroscience; Cortex (anatomy); Biology; Cerebral cortex; White matter; Human brain; Oligodendrocyte; Central nervous system; Magnetic resonance imaging; Medicine","score_opus":0.04529827670135839,"score_gpt":0.3405659199363404,"score_spread":0.295267643234982,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2889179699","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99552673,0.00002434127,0.0008737339,0.0008857492,0.00014706417,0.0006207636,0.0000145723425,0.0002102691,0.0016967603],"genre_scores_gemma":[0.9950063,0.000008058568,0.0020668278,0.0005852511,0.00037973438,0.000030429712,0.000014600953,0.0000357613,0.0018730023],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99877065,0.00002803215,0.0003612916,0.00033521466,0.000243818,0.00026100743],"domain_scores_gemma":[0.9988677,0.00001795341,0.00017953053,0.00067312934,0.00017108288,0.00009059776],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000056021716,0.00016759761,0.00023260036,0.000063206055,0.00027793905,0.000018210145,0.00024071474,0.000076850185,0.00030949517],"category_scores_gemma":[0.000057514342,0.00011472565,0.00010501437,0.00032083437,0.0003348645,0.00010248498,0.00011452444,0.00028257412,0.00002992836],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00027597116,0.0002620766,0.08861303,0.00029892748,0.000031768042,0.000018205077,0.00022404868,9.369199e-7,0.896276,0.008614779,0.0026562088,0.0027280399],"study_design_scores_gemma":[0.00071032805,0.0001855153,0.90266854,0.00029898607,0.000067840614,0.00014023726,0.00006589486,0.0002861958,0.09353366,0.0012140516,0.00067323016,0.00015553816],"about_ca_topic_score_codex":0.000018577277,"about_ca_topic_score_gemma":0.000026443395,"teacher_disagreement_score":0.8140555,"about_ca_system_score_codex":0.000058597307,"about_ca_system_score_gemma":0.00007016316,"threshold_uncertainty_score":0.4678376},"labels":[],"label_agreement":null},{"id":"W2894670374","doi":"10.1093/cercor/bhy231","title":"Altered White Matter Organization in the TUBB3 E410K Syndrome","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hamilton Health Sciences","funders":"Boston Children's Hospital; Intellectual and Developmental Disabilities Research Center; National Institutes of Health; National Eye Institute; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Howard Hughes Medical Institute","keywords":"Fractional anisotropy; Corpus callosum; White matter; Diffusion MRI; Corticospinal tract; Neuroimaging; Psychology; Endophenotype; Neuroscience; Magnetic resonance imaging; Pyramidal tracts; Medicine; Cognition; Radiology","score_opus":0.03665468334787248,"score_gpt":0.3163464266729352,"score_spread":0.27969174332506275,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2894670374","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9779287,0.000010024686,0.0060119177,0.00930814,0.0000667384,0.00046723912,0.0000047163976,0.00014094712,0.0060615623],"genre_scores_gemma":[0.991067,0.000003952433,0.0020156417,0.005781289,0.0001219397,0.00002148706,0.00003806644,0.000022953152,0.0009276632],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99939966,0.000018406781,0.00014275288,0.00019229656,0.000101947335,0.0001449079],"domain_scores_gemma":[0.9994488,0.000012768385,0.000040069965,0.00038086987,0.00008379963,0.00003374033],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005301343,0.00008271051,0.00010390057,0.00005146861,0.000069067064,0.00001847348,0.00013027611,0.000033169476,0.00073196663],"category_scores_gemma":[0.00002214981,0.00005869271,0.000018521525,0.00049965875,0.00007482993,0.00006684377,0.00003599092,0.00013341737,0.00043070415],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000018136994,0.00013952088,0.9466053,0.000028159226,0.000007208891,0.000034984925,0.00047022043,5.2645163e-7,0.00542168,0.0017367945,0.044512406,0.0010250431],"study_design_scores_gemma":[0.000256697,0.000101601225,0.99090177,0.000028071398,0.000015258313,0.0004559262,0.000039568276,0.000095367155,0.0006715563,0.0011769328,0.006181201,0.00007604935],"about_ca_topic_score_codex":0.000007761411,"about_ca_topic_score_gemma":0.0000041920903,"teacher_disagreement_score":0.044296455,"about_ca_system_score_codex":0.000023496612,"about_ca_system_score_gemma":0.000018008157,"threshold_uncertainty_score":0.80145216},"labels":[],"label_agreement":null},{"id":"W2895745924","doi":"10.1093/cercor/bhy247","title":"Early Adolescence is a Critical Period for the Maturation of Inhibitory Behavior","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurotransmitter Receptor Influence on Behavior","field":"Neuroscience","cited_by":79,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University; McGill University; Douglas Mental Health University Institute","funders":"National Institute on Drug Abuse; Fonds de Recherche du Québec - Santé; Fulbright Canada; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; National Institutes of Health","keywords":"Dopamine; Amphetamine; Prefrontal cortex; Psychology; Psychopathology; Neuroscience; Cognition; Period (music); Inhibitory control; Adolescent development; Developmental psychology; Inhibitory postsynaptic potential; Clinical psychology","score_opus":0.04078149292540039,"score_gpt":0.31815784538643394,"score_spread":0.27737635246103354,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2895745924","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967701,0.000015963227,0.0005589661,0.00079692417,0.0007781866,0.00082100957,0.0000728423,0.0000665517,0.000119446864],"genre_scores_gemma":[0.9974818,0.000002130543,0.00026329161,0.0015976555,0.0002545438,0.0001781803,7.0127294e-7,0.000029319368,0.00019234569],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99847645,0.000063699525,0.00032019167,0.0004477962,0.00036231655,0.00032956974],"domain_scores_gemma":[0.9990659,0.0001597372,0.00009172342,0.00042744732,0.00016776621,0.00008742775],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000093501476,0.00016765151,0.00016004946,0.00005466527,0.00027952596,0.0000903527,0.00046246784,0.00008233756,0.00040719155],"category_scores_gemma":[0.00018148992,0.00012705135,0.0001310254,0.00021013778,0.0009860644,0.00035114744,0.000053306143,0.0001952495,0.00014330592],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000103538885,0.00009643805,0.00488327,0.000025721378,9.4602603e-7,0.0000042286542,0.000531996,3.5698243e-8,0.9887498,0.0012289193,0.00059139833,0.0037837105],"study_design_scores_gemma":[0.00031838793,0.00041905834,0.2111683,0.000040342577,0.000049742353,0.000033965076,0.000079518744,0.00008474944,0.7869084,0.00007955585,0.0006517216,0.00016627993],"about_ca_topic_score_codex":0.000013272735,"about_ca_topic_score_gemma":0.000003359769,"teacher_disagreement_score":0.20628503,"about_ca_system_score_codex":0.00002312278,"about_ca_system_score_gemma":0.000056947058,"threshold_uncertainty_score":0.5181003},"labels":[],"label_agreement":null},{"id":"W2898274719","doi":"10.1093/cercor/bhy268","title":"High-Expanding Regions in Primate Cortical Brain Evolution Support Supramodal Cognitive Flexibility","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"European Research Council; Australian Research Council; Norges Forskningsråd","keywords":"Neocortex; Neuroscience; Cognition; Cognitive flexibility; Cortex (anatomy); Context (archaeology); Flexibility (engineering); Biology; Functional organization; Primate; Psychology","score_opus":0.03609818275104494,"score_gpt":0.3101153302192959,"score_spread":0.27401714746825095,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2898274719","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9922565,0.0000020218997,0.0033094278,0.00089972053,0.0009368606,0.0004367602,0.0000524575,0.00016067135,0.0019455594],"genre_scores_gemma":[0.9974666,0.000001880302,0.00006322948,0.0013637505,0.00023653607,0.000022286644,0.00003778724,0.000024923384,0.00078295625],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99768704,0.0002537113,0.00040072616,0.0007769026,0.00032329527,0.00055829703],"domain_scores_gemma":[0.9989469,0.00040605216,0.000120560755,0.00027946007,0.00008899326,0.00015800292],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003590422,0.00021165294,0.00024821854,0.0001570565,0.00031939227,0.000075844495,0.00018716273,0.00012920279,0.00040469228],"category_scores_gemma":[0.0014489545,0.00019858476,0.00008650939,0.00055373245,0.00048576304,0.00042156826,0.00013832808,0.00038062505,0.00030981287],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011950413,0.00068671914,0.04999835,0.000057633784,0.00001422541,0.00019762314,0.000638217,0.000014628708,0.7730931,0.16761735,0.0025061471,0.003980949],"study_design_scores_gemma":[0.0024611726,0.0014531226,0.87735045,0.00009495035,0.000034553545,0.00019623981,0.00027481792,0.018471204,0.06429815,0.034436006,0.00023184069,0.0006974596],"about_ca_topic_score_codex":0.0001240819,"about_ca_topic_score_gemma":0.00033766314,"teacher_disagreement_score":0.8273521,"about_ca_system_score_codex":0.00022998887,"about_ca_system_score_gemma":0.000107764514,"threshold_uncertainty_score":0.80980515},"labels":[],"label_agreement":null},{"id":"W2898664681","doi":"10.1093/cercor/bhy242","title":"Resting-State Activity in High-Order Visual Areas as a Window into Natural Human Brain Activations","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institute for Advanced Research","keywords":"Resting state fMRI; Stimulus (psychology); Neuroscience; Psychology; Functional connectivity; Trait; Visual perception; Cognitive psychology; Computer science; Perception","score_opus":0.024999040517744747,"score_gpt":0.31049577125581396,"score_spread":0.2854967307380692,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2898664681","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98827726,0.000006981861,0.0000977922,0.0077992845,0.0007489294,0.00040152963,0.000009548323,0.00022049963,0.0024381976],"genre_scores_gemma":[0.9925107,0.0000010192225,0.00010916789,0.004315273,0.00034886404,0.00005424842,0.0000056084477,0.00004100883,0.0026141421],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99748063,0.0003040847,0.00027207276,0.00093121413,0.00047344007,0.0005385689],"domain_scores_gemma":[0.9964495,0.002729083,0.00017197164,0.0003617769,0.0001763778,0.0001113466],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00026751662,0.00030827976,0.0003094,0.0002905754,0.0008955039,0.00011040673,0.00030060817,0.00009049943,0.000158965],"category_scores_gemma":[0.012409579,0.00030381713,0.00007487397,0.0011387386,0.0005195065,0.0007272102,0.00032692595,0.0005478766,0.0002567859],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023975667,0.0003019607,0.02100894,0.000020265777,0.000021536618,0.00003964478,0.0009778327,0.000015931151,0.9660113,0.0039439565,0.0033895394,0.004029351],"study_design_scores_gemma":[0.0011364656,0.00056623487,0.86402917,0.000049153277,0.000007981323,0.000024883568,0.00010160145,0.0006710351,0.118349284,0.013458125,0.0011525924,0.0004534946],"about_ca_topic_score_codex":0.0015484376,"about_ca_topic_score_gemma":0.0050859354,"teacher_disagreement_score":0.84766203,"about_ca_system_score_codex":0.0002626461,"about_ca_system_score_gemma":0.00015878622,"threshold_uncertainty_score":0.9999414},"labels":[],"label_agreement":null},{"id":"W2899306076","doi":"10.1093/cercor/bhy248","title":"Dissociation of Appetitive Overexpectation and Extinction in the Infralimbic Cortex","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"Canada Research Chairs","keywords":"Infralimbic cortex; Neuroscience; Extinction (optical mineralogy); Dissociation (chemistry); Psychology; Prefrontal cortex; Chemistry; Cognition","score_opus":0.04398754477038634,"score_gpt":0.30123063295912555,"score_spread":0.2572430881887392,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2899306076","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99589235,0.000006904784,0.00008810589,0.00014117951,0.0002088765,0.00023169212,0.0000061264864,0.00001835684,0.0034063824],"genre_scores_gemma":[0.99923193,0.0000120096,0.000015678044,0.0005038796,0.00008131516,0.000011524335,0.000003631474,0.0000058115907,0.00013422949],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99909824,0.00018587438,0.00017876262,0.00021887753,0.000187908,0.00013032177],"domain_scores_gemma":[0.9995249,0.00016360353,0.00014055938,0.00011903875,0.000029119095,0.000022810102],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015661746,0.00007999465,0.00009795003,0.000055513854,0.00010872973,0.000022904911,0.000099219666,0.000046999823,0.000132767],"category_scores_gemma":[0.00025041864,0.000059597707,0.000023926827,0.0002551902,0.000112202106,0.00021275952,0.000025523788,0.000093559654,0.000022211067],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006755721,0.00004597055,0.0025997066,0.000011733337,0.0000012357195,0.0000026837388,0.0025061565,2.5420175e-7,0.9816595,0.010105453,0.000038435184,0.0029613182],"study_design_scores_gemma":[0.00038305952,0.00040620135,0.35003224,0.000022713208,0.00000739496,0.000013713349,0.0008894767,0.00060276926,0.6385526,0.008945307,0.00005246523,0.00009208827],"about_ca_topic_score_codex":0.00000925211,"about_ca_topic_score_gemma":0.000058940303,"teacher_disagreement_score":0.34743252,"about_ca_system_score_codex":0.000017870001,"about_ca_system_score_gemma":0.000011093879,"threshold_uncertainty_score":0.2430324},"labels":[],"label_agreement":null},{"id":"W2904041017","doi":"10.1093/cercor/bhy251","title":"Gestational Stress Augments Postpartum β-Amyloid Pathology and Cognitive Decline in a Mouse Model of Alzheimer’s Disease","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"Canadian Institutes of Health Research; Alberta Innovates; Natural Sciences and Engineering Research Council of Canada; Alzheimer Society; Canadian Institute for Advanced Research","keywords":"Disease; Cognition; Neuroscience; Amyloid (mycology); Medicine; Pathology; Tau pathology; Cognitive decline; Alzheimer's disease; Psychology; Dementia","score_opus":0.04329155297622427,"score_gpt":0.30571728469268683,"score_spread":0.26242573171646255,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2904041017","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980688,0.00012241605,0.00027664524,0.0001528969,0.000062946776,0.00023615426,0.0008749802,0.000019812014,0.00018533219],"genre_scores_gemma":[0.9987093,0.00011038344,0.00008041419,0.0007662243,0.000029636247,0.000027668722,0.000020313091,0.000015275857,0.00024074514],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9987847,0.00010213946,0.0002615956,0.0003905094,0.00021613794,0.0002448789],"domain_scores_gemma":[0.9993815,0.00013313361,0.00011697935,0.00014441676,0.000077398356,0.00014658138],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000026329004,0.00013426525,0.00017077108,0.00010769514,0.000064053755,0.000018928817,0.00012304998,0.000046488392,0.000092285816],"category_scores_gemma":[0.0002983727,0.00012780688,0.000036346446,0.00011153894,0.00037779912,0.00013327718,0.00015502912,0.000091795824,0.000014707491],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.008123945,0.0012874821,0.42765552,0.00008536067,0.00004212802,0.0004417174,0.0014881957,0.00020942293,0.5304086,0.004825501,0.00009096882,0.025341118],"study_design_scores_gemma":[0.0021425295,0.00047103505,0.7644773,0.000077881974,0.00006322771,0.00001863873,0.00012488243,0.06728315,0.16289966,0.0021460196,0.0000074941836,0.00028815135],"about_ca_topic_score_codex":0.000030660016,"about_ca_topic_score_gemma":0.00008664203,"teacher_disagreement_score":0.36750898,"about_ca_system_score_codex":0.00000884691,"about_ca_system_score_gemma":0.000098078024,"threshold_uncertainty_score":0.52118134},"labels":[],"label_agreement":null},{"id":"W2904450905","doi":"10.1093/cercor/bhy311","title":"Comparison of Amyloid β and Tau Spread Models in Alzheimer’s Disease","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":27,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institutes of Health Research; National Institute on Aging; National Institutes of Health","keywords":"Neuroscience; Amyloid (mycology); Magnetic resonance imaging; Tau protein; Alzheimer's disease; Positron emission tomography; Functional magnetic resonance imaging; Biology; Psychology; Disease; Medicine; Pathology","score_opus":0.09310971434070718,"score_gpt":0.32868980162083894,"score_spread":0.23558008728013174,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2904450905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9945404,0.0003650262,0.00011434094,0.00093793735,0.00024246007,0.00019862359,0.00002574152,0.0000393258,0.0035361622],"genre_scores_gemma":[0.9989832,0.00001006896,0.000067522116,0.00076398195,0.00007279392,0.000011655881,0.0000012816504,0.0000117316295,0.00007777322],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99891436,0.00006779589,0.00020497099,0.00040277603,0.00020966184,0.00020043708],"domain_scores_gemma":[0.9989066,0.0006670307,0.00007898563,0.00021231492,0.000043859607,0.00009120661],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008176328,0.0001223647,0.00022492833,0.00008797757,0.00009874454,0.000016138374,0.0001283232,0.000031780768,0.000047855392],"category_scores_gemma":[0.0008505933,0.00011567457,0.000034787423,0.00021002546,0.0004250366,0.000229733,0.00015428658,0.00009823246,0.000026905544],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011550448,0.0010050911,0.7930048,0.000098605444,0.00006229773,0.000032374,0.0033864356,0.0004477633,0.109607354,0.056587454,0.017615637,0.016997123],"study_design_scores_gemma":[0.0011244025,0.00051171175,0.84859186,0.000070473325,0.000061159546,0.000006079365,0.0002612492,0.05748149,0.067306764,0.02299003,0.001172401,0.0004224006],"about_ca_topic_score_codex":0.00007957096,"about_ca_topic_score_gemma":0.00017093225,"teacher_disagreement_score":0.057033725,"about_ca_system_score_codex":0.00001858788,"about_ca_system_score_gemma":0.000036314694,"threshold_uncertainty_score":0.47170722},"labels":[],"label_agreement":null},{"id":"W2905502356","doi":"10.1093/cercor/bhy321","title":"The Superficial White Matter in Autism and Its Role in Connectivity Anomalies and Symptom Severity","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Mental Health; Canadian Institutes of Health Research; National Institutes of Health","keywords":"Neurotypical; White matter; Neuroscience; Neuroimaging; Temporoparietal junction; Autism; Autism spectrum disorder; Psychology; Fractional anisotropy; Tractography; Connectome; Diffusion MRI; Gyrification; Functional connectivity; Magnetic resonance imaging; Cognition; Medicine; Developmental psychology; Cerebral cortex; Prefrontal cortex","score_opus":0.015436618071212289,"score_gpt":0.23854674522519612,"score_spread":0.22311012715398382,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2905502356","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99012303,0.000151062,0.000002049217,0.0065719835,0.00029307444,0.00023761594,0.000015827742,0.000030289228,0.0025750354],"genre_scores_gemma":[0.99767476,0.000025814716,0.000005657238,0.0018142019,0.000078805635,0.000022095417,3.860947e-7,0.000011903167,0.00036635544],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99865294,0.00019712788,0.00016529579,0.00050973485,0.00015507756,0.0003198489],"domain_scores_gemma":[0.99824154,0.0014932333,0.000040693078,0.0001548489,0.000023292852,0.00004640267],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028519795,0.00015645429,0.00018862987,0.00007909403,0.00037426688,0.000091434085,0.00011694222,0.00006562901,0.0000565244],"category_scores_gemma":[0.0010577502,0.00012587558,0.000019815967,0.00023856276,0.00041789623,0.0003211335,0.00026675244,0.00020045666,0.00004526776],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010477123,0.000041044175,0.98284847,0.000012307401,0.000004030779,0.000009846795,0.0011742587,7.448747e-7,0.010244389,0.004346935,0.00043207034,0.00078114937],"study_design_scores_gemma":[0.00040978217,0.0000958077,0.9906697,0.000014888417,0.0000029207458,0.000034752782,0.00020995311,0.0013632342,0.0025167374,0.0037692545,0.00075559464,0.00015733625],"about_ca_topic_score_codex":0.00013180394,"about_ca_topic_score_gemma":0.004676748,"teacher_disagreement_score":0.007821285,"about_ca_system_score_codex":0.00004949568,"about_ca_system_score_gemma":0.00002955483,"threshold_uncertainty_score":0.5133057},"labels":[],"label_agreement":null},{"id":"W2907398689","doi":"10.1093/cercor/bhy284","title":"Nestin Regulates Neurogenesis in Mice Through Notch Signaling From Astrocytes to Neural Stem Cells","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurogenesis and neuroplasticity mechanisms","field":"Neuroscience","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Sinai Health System; Lunenfeld-Tanenbaum Research Institute","funders":"Medicinska Forskningsrådet","keywords":"Neurogenesis; Nestin; Neural stem cell; Dentate gyrus; Neuroscience; Biology; Notch signaling pathway; Stem cell; Hippocampal formation; Neurosphere; Astrocyte; Cell biology; Adult stem cell; Cellular differentiation; Central nervous system; Signal transduction","score_opus":0.0422196517485907,"score_gpt":0.25568880274721084,"score_spread":0.21346915099862013,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2907398689","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970644,0.000022597347,0.00051088515,0.00018563785,0.0013406446,0.00045806734,0.00006486147,0.0002196313,0.00013325883],"genre_scores_gemma":[0.99411976,0.0000069688595,0.0007682049,0.004396915,0.00036500974,0.000024717261,0.0000023725484,0.00009993303,0.00021611355],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9963555,0.00035120957,0.000587635,0.0013797067,0.00049929594,0.00082666316],"domain_scores_gemma":[0.9982941,0.0006784674,0.00018043636,0.0005063667,0.00007499321,0.00026562542],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00010419174,0.0004549616,0.00045291634,0.00015868494,0.00027317595,0.00018353706,0.00074666156,0.00010924918,0.00023456813],"category_scores_gemma":[0.00014072478,0.00044644295,0.0001342553,0.00087491784,0.00013953866,0.00034725925,0.00033873177,0.00024747697,0.00065906916],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016362716,0.000081016246,0.0007614637,0.00000911824,0.0000022924842,0.00014101533,0.00023150454,0.00023167774,0.9974273,0.0002008503,0.0001430314,0.00060710363],"study_design_scores_gemma":[0.00049065537,0.00048662917,0.004224691,0.000040582254,0.000022694301,0.00003480742,0.000053316064,0.0032840774,0.99046034,0.00006783812,0.00042801895,0.0004063343],"about_ca_topic_score_codex":0.00016534633,"about_ca_topic_score_gemma":0.000085758795,"teacher_disagreement_score":0.006966944,"about_ca_system_score_codex":0.000042631105,"about_ca_system_score_gemma":0.00005002938,"threshold_uncertainty_score":0.9997987},"labels":[],"label_agreement":null},{"id":"W2912831692","doi":"10.1093/cercor/bhy341","title":"The Cortical Neuroimmune Regulator TANK Affects Emotional Processing and Enhances Alcohol Drinking: A Translational Study","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroinflammation and Neurodegeneration Mechanisms","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"National Institute of Biomedical Imaging and Bioengineering; National Heart, Lung, and Blood Institute; Medical Research Council; NHLBI Division of Intramural Research; Fondation pour la Recherche Médicale; National Institute for Health and Care Research; Fondation de France; Svenska Forskningsrådet Formas; Agence Nationale de la Recherche; Deutsche Forschungsgemeinschaft; Fondation de l'Avenir pour la Recherche Médicale Appliquée; National Institutes of Health; Center for Information Technology; Science Foundation Ireland; Mission Interministérielle de Lutte Contre les Drogues et les Conduites Addictives; Division of Intramural Research, National Institute of Allergy and Infectious Diseases","keywords":"Prefrontal cortex; Neuroimaging; Regulator; Alcohol; Neuroscience; Anxiety; Alcohol abuse; Psychology; Medicine; Cognition; Psychiatry; Biology; Genetics; Gene","score_opus":0.03466738749560342,"score_gpt":0.28893504358540073,"score_spread":0.2542676560897973,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2912831692","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961874,0.000024268635,0.0008887196,0.000956046,0.0005514476,0.0006046479,0.0000029276252,0.00015574106,0.0006288004],"genre_scores_gemma":[0.9980517,0.000007957833,0.00011028296,0.0007069971,0.00030480378,0.000028824434,0.0000022431102,0.00002653466,0.0007606655],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99785745,0.00034027157,0.0003245189,0.0005865355,0.0005865728,0.00030464467],"domain_scores_gemma":[0.99919665,0.00020493432,0.00014166164,0.000254363,0.00008521261,0.00011715349],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.0002546808,0.00020000845,0.00015250826,0.00006731921,0.0015291474,0.00035397804,0.00024789647,0.000045235785,0.00012495107],"category_scores_gemma":[0.00028804786,0.00015047591,0.000047643574,0.00030366253,0.00036386456,0.00033812408,0.00007102463,0.00022998085,0.00005353744],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009544048,0.00010987884,0.0016172164,0.0000071357035,0.0000039640768,0.000014529905,0.0003928301,0.0000041915846,0.97242504,0.021062074,0.00013142565,0.0041362997],"study_design_scores_gemma":[0.0014868364,0.0008374844,0.32335296,0.000023761038,0.000027778366,0.00016608657,0.000102696395,0.022088697,0.6483815,0.0018607369,0.0013271215,0.00034434817],"about_ca_topic_score_codex":8.7809667e-7,"about_ca_topic_score_gemma":0.000027648686,"teacher_disagreement_score":0.3240435,"about_ca_system_score_codex":0.000010191988,"about_ca_system_score_gemma":0.00007872202,"threshold_uncertainty_score":0.9997707},"labels":[],"label_agreement":null},{"id":"W2913055306","doi":"10.1093/cercor/bhy340","title":"Spontaneous Brain Activity Predicts Task-Evoked Activity During Animate Versus Inanimate Touch","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":60,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Royal Ottawa Mental Health Centre; University of Ottawa","funders":"National Key Research and Development Program of China; Canadian Institutes of Health Research; National Natural Science Foundation of China","keywords":"Neuroscience; Brain activity and meditation; Posterior cingulate; Psychology; Insula; Gyrus; Anterior cingulate cortex; Cortex (anatomy); Prefrontal cortex; Task (project management); Cognitive psychology; Electroencephalography; Cognition","score_opus":0.03345345281688854,"score_gpt":0.27362084042625445,"score_spread":0.2401673876093659,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2913055306","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9821081,0.000009716117,0.000054486885,0.0030295595,0.0020342604,0.0005298828,0.000102512895,0.0006550615,0.011476394],"genre_scores_gemma":[0.9961707,0.000010141477,0.00004650235,0.0007227624,0.00071549724,0.00004854835,0.0000025208526,0.000071969596,0.0022113721],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9964002,0.000304538,0.00025432458,0.0013702933,0.0007099079,0.000960767],"domain_scores_gemma":[0.9958514,0.002822308,0.0002421034,0.0007151576,0.00013274034,0.00023628448],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00023460077,0.0004916522,0.00048589986,0.00017919994,0.001103972,0.00015108428,0.00048766783,0.00017243007,0.00032601223],"category_scores_gemma":[0.0067525525,0.00049477845,0.000170263,0.00063239393,0.00060307916,0.0008485439,0.0006229188,0.00047431656,0.00067062886],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0041865343,0.00020872333,0.0006489936,0.000060365972,0.000044240987,0.00061481347,0.00030793383,0.0000046319287,0.98841894,0.0005836903,0.00343044,0.0014907061],"study_design_scores_gemma":[0.003591196,0.0019131566,0.29195604,0.000056727848,0.00005370101,0.00100639,0.00007492468,0.0017804005,0.6942063,0.0005720925,0.0038683547,0.0009207152],"about_ca_topic_score_codex":0.00013697518,"about_ca_topic_score_gemma":0.0006217002,"teacher_disagreement_score":0.29421264,"about_ca_system_score_codex":0.00042188598,"about_ca_system_score_gemma":0.00012581819,"threshold_uncertainty_score":0.9997504},"labels":[],"label_agreement":null},{"id":"W2914691171","doi":"10.1093/cercor/bhy345","title":"Selective Modulation of Early Visual Cortical Activity by Movement Intention","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; University of Alberta; Queen's University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Functional magnetic resonance imaging; Neuroscience; Visual cortex; Psychology; Posterior parietal cortex; Eye movement; Brain activity and meditation; Computer science; Electroencephalography","score_opus":0.01985913515369388,"score_gpt":0.2756944342754331,"score_spread":0.25583529912173925,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2914691171","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99231946,0.0000010055687,0.0059323814,0.000073641524,0.00041786378,0.00021632011,0.000014257995,0.000047933903,0.0009771482],"genre_scores_gemma":[0.9991388,0.0000017616022,0.000020190368,0.00024524375,0.00006905664,0.000006999362,0.000006162254,0.000011882539,0.0004999396],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99893856,0.0000968615,0.0001795856,0.00033226833,0.00026180208,0.00019090786],"domain_scores_gemma":[0.99953216,0.000056195026,0.00013113208,0.000119045886,0.00010228719,0.000059150614],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008616321,0.0001066196,0.00012538064,0.00005443463,0.00012431366,0.000027891889,0.000082544626,0.000059921345,0.00009439261],"category_scores_gemma":[0.00014391345,0.00009751567,0.00005840001,0.0002542318,0.00015318279,0.00026384092,0.00005172644,0.00013744515,0.00004094826],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001691116,0.0001343763,0.006266171,0.000005498327,0.0000041803632,4.2128542e-7,0.000039851577,0.0000016620196,0.9855485,0.0012652962,0.00024165587,0.0063232533],"study_design_scores_gemma":[0.0002696766,0.0009310971,0.4623512,0.0000076054976,0.000007350978,0.0000012355301,0.000007261699,0.053667013,0.48133528,0.0012978837,0.00002519693,0.000099197714],"about_ca_topic_score_codex":0.00009318182,"about_ca_topic_score_gemma":0.000018446728,"teacher_disagreement_score":0.5042133,"about_ca_system_score_codex":0.00006334285,"about_ca_system_score_gemma":0.000018004721,"threshold_uncertainty_score":0.39765736},"labels":[],"label_agreement":null},{"id":"W2921035239","doi":"10.1093/cercor/bhz039","title":"Premotor Cortex Provides a Substrate for the Temporal Transformation of Information During the Planning of Gait Modifications","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":29,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Canadian Institutes of Health Research","keywords":"Premotor cortex; Gait; Neuroscience; Transformation (genetics); Motor planning; Computer science; Cortex (anatomy); Motor cortex; Psychology; Physical medicine and rehabilitation; Biology; Medicine; Anatomy","score_opus":0.031175246200520607,"score_gpt":0.28738473531752506,"score_spread":0.2562094891170045,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2921035239","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9593551,0.00003884676,0.034693353,0.00043193504,0.00035061987,0.0016774494,0.00006060918,0.000040910938,0.0033511522],"genre_scores_gemma":[0.9986747,0.0000033080355,0.00012391602,0.00007883212,0.000036763795,0.00010529054,0.00013958302,0.000009614852,0.00082800013],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9990027,0.00004823415,0.0005487128,0.00009972629,0.00016837138,0.00013223484],"domain_scores_gemma":[0.99882483,0.00013498367,0.0004941224,0.00028969152,0.00023471944,0.000021659223],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024431132,0.00009645716,0.00013299083,0.00007664133,0.000155183,0.000028807506,0.00018890915,0.00007669549,0.0003325246],"category_scores_gemma":[0.000033048036,0.00006319246,0.0000824443,0.00022411847,0.00006125859,0.0005927977,0.0000086346245,0.000095698466,0.00003613689],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0028599398,0.00053904345,0.5481537,0.0023783927,0.00085992547,3.4926853e-7,0.1353806,0.016775047,0.04278664,0.21431844,0.004569237,0.031378705],"study_design_scores_gemma":[0.0010203095,0.00009908038,0.95566857,0.000030026222,0.00003526733,0.0000037681416,0.0055319467,0.033703215,0.0010420423,0.00019935876,0.002574234,0.0000921652],"about_ca_topic_score_codex":0.00007439793,"about_ca_topic_score_gemma":0.00001411021,"teacher_disagreement_score":0.4075149,"about_ca_system_score_codex":0.00003175456,"about_ca_system_score_gemma":0.000055584027,"threshold_uncertainty_score":0.3640911},"labels":[],"label_agreement":null},{"id":"W2922026499","doi":"10.1093/cercor/bhz040","title":"Structural Associations of Cortical Contrast and Thickness in First Episode Psychosis","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Douglas Mental Health University Institute; McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Psychosis; Cognition; Psychology; White matter; Contrast (vision); Neuroscience; Medicine; Magnetic resonance imaging; Psychiatry; Artificial intelligence; Computer science; Radiology","score_opus":0.030644277927184292,"score_gpt":0.2733287293635198,"score_spread":0.24268445143633552,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2922026499","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9955589,0.000029297316,0.0000135998835,0.0020921403,0.00041924362,0.0002371312,0.00005362058,0.000026537838,0.0015695209],"genre_scores_gemma":[0.9989701,0.0000067412266,0.000040686253,0.000793557,0.000028257653,0.000011041639,0.0000021866324,0.0000095582645,0.00013787542],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99891734,0.00008558962,0.00022133143,0.00034791252,0.00022026355,0.00020757465],"domain_scores_gemma":[0.99666953,0.002998067,0.00009257371,0.00015264914,0.00004351077,0.000043694905],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012251429,0.00011046697,0.00024370787,0.00006861676,0.00011225343,0.000020765834,0.000106482,0.00006418189,0.0001349568],"category_scores_gemma":[0.0027866038,0.00010193802,0.000042707965,0.00023578604,0.00015101662,0.00016851077,0.00007289916,0.00019756577,0.000029774326],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032988835,0.00003179902,0.97616625,0.000024201192,0.000007017712,0.0000014114066,0.00019593614,0.000019149313,0.013339499,0.009618978,0.00035709786,0.00020564643],"study_design_scores_gemma":[0.00066269626,0.00008068576,0.9940403,0.00001824922,0.000007686174,0.000007684319,0.00007225749,0.0013596799,0.0019701298,0.0015700109,0.000094806695,0.0001158211],"about_ca_topic_score_codex":0.00022462195,"about_ca_topic_score_gemma":0.0015760183,"teacher_disagreement_score":0.017874017,"about_ca_system_score_codex":0.000048960017,"about_ca_system_score_gemma":0.000012987803,"threshold_uncertainty_score":0.4156912},"labels":[],"label_agreement":null},{"id":"W2923481172","doi":"10.1093/cercor/bhz044","title":"Hippocampal and Retrosplenial Goal Distance Coding After Long-term Consolidation of a Real-World Environment","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":98,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Trent University; Baycrest Hospital; York University; University of Toronto","funders":"Canadian Institutes of Health Research; Wellcome Trust; James S. McDonnell Foundation","keywords":"Retrosplenial cortex; Mnemonic; Hippocampal formation; Coding (social sciences); Psychology; Consolidation (business); Memory consolidation; Hippocampus; Cognitive psychology; Spatial memory; Computer science; Neuroscience; Human–computer interaction; Cognition; Sociology; Working memory","score_opus":0.028936084173118246,"score_gpt":0.2708422573381326,"score_spread":0.24190617316501437,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2923481172","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9978828,0.000015748104,0.00021091578,0.00004787178,0.00035926333,0.00035219576,0.000039980117,0.000029279774,0.0010619817],"genre_scores_gemma":[0.9979827,0.00006287576,0.000058429006,0.00019790823,0.0000576026,0.000014906607,0.0000060333955,0.000015686996,0.0016038847],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987299,0.000085603744,0.00025542133,0.0004437081,0.00024678046,0.00023861979],"domain_scores_gemma":[0.99938554,0.000088692286,0.00014975123,0.0002746698,0.000008035815,0.00009330377],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00009028726,0.00015198624,0.00021751458,0.000055042237,0.00006105408,0.000031421496,0.00012983946,0.00004995416,0.0011387126],"category_scores_gemma":[0.000027859694,0.00013967519,0.000048076636,0.00009541682,0.00012358284,0.00021716626,0.00009581144,0.00013582205,0.00010640106],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00032136423,0.00003529333,0.10602826,0.0000710469,0.0000025449426,0.000024658191,0.00010731466,0.000001084448,0.8889906,0.0034728865,0.00001599545,0.00092894636],"study_design_scores_gemma":[0.0006193915,0.00022051549,0.3325564,0.000057867284,0.000014097979,0.000016288963,0.000009025452,0.00024294783,0.6655605,0.00047695913,0.00004354244,0.0001824874],"about_ca_topic_score_codex":0.000003062345,"about_ca_topic_score_gemma":0.000016071326,"teacher_disagreement_score":0.22652814,"about_ca_system_score_codex":0.000037566504,"about_ca_system_score_gemma":0.000013332588,"threshold_uncertainty_score":0.9997744},"labels":[],"label_agreement":null},{"id":"W2933995203","doi":"10.1093/cercor/bhy334","title":"Neural Correlates of Enhanced Memory for Meaningful Associations with Age","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Functional magnetic resonance imaging; Encoding (memory); Cognition; Psychology; Episodic memory; Associative property; Content-addressable memory; Young adult; Default mode network; Control (management); Cognitive aging; Developmental psychology; Cognitive psychology; Neural activity; Neuroscience; Artificial neural network; Computer science; Artificial intelligence","score_opus":0.09226536434396987,"score_gpt":0.3458316436882607,"score_spread":0.2535662793442908,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2933995203","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99498034,0.000010129684,0.0000948805,0.00025396538,0.0005758603,0.0003160807,0.000045811845,0.00007817559,0.0036447656],"genre_scores_gemma":[0.99690163,0.0000019409208,0.00014298664,0.0004963869,0.00011222941,0.000027877835,0.000005244874,0.0000158084,0.0022959176],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99899226,0.000038298545,0.00020363345,0.00034941136,0.00014725266,0.00026914908],"domain_scores_gemma":[0.99935687,0.0001457663,0.00017295695,0.00017104133,0.00010678989,0.000046592555],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005509247,0.00013773519,0.00022583286,0.000045033437,0.00024158687,0.000015376763,0.0001863734,0.000055557197,0.00006717369],"category_scores_gemma":[0.00013377245,0.00009956852,0.00007264814,0.0002096154,0.00050566805,0.00012766683,0.00004664016,0.00010717933,0.00003105911],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015981073,0.00011839324,0.012009301,0.000009298549,0.000013392668,0.000008281465,0.00062308967,0.0000015691761,0.98245925,0.0004280988,0.0015290333,0.0026405018],"study_design_scores_gemma":[0.0011361181,0.0017058168,0.12529421,0.000019039942,0.00007587153,0.00001239124,0.00016730925,0.00008876139,0.8700164,0.0010787047,0.00015609305,0.00024927466],"about_ca_topic_score_codex":0.000011107413,"about_ca_topic_score_gemma":0.00007793548,"teacher_disagreement_score":0.11328491,"about_ca_system_score_codex":0.00001517632,"about_ca_system_score_gemma":0.000013008647,"threshold_uncertainty_score":0.40602863},"labels":[],"label_agreement":null},{"id":"W2934726400","doi":"10.1093/cercor/bhz053","title":"Maturational Changes in Human Dorsal and Ventral Visual Networks","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute of Biomedical Imaging and Bioengineering; National Institutes of Health; National Center for Research Resources; Nancy Lurie Marks Family Foundation","keywords":"Neuroscience; Neuropsychology; White matter; Dorsum; Neuroimaging; Prefrontal cortex; Psychology; Cognition; Magnetic resonance imaging; Anatomy; Biology; Medicine","score_opus":0.018379891983729826,"score_gpt":0.2640985764859323,"score_spread":0.2457186845022025,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2934726400","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99627393,0.00006389716,0.000016604608,0.0015218994,0.00051233225,0.00020194924,0.000004819231,0.00004575137,0.001358794],"genre_scores_gemma":[0.99718165,0.000006735867,0.000009902082,0.0018839241,0.00015910469,0.0000137206225,0.0000060903826,0.000011799112,0.0007270687],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99902195,0.00005839753,0.000108246175,0.00038505348,0.00017864919,0.0002477297],"domain_scores_gemma":[0.9992664,0.00054644584,0.00004333425,0.00009329487,0.000014690153,0.000035842142],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000088136236,0.00011737102,0.00014131326,0.0000719594,0.00011599688,0.00004652204,0.00008006554,0.00005446972,0.00022645482],"category_scores_gemma":[0.00023141952,0.00011211099,0.000024229326,0.00015664035,0.0000874333,0.00016153792,0.00010466028,0.00017660027,0.000043076332],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034332657,0.00031571995,0.47647685,0.00008523277,0.00003068288,0.00007776488,0.00064414094,0.00071586255,0.4336854,0.07696198,0.0053128633,0.005350215],"study_design_scores_gemma":[0.00086731964,0.00030281377,0.979591,0.00002730889,0.0000050333047,0.00003453308,0.000066842666,0.009548433,0.005851184,0.0012884797,0.0021515687,0.00026545604],"about_ca_topic_score_codex":0.000020713243,"about_ca_topic_score_gemma":0.00018452633,"teacher_disagreement_score":0.5031142,"about_ca_system_score_codex":0.000040392104,"about_ca_system_score_gemma":0.000014062434,"threshold_uncertainty_score":0.45717534},"labels":[],"label_agreement":null},{"id":"W2938544796","doi":"10.1093/cercor/bhz069","title":"Multiscale Structure–Function Gradients in the Neonatal Connectome","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":159,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"BC Children's Hospital; University of British Columbia; McGill University; Montreal Neurological Institute and Hospital","funders":"Fonds de Recherche du Québec - Santé; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Centre Azrieli de recherche sur l'autisme, Institut et Hôpital Neurologiques de Montréal; Savoy Foundation","keywords":"Connectome; White matter; Neuroscience; Human Connectome Project; Connectomics; Diffusion MRI; Functional connectivity; Psychology; Functional magnetic resonance imaging; Biology; Magnetic resonance imaging; Medicine","score_opus":0.017593045332112707,"score_gpt":0.23891798145145002,"score_spread":0.22132493611933732,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2938544796","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99451613,0.00003652007,0.000042898682,0.0011318226,0.0015886577,0.00046563364,0.00003526275,0.00006380779,0.0021192385],"genre_scores_gemma":[0.99438477,0.000002363724,0.0000177051,0.0047717653,0.00010880021,0.000018322926,0.000007864763,0.000015657308,0.0006727545],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9984257,0.00016283862,0.00017371785,0.00053709967,0.00038635507,0.00031424206],"domain_scores_gemma":[0.9978613,0.0016667134,0.00006750131,0.0003431489,0.00002456347,0.000036753005],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014050753,0.00016960585,0.00016999047,0.00009967242,0.00015769464,0.00005445921,0.00030959316,0.000060894356,0.00038335583],"category_scores_gemma":[0.0011004274,0.00012063967,0.00006876825,0.0004188731,0.00010449509,0.00029402343,0.000100065685,0.00029112713,0.00043898416],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00060015236,0.0002994297,0.6122508,0.00007772526,0.00004703439,0.00009596421,0.0056550447,0.00036223134,0.3042292,0.047736224,0.011942192,0.016704027],"study_design_scores_gemma":[0.0014389552,0.00029602964,0.97076595,0.0000148506315,0.000010081519,0.000074158,0.00046384585,0.00090751686,0.006575439,0.0058511286,0.013330019,0.00027203417],"about_ca_topic_score_codex":0.00006170326,"about_ca_topic_score_gemma":0.0003106803,"teacher_disagreement_score":0.35851517,"about_ca_system_score_codex":0.0000636737,"about_ca_system_score_gemma":0.000020927213,"threshold_uncertainty_score":0.56424},"labels":[],"label_agreement":null},{"id":"W2942781492","doi":"10.1093/cercor/bhz085","title":"Accelerated Hyper-Maturation of Parvalbumin Circuits in the Absence of MeCP2","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetics and Neurodevelopmental Disorders","field":"Biochemistry, Genetics and Molecular Biology","cited_by":50,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Centre Hospitalier Universitaire Sainte-Justine","funders":"National Institute of Neurological Disorders and Stroke; National Institutes of Health; Rett Syndrome Research Trust; Scottish Rite Charitable Foundation of Canada; Nancy Lurie Marks Family Foundation","keywords":"MECP2; Perineuronal net; Parvalbumin; GABAergic; Neuroscience; Biology; Rett syndrome; Interneuron; Inhibitory postsynaptic potential; Phenotype; Genetics; Gene","score_opus":0.014469334186939846,"score_gpt":0.23590365265426008,"score_spread":0.22143431846732023,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2942781492","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997478,0.00013580418,0.000012012474,0.000037031055,0.000076277174,0.00018313187,0.0000058821006,0.0000015074879,0.0020703203],"genre_scores_gemma":[0.99953955,0.00005900096,0.000034978453,0.0001516815,0.000005191964,0.0000045830134,0.000055999066,0.0000066686785,0.00014234996],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99942535,0.00003386716,0.00018195722,0.00015615334,0.00010255642,0.000100117584],"domain_scores_gemma":[0.9996636,0.000007181105,0.000077369325,0.00019571047,0.000042547803,0.00001358495],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000077854136,0.000072765295,0.000093953,0.000023615497,0.000011606795,0.0000055526207,0.00017656568,0.000055601446,0.00003456995],"category_scores_gemma":[0.000016873426,0.00005642654,0.00003449167,0.00011315735,0.000032238047,0.0000027331062,0.000036328438,0.00004460499,0.0000076836595],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000018216224,0.00003663727,0.025042906,0.000019446816,0.0000056361837,2.2699555e-7,0.00009055302,0.000024900239,0.9733363,0.00006764077,0.00014417029,0.0012133697],"study_design_scores_gemma":[0.00030590812,0.00013642845,0.697654,0.00001011047,0.0000024073665,0.0000026036803,0.00018144857,0.000059090078,0.3010235,0.000057624566,0.0004939525,0.00007288334],"about_ca_topic_score_codex":0.000017835948,"about_ca_topic_score_gemma":0.000032433887,"teacher_disagreement_score":0.6726111,"about_ca_system_score_codex":0.0000026666887,"about_ca_system_score_gemma":0.00003934129,"threshold_uncertainty_score":0.23010075},"labels":[],"label_agreement":null},{"id":"W2944283881","doi":"10.1093/cercor/bhz064","title":"Structural Covariance Reveals Alterations in Control and Salience Network Integrity in Chronic Schizophrenia","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Center for Advancing Translational Sciences; National Institute of Mental Health; Fonds de Recherche du Québec - Santé; Canadian Institutes of Health Research","keywords":"Salience (neuroscience); Neuroscience; Schizophrenia (object-oriented programming); Psychology; Neuroimaging; Cognitive psychology; Psychiatry","score_opus":0.022132051482626525,"score_gpt":0.26149105380729576,"score_spread":0.23935900232466922,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2944283881","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964634,0.00021411084,0.00010011565,0.0015826463,0.0005610395,0.0005242929,0.000019384956,0.000038301547,0.0004966843],"genre_scores_gemma":[0.99748063,0.0000152464345,0.00017501517,0.0019200192,0.00015535385,0.000033701148,0.0000019317956,0.00001091343,0.00020718106],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983533,0.00021045307,0.00027428239,0.000600965,0.0001856028,0.00037537236],"domain_scores_gemma":[0.9979363,0.0016572856,0.000085664025,0.00023982569,0.000028413227,0.00005248107],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026589032,0.00016844318,0.00028770225,0.00008375802,0.00012921097,0.00006589494,0.00017840398,0.00006861712,0.00007995042],"category_scores_gemma":[0.0015295687,0.00015789749,0.00003144153,0.00046878445,0.00015070497,0.00040809612,0.00010171262,0.00045827313,0.000054745808],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00068788946,0.00004498893,0.7343747,0.00008582803,0.000013660422,0.00003929784,0.00041831055,0.010143072,0.14163028,0.10882088,0.0011809664,0.0025601406],"study_design_scores_gemma":[0.0020924448,0.00014565258,0.95281494,0.00009167439,0.000003504741,0.00002316378,0.000024596417,0.0337602,0.00035253365,0.010333814,0.00013012449,0.00022738246],"about_ca_topic_score_codex":0.00017336887,"about_ca_topic_score_gemma":0.0019284306,"teacher_disagreement_score":0.2184402,"about_ca_system_score_codex":0.00022308329,"about_ca_system_score_gemma":0.000121616984,"threshold_uncertainty_score":0.6438873},"labels":[],"label_agreement":null},{"id":"W2950070267","doi":"10.1093/cercor/bhy014","title":"Eye Movement Reinstatement and Neural Reactivation During Mental Imagery","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":93,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Mental image; Fixation (population genetics); Eye movement; Psychology; Perception; Stimulus (psychology); Cognitive psychology; Creative visualization; Eye tracking; Neural correlates of consciousness; Visual perception; Artificial intelligence; Cognition; Computer vision; Neuroscience; Visualization; Computer science","score_opus":0.036664410637058574,"score_gpt":0.3120558363381254,"score_spread":0.27539142570106684,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2950070267","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9965437,0.00000476689,0.00016330252,0.00040976855,0.00040348282,0.00016460159,0.0000053252197,0.00010095911,0.0022041018],"genre_scores_gemma":[0.99585795,0.000012263115,0.00011478211,0.0020750514,0.00014805859,0.0000089845435,0.000005024993,0.00001479393,0.0017631154],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990022,0.000044692228,0.00017249442,0.00034937193,0.00021776621,0.00021347555],"domain_scores_gemma":[0.99967754,0.000009214873,0.00007780489,0.00012508797,0.00002600879,0.00008433694],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007929615,0.000118239936,0.00008703469,0.000060368875,0.0003405943,0.00010482655,0.00008083852,0.000031281197,0.0004984933],"category_scores_gemma":[0.00003499384,0.00010802086,0.000023320677,0.0001152502,0.000104862884,0.00037996456,0.0000841241,0.00008561772,0.00008199189],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004813354,0.00003054171,0.0004181603,0.000014005136,0.0000012732096,0.0000031458237,0.00047309042,2.5011772e-7,0.99294066,0.00027509173,0.00016089279,0.0056347526],"study_design_scores_gemma":[0.00060799334,0.0002401362,0.055500828,0.000024309533,0.0000048234624,0.000010418219,0.00021586363,0.0030273425,0.9387896,0.0009151988,0.00047377497,0.00018971141],"about_ca_topic_score_codex":0.000011262107,"about_ca_topic_score_gemma":0.0000035375851,"teacher_disagreement_score":0.055082668,"about_ca_system_score_codex":0.00005332836,"about_ca_system_score_gemma":0.000012306577,"threshold_uncertainty_score":0.5458152},"labels":[],"label_agreement":null},{"id":"W2951798480","doi":"10.1093/cercor/bhy058","title":"Altered Neocortical Gene Expression, Brain Overgrowth and Functional Over-Connectivity in Chd8 Haploinsufficient Mice","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":140,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation; Hospital for Sick Children; University of Toronto","funders":"Biotechnology and Biological Sciences Research Council; Medical Research Council; Jet Propulsion Laboratory; Guy's and St Thomas' Charity; Wellcome Trust; Brain and Behavior Research Foundation; Simons Foundation Autism Research Initiative; National Alliance for Research on Schizophrenia and Depression","keywords":"Haploinsufficiency; Neocortex; Neuroscience; Biology; Axon guidance; Phenotype; Autism; Genetics; Psychology; Gene; Axon","score_opus":0.028261203006454984,"score_gpt":0.2844494897111268,"score_spread":0.25618828670467186,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2951798480","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939498,0.00004021341,0.0010162472,0.0021575391,0.00033971466,0.00041633358,0.000023648065,0.00010056347,0.0019559835],"genre_scores_gemma":[0.99810755,0.000009122678,0.00009808618,0.0011315283,0.00023616468,0.00003399666,0.000004821838,0.000034031633,0.00034471607],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99715185,0.0002521657,0.0003153806,0.0009771156,0.00060428324,0.0006992068],"domain_scores_gemma":[0.99888486,0.00038177875,0.00008280327,0.00038347198,0.000021587544,0.0002455293],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00026208925,0.00023713894,0.00024972655,0.00021746902,0.00028258,0.00010777994,0.00025351893,0.00011830174,0.0010377079],"category_scores_gemma":[0.00080738397,0.00022278434,0.00005943336,0.00056405854,0.000536362,0.00034483432,0.00042400806,0.00040610734,0.00017108467],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00041096684,0.0004240907,0.04395016,0.000017319817,0.000003835997,0.000035093,0.00033206123,0.000003477066,0.93225205,0.020401204,0.0013455322,0.0008242391],"study_design_scores_gemma":[0.0012891559,0.00040903062,0.7298365,0.000022274635,0.0000033640947,0.000056565572,0.000021202171,0.0040243333,0.25638667,0.0072595095,0.00042985438,0.000261524],"about_ca_topic_score_codex":0.00015359528,"about_ca_topic_score_gemma":0.00032906485,"teacher_disagreement_score":0.6858864,"about_ca_system_score_codex":0.00011630465,"about_ca_system_score_gemma":0.00013528495,"threshold_uncertainty_score":0.9998755},"labels":[],"label_agreement":null},{"id":"W2952175763","doi":"10.1093/cercor/bhy282","title":"Propagation of Information Along the Cortical Hierarchy as a Function of Attention While Reading and Listening to Stories","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":90,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institutes of Health; William Orr Dingwall Foundation","keywords":"Active listening; Reading (process); Hierarchy; Function (biology); Psychology; Cognitive psychology; Cognitive science; Neuroscience; Communication; Linguistics; Biology; Evolutionary biology; Political science","score_opus":0.06129582456583869,"score_gpt":0.324000800606655,"score_spread":0.2627049760408163,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2952175763","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977652,0.0000052406463,0.0003840985,0.00038520654,0.00033455284,0.00023915227,0.000004156683,0.000022951617,0.00085948553],"genre_scores_gemma":[0.9994562,0.0000029825337,0.000042695712,0.00028110525,0.000051313316,0.00001057162,0.0000024784058,0.0000034087373,0.00014919558],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9992945,0.000059372418,0.0002395802,0.00013530234,0.00016061417,0.00011061869],"domain_scores_gemma":[0.99956393,0.000054237313,0.00013515791,0.0001030709,0.0001135219,0.000030099569],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012739703,0.00006966185,0.000103976236,0.000062952335,0.00021115933,0.000020427504,0.00006856906,0.00003229849,0.000019458923],"category_scores_gemma":[0.00020034821,0.000046357618,0.000024725146,0.00023456124,0.00031453223,0.00040556447,0.0000636695,0.00008392161,0.00001891122],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023959142,0.000024980807,0.029798465,0.00002648918,0.0000042111615,4.7417313e-7,0.0017297221,4.733405e-7,0.9471532,0.0030889725,0.00026318693,0.01767023],"study_design_scores_gemma":[0.0002818523,0.0013422354,0.8427394,0.000053086325,0.00004125895,0.000018541858,0.00078206975,0.00010855765,0.1536727,0.00038907718,0.00047425096,0.00009693855],"about_ca_topic_score_codex":0.000047429534,"about_ca_topic_score_gemma":0.000024590594,"teacher_disagreement_score":0.81294096,"about_ca_system_score_codex":0.000011114834,"about_ca_system_score_gemma":0.000009459947,"threshold_uncertainty_score":0.18904088},"labels":[],"label_agreement":null},{"id":"W2952808508","doi":"10.1093/cercor/bhy261","title":"High Sensitivity Mapping of Cortical Dopamine D2 Receptor Expressing Neurons","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Receptor Mechanisms and Signaling","field":"Biochemistry, Genetics and Molecular Biology","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Biology; Parvalbumin; Dopamine receptor D2; Context (archaeology); Dopamine","score_opus":0.014550133538489954,"score_gpt":0.23821367865412515,"score_spread":0.2236635451156352,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2952808508","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9809268,0.000059458627,0.017787226,0.000048814323,0.00053690333,0.000102900085,0.000019305642,0.000019733825,0.0004988718],"genre_scores_gemma":[0.994354,0.000010543062,0.0042831176,0.00016233389,0.00073251955,0.00000331288,0.00006597283,0.0000260138,0.00036218582],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988453,0.00011247331,0.0002628249,0.000359347,0.00014365432,0.00027643907],"domain_scores_gemma":[0.9993179,0.000021848771,0.00011660998,0.00030427432,0.00013686776,0.00010253909],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020588595,0.0001563952,0.00021014432,0.000037166505,0.00012468037,0.000025833782,0.00010608124,0.0001316516,0.00044259586],"category_scores_gemma":[0.00011621065,0.00014859032,0.0000970003,0.00008950328,0.00016744349,0.0000064299797,0.00013510551,0.00011396627,0.000024264695],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000051865445,0.00003443089,0.0009916739,0.00001223301,0.000022479815,0.000002815653,0.000032917244,0.000004357616,0.994892,0.0002780634,0.0006141435,0.0030630396],"study_design_scores_gemma":[0.00033277826,0.00036895025,0.0075473837,0.00003374739,0.000013852824,0.000016507911,0.00007848207,0.000370079,0.98687035,0.00005910126,0.004116723,0.00019202431],"about_ca_topic_score_codex":0.00003146138,"about_ca_topic_score_gemma":0.000011800921,"teacher_disagreement_score":0.0135041075,"about_ca_system_score_codex":0.0000090830545,"about_ca_system_score_gemma":0.000043176075,"threshold_uncertainty_score":0.6059337},"labels":[],"label_agreement":null},{"id":"W2952810115","doi":"10.1093/cercor/bhy157","title":"Heritability of Regional Brain Volumes in Large-Scale Neuroimaging and Genetic Studies","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic Associations and Epidemiology","field":"Biochemistry, Genetics and Molecular Biology","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Drug Abuse; National Institute on Aging; National Institute of General Medical Sciences; National Institute of Mental Health; Medical Research Council; Canadian Institutes of Health Research; National Science Foundation; National Institutes of Health; Cancer Prevention and Research Institute of Texas","keywords":"Heritability; Biobank; Neurocognitive; Brain size; Neuroimaging; Single-nucleotide polymorphism; Brain Structure and Function; Biology; Genetics; Population; Genome-wide association study; Genetic correlation; Evolutionary biology; Genetic variation; Neuroscience; Medicine; Genotype; Magnetic resonance imaging; Cognition; Gene","score_opus":0.020868531966002288,"score_gpt":0.2952834067639717,"score_spread":0.2744148747979694,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2952810115","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99689615,0.0015428734,0.00025290943,0.00096722355,0.0000842642,0.00009129199,0.00000935891,0.000004498036,0.00015141585],"genre_scores_gemma":[0.99668896,0.00014864928,0.0022142516,0.0005668144,0.00012633011,0.0000070903798,0.0000132351515,0.000008572568,0.00022609714],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99908257,0.000114247356,0.00024601168,0.0002944653,0.000052659096,0.00021003054],"domain_scores_gemma":[0.9995412,0.000036297002,0.00008423835,0.00019840692,0.00010172722,0.000038121954],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022913795,0.00009325854,0.00019391593,0.00002889686,0.000053318134,0.0000038652206,0.000080917605,0.00007586962,0.000012525178],"category_scores_gemma":[0.0002719668,0.00008970012,0.000041042484,0.00007095557,0.00027541872,0.0000024522722,0.0001297898,0.000052827956,0.000002208435],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000019092027,0.00003501386,0.9627399,0.000016989077,0.000022507886,7.1405907e-7,0.00023116944,0.000003870105,0.032238457,0.00001878447,0.0030609134,0.0016126103],"study_design_scores_gemma":[0.0003535031,0.0001997454,0.99495333,0.0000075135667,0.000007114377,0.000009461354,0.00045640036,0.00055927306,0.0007236073,0.00057458284,0.002063052,0.00009242249],"about_ca_topic_score_codex":0.000035948375,"about_ca_topic_score_gemma":0.0005952371,"teacher_disagreement_score":0.032213446,"about_ca_system_score_codex":0.0000094190955,"about_ca_system_score_gemma":0.00003204166,"threshold_uncertainty_score":0.36578646},"labels":[],"label_agreement":null},{"id":"W2953441293","doi":"10.1093/cercor/bhz115","title":"Epigenomic Convergence of Neural-Immune Risk Factors in Neurodevelopmental Disorder Cortex","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Epigenetics and DNA Methylation","field":"Biochemistry, Genetics and Molecular Biology","cited_by":45,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Neurological Disorders and Stroke; National Institute of General Medical Sciences; National Institute of Mental Health; National Institute on Alcohol Abuse and Alcoholism; National Institute of Environmental Health Sciences; Canadian Institutes of Health Research; Intellectual and Developmental Disabilities Research Center; Brain and Behavior Research Foundation; University of California; University of California Berkeley; National Institutes of Health","keywords":"Epigenomics; Epigenetics; DNA methylation; Biology; Neurodevelopmental disorder; MECP2; Differentially methylated regions; Neuroscience; Genetics; Rett syndrome; Gene; Gene expression; Phenotype","score_opus":0.006628121659687063,"score_gpt":0.22362149836454706,"score_spread":0.21699337670486,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2953441293","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99782974,0.00087935716,0.000110337525,0.000010078496,0.00042428248,0.00027251264,0.000030394604,0.0000069885755,0.00043632608],"genre_scores_gemma":[0.9987971,0.00041329302,0.000094782925,0.000019259682,0.00002265411,0.0000047534827,0.0001775767,0.000024630717,0.00044594225],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9988298,0.000071094415,0.00037536514,0.00036653798,0.00012021443,0.00023701656],"domain_scores_gemma":[0.9993639,0.000016920021,0.00019163088,0.00032749548,0.000044298944,0.00005576436],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001170334,0.00017218936,0.0002140615,0.000061548715,0.00003439125,0.000009256868,0.00019861094,0.00011703852,0.0001978986],"category_scores_gemma":[0.000039212897,0.00016622375,0.00009232817,0.00012252158,0.000055446337,0.0000065826507,0.00011778207,0.000117815245,0.000027791437],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000023368926,0.00002970782,0.5713695,0.000008910887,0.000010400646,3.9100718e-7,0.000050014285,0.00018261938,0.4276251,0.000010132507,0.0000050180934,0.00068482733],"study_design_scores_gemma":[0.0004799768,0.00019151982,0.85434633,0.0000054861835,0.000007171811,5.31137e-7,0.00008408889,0.0005467146,0.14348376,0.000045834295,0.0006328845,0.00017566905],"about_ca_topic_score_codex":0.000323081,"about_ca_topic_score_gemma":0.000134974,"teacher_disagreement_score":0.28414133,"about_ca_system_score_codex":0.000015319847,"about_ca_system_score_gemma":0.000056710447,"threshold_uncertainty_score":0.67784077},"labels":[],"label_agreement":null},{"id":"W2954070391","doi":"10.1093/cercor/bhy153","title":"Neural Basis of Sensorimotor Plasticity in Speech Motor Adaptation","year":2018,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Institut Universitaire de Gériatrie de Montréal; McGill University","funders":"National Center for Advancing Translational Sciences; National Institute on Deafness and Other Communication Disorders; Natural Sciences and Engineering Research Council of Canada","keywords":"Somatosensory system; Neuroscience; Neurocomputational speech processing; Auditory cortex; Psychology; Inferior frontal gyrus; Sensory system; Inferior parietal lobule; Functional magnetic resonance imaging; Perception; Speech perception","score_opus":0.03446997609386042,"score_gpt":0.25489111801565967,"score_spread":0.22042114192179924,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2954070391","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99728,0.0000013955678,0.00025833296,0.000119941666,0.0006986054,0.00021261835,0.000030561227,0.00004256367,0.0013559954],"genre_scores_gemma":[0.9988335,0.0000025420034,0.0002285798,0.00031241198,0.00017399037,0.000004693411,0.0000027954582,0.000014002528,0.0004275205],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.99886733,0.00007692472,0.0002622061,0.00033573277,0.00023180904,0.00022597608],"domain_scores_gemma":[0.99946594,0.00015318443,0.00011746872,0.00014267812,0.000061204606,0.00005950962],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005983273,0.000119755896,0.00015837485,0.00012582469,0.000064171254,0.000021341193,0.00013785118,0.00006012531,0.0001890465],"category_scores_gemma":[0.00041393578,0.0001092386,0.000055906905,0.00034243453,0.0001394057,0.00019111435,0.000046639754,0.00012589004,0.000062879],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002009167,0.00007380952,0.0055884123,0.000017648323,0.0000016735403,0.000014267782,0.00010413894,0.000043689797,0.98375976,0.0009821585,0.000113753056,0.0090997685],"study_design_scores_gemma":[0.00071513193,0.00079930853,0.27369753,0.000023662269,0.000009936227,0.000026791706,0.00006115156,0.37229717,0.35121948,0.00072178245,0.00020431403,0.00022378341],"about_ca_topic_score_codex":0.00013003605,"about_ca_topic_score_gemma":0.0001612722,"teacher_disagreement_score":0.6325403,"about_ca_system_score_codex":0.000040053463,"about_ca_system_score_gemma":0.000024756053,"threshold_uncertainty_score":0.44546208},"labels":[],"label_agreement":null},{"id":"W2955551213","doi":"10.1093/cercor/bhz108","title":"Corticosteroids and Regional Variations in Thickness of the Human Cerebral Cortex across the Lifespan","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; SickKids Foundation; Centre for Addiction and Mental Health; Holland Bloorview Kids Rehabilitation Hospital; University of Toronto","funders":"National Center for Advancing Translational Sciences; National Institute of Biomedical Imaging and Bioengineering; National Health and Medical Research Council; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; Medical Research Council; National Institutes of Health; Edinburgh and Lothians Health Foundation; National Institute on Aging; Gene Bridges; Maine Space Grant Consortium","keywords":"Glucocorticoid receptor; Human brain; Cerebral cortex; Biology; Glucocorticoid; Mineralocorticoid receptor; Gene expression; Cortex (anatomy); Neuroscience; Gene; Receptor; Psychology; Endocrinology; Genetics","score_opus":0.029100372575862798,"score_gpt":0.28996397711780464,"score_spread":0.26086360454194185,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2955551213","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99689513,0.000075167045,0.000018936576,0.0010526398,0.00042610508,0.0005770824,0.000049069495,0.000029113642,0.00087676104],"genre_scores_gemma":[0.9964724,0.0000343117,0.000007859792,0.0013356446,0.000059710183,0.000029366092,0.0000030250646,0.0000234376,0.002034246],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9979165,0.00028907927,0.00044524093,0.00048303022,0.00044494614,0.00042120283],"domain_scores_gemma":[0.9984817,0.0003889269,0.00027428387,0.0007255128,0.00005305779,0.00007653256],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000103482096,0.00020262442,0.0002607948,0.000051287898,0.0003652532,0.0001070348,0.0006709412,0.00010894894,0.0002039592],"category_scores_gemma":[0.00019408479,0.00012538128,0.00011644287,0.00045848158,0.00044352,0.00018952678,0.00037538292,0.00038630917,0.000031590906],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00017243206,0.00015500879,0.7270759,0.00004226832,0.000014760297,0.000008579417,0.0023641011,0.000020123478,0.24028608,0.026131371,0.0002150573,0.0035143665],"study_design_scores_gemma":[0.00087085366,0.00011352538,0.99236447,0.000053812815,0.000013568568,0.00006673655,0.00042235828,0.0008590454,0.0032710864,0.0011031082,0.0006923283,0.00016910235],"about_ca_topic_score_codex":0.0002961461,"about_ca_topic_score_gemma":0.00052534003,"teacher_disagreement_score":0.26528862,"about_ca_system_score_codex":0.0000356172,"about_ca_system_score_gemma":0.00009567553,"threshold_uncertainty_score":0.51129},"labels":[],"label_agreement":null},{"id":"W2963525682","doi":"10.1093/cercor/bhz089","title":" Life-Course Contribution of Prenatal Stress in Regulating the Neural Modulation Network Underlying the Prepulse Inhibition of the Acoustic Startle Reflex in Male Alzheimer’s Disease Mice","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neonatal and fetal brain pathology","field":"Medicine","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"Canadian Institutes of Health Research; Alberta Innovates; Natural Sciences and Engineering Research Council of Canada; Alzheimer Society; Canadian Institute for Advanced Research","keywords":"Prepulse inhibition; Gating; Neuroscience; Moro reflex; Offspring; Psychology; Sensory gating; Startle response; Reflex; Startle reaction; Corticosterone; Acoustic Startle Reflex; Medicine; Endocrinology; Biology; Schizophrenia (object-oriented programming); Hormone; Pregnancy","score_opus":0.0224650437095286,"score_gpt":0.27761060514902347,"score_spread":0.25514556143949485,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2963525682","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99650496,0.00072527595,0.0000421101,0.0012404323,0.00020217823,0.0011247618,0.000037548198,0.0000103004095,0.0001124219],"genre_scores_gemma":[0.9994303,0.000004036459,0.000017288034,0.00028533756,0.00006476963,0.00001880663,0.00008544539,0.000012179693,0.000081820705],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99871725,0.00020779684,0.00040485145,0.00021012087,0.00023257418,0.00022740457],"domain_scores_gemma":[0.9990677,0.00018837463,0.00025868087,0.00035336922,0.00007660079,0.00005523823],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032749033,0.000119588054,0.00022128699,0.00003401005,0.00006551414,0.00000739768,0.00011649422,0.00007231133,0.000043516215],"category_scores_gemma":[0.0002070773,0.00006681815,0.000083372346,0.0002953414,0.00016410858,0.00012824357,0.00010612471,0.000268992,0.0000025880488],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0021748624,0.00032297743,0.8491372,0.00035952384,0.00008411827,0.000027776447,0.0013619426,0.08058872,0.056855127,0.0014523007,0.000106832136,0.0075286203],"study_design_scores_gemma":[0.001178627,0.000097276374,0.9100708,0.0004114231,0.000112687965,0.00001591357,0.0003784493,0.08567759,0.0012112306,0.0007734869,0.0000025121149,0.00007004704],"about_ca_topic_score_codex":0.000103793616,"about_ca_topic_score_gemma":0.00018410466,"teacher_disagreement_score":0.060933568,"about_ca_system_score_codex":0.00003277633,"about_ca_system_score_gemma":0.000098393524,"threshold_uncertainty_score":0.27247652},"labels":[],"label_agreement":null},{"id":"W2965493050","doi":"10.1093/cercor/bhz143","title":"Uncovering a Role for the Dorsal Hippocampal Commissure in Recognition Memory","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Montreal Neurological Institute and Hospital","funders":"Medical Research Council; Wellcome Trust","keywords":"Diffusion MRI; White matter; Neuroscience; Anterior commissure; Tractography; Corpus callosum; Psychology; Commissure; Temporal lobe; Hippocampal formation; Cingulum (brain); Anatomy; Fractional anisotropy; Hippocampus; Magnetic resonance imaging; Biology; Medicine","score_opus":0.044399753488846117,"score_gpt":0.3165180994592483,"score_spread":0.2721183459704022,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2965493050","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98984003,0.00022153927,0.0027375347,0.0019229036,0.00010000245,0.001474085,0.000021133466,0.00015120162,0.0035315636],"genre_scores_gemma":[0.99573344,0.000018376957,0.0025604581,0.0008128835,0.00007083739,0.00014389656,0.000039708935,0.000020535384,0.0005998414],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9994584,0.000009000085,0.00013024577,0.00017771877,0.000076595956,0.00014808081],"domain_scores_gemma":[0.9995304,0.00009921289,0.00004293996,0.00026312214,0.00003528955,0.000029068375],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000086597305,0.00008005494,0.0001249707,0.00003380384,0.000047483656,0.000010329815,0.00008036611,0.000038094557,0.00009679477],"category_scores_gemma":[0.000029326622,0.000059780792,0.000056498557,0.00011369324,0.000024339903,0.000056514684,0.000029431216,0.00017064472,0.000041809733],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011317673,0.00049015414,0.1372574,0.00041919638,0.000080362195,0.000017550185,0.00083337055,0.0002849316,0.101352945,0.0021131383,0.007620505,0.74839866],"study_design_scores_gemma":[0.009543281,0.0012870161,0.5594148,0.00065251085,0.00029539884,0.00025784606,0.0018685639,0.028798552,0.031516626,0.09839428,0.26699457,0.000976583],"about_ca_topic_score_codex":0.0000344837,"about_ca_topic_score_gemma":0.000011392628,"teacher_disagreement_score":0.7474221,"about_ca_system_score_codex":0.000033452117,"about_ca_system_score_gemma":0.000025185267,"threshold_uncertainty_score":0.24377899},"labels":[],"label_agreement":null},{"id":"W2968955262","doi":"10.1093/cercor/bhz149","title":"Pulvinar Modulates Contrast Responses in the Visual Cortex as a Function of Cortical Hierarchy","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Comisión Nacional de Investigación Científica y Tecnológica; Canadian Institutes of Health Research","keywords":"Visual cortex; Neuroscience; Contrast (vision); Cortex (anatomy); Psychology; Striate cortex; Cortical neurons; Computer science; Artificial intelligence","score_opus":0.017915879639207655,"score_gpt":0.2676797208983736,"score_spread":0.24976384125916595,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2968955262","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996051,0.000020858979,0.00005530324,0.0003719506,0.0007172489,0.00053297577,0.000011543829,0.0000435474,0.0021955678],"genre_scores_gemma":[0.99729204,0.000014490102,0.000006677928,0.0013821422,0.00005382769,0.000015805406,0.000009464511,0.000019459889,0.0012061044],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99798673,0.00039811214,0.0003795564,0.00046772414,0.00042618735,0.00034167754],"domain_scores_gemma":[0.99867463,0.000763458,0.00013806848,0.00031338696,0.000047024034,0.000063407046],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000333407,0.00017886868,0.00025196202,0.00014481721,0.000101522826,0.00006121389,0.000273522,0.00009475124,0.00028474748],"category_scores_gemma":[0.00049922266,0.00012669727,0.00010562306,0.00046914446,0.00017695242,0.00023719523,0.0000662208,0.00036447047,0.0001998235],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014117429,0.00022879988,0.020876905,0.000023816681,0.000006286285,0.00003017051,0.00016602888,0.00002252044,0.95531386,0.018993877,0.0001542916,0.0027717084],"study_design_scores_gemma":[0.0012861631,0.0022532605,0.9633996,0.000039892784,0.000024165807,0.00009572338,0.00039692642,0.01878354,0.008286587,0.0046371636,0.00053979654,0.00025721712],"about_ca_topic_score_codex":0.000050735714,"about_ca_topic_score_gemma":0.000021435842,"teacher_disagreement_score":0.94702727,"about_ca_system_score_codex":0.00003625714,"about_ca_system_score_gemma":0.00006016629,"threshold_uncertainty_score":0.51665646},"labels":[],"label_agreement":null},{"id":"W2969318335","doi":"10.1093/cercor/bhz166","title":"Preparing for the Worst: Evidence that Older Adults Proactively Downregulate Negative Affect","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Aging and Gerontology Research","field":"Psychology","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"National Institute on Aging; National Institutes of Health","keywords":"Psychology; Anticipation (artificial intelligence); Amygdala; Ventromedial prefrontal cortex; Affect (linguistics); Young adult; Valence (chemistry); Developmental psychology; Prefrontal cortex; Audiology; Hippocampus; Episodic memory; Cognition; Cognitive psychology; Neuroscience; Medicine","score_opus":0.055130248566373885,"score_gpt":0.3625901715503695,"score_spread":0.3074599229839956,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2969318335","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9823806,0.0011109887,0.0011159224,0.00076254987,0.0007957421,0.0025576593,0.000008155303,0.000105825144,0.011162555],"genre_scores_gemma":[0.97564346,0.0000043611585,0.00012181975,0.00016675885,0.0001306137,0.0004358093,0.000004055587,0.000029391127,0.023463735],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99820274,0.0002106907,0.00015988102,0.0006207022,0.00020642168,0.00059956696],"domain_scores_gemma":[0.9973984,0.0016361814,0.00015393372,0.00063645863,0.000092954935,0.000082081686],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005103974,0.00019871772,0.0002525069,0.000057861173,0.0002145479,0.000051690462,0.00046530823,0.00014878105,0.0008979263],"category_scores_gemma":[0.00016440345,0.00012988465,0.00014257395,0.00014429318,0.0001756607,0.00020378058,0.00012047163,0.00035008925,0.00065595476],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.009176711,0.00041106346,0.59931624,0.00043103483,0.0015912456,0.000022006167,0.062456634,0.000030355093,0.00036769794,0.008898915,0.04826869,0.2690294],"study_design_scores_gemma":[0.0015037357,0.00034731205,0.99227697,0.00023897114,0.000049350783,0.000026532332,0.0030875173,0.0010504728,0.00039489774,0.0003066851,0.00049109035,0.00022649603],"about_ca_topic_score_codex":0.00033168148,"about_ca_topic_score_gemma":0.00015741197,"teacher_disagreement_score":0.3929607,"about_ca_system_score_codex":0.000056705565,"about_ca_system_score_gemma":0.000051021358,"threshold_uncertainty_score":0.9831663},"labels":[],"label_agreement":null},{"id":"W2972018016","doi":"10.1093/cercor/bhz187","title":"A Key Role for Prefrontocortical Small Conductance Calcium-Activated Potassium Channels in Stress Adaptation and Rapid Antidepressant Response","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Addiction and Mental Health; McGill University; Memorial University of Newfoundland","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Ontario Mental Health Foundation","keywords":"Chemistry; Apamin; Serotonergic; Antidepressant; Neuroscience; Pirenzepine; Acetylcholine; Muscarinic acetylcholine receptor; Antagonist; Prefrontal cortex; Serotonin; Pharmacology; Endocrinology; Internal medicine; Potassium channel; Psychology; Hippocampus; Medicine; Receptor","score_opus":0.08336846600841781,"score_gpt":0.326466225782728,"score_spread":0.2430977597743102,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2972018016","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968925,0.00004529031,0.000081418875,0.00046194936,0.0004697224,0.001774758,0.000059446207,0.0000622231,0.00015267446],"genre_scores_gemma":[0.9981895,0.00003144108,0.00003697611,0.000693589,0.00004436989,0.00018360579,0.0000023323862,0.00003058753,0.00078760594],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.997309,0.00051388255,0.00030633225,0.00092490134,0.00027550745,0.00067036704],"domain_scores_gemma":[0.99855804,0.0008143405,0.000100909194,0.0002780125,0.000058306614,0.000190372],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00034079043,0.00021057208,0.00029822826,0.00019470709,0.0001465483,0.00009792102,0.00035038125,0.000102771686,0.000096376185],"category_scores_gemma":[0.00072658336,0.00019063249,0.000051267238,0.00037945516,0.00028216923,0.00042903377,0.00015789575,0.00034919416,0.00003060429],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.002998415,0.00013028996,0.0051818546,0.00003364509,0.0000020625052,0.000054112068,0.0003151185,0.00006716092,0.99020815,0.00020553514,0.000036895446,0.0007667648],"study_design_scores_gemma":[0.0021252618,0.00079255,0.05233009,0.00002682317,0.0000067692113,0.000032234788,0.000142771,0.03028952,0.9134623,0.00019878738,0.00036129655,0.00023159874],"about_ca_topic_score_codex":0.000026010373,"about_ca_topic_score_gemma":0.000011314831,"teacher_disagreement_score":0.07674585,"about_ca_system_score_codex":0.000041579595,"about_ca_system_score_gemma":0.00013960022,"threshold_uncertainty_score":0.7773768},"labels":[],"label_agreement":null},{"id":"W2979321298","doi":"10.1093/cercor/bhz200","title":"Quantitative In vivo MRI Assessment of Structural Asymmetries and Sexual Dimorphism of Transient Fetal Compartments in the Human Brain","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institutes of Health; National Institute of Biomedical Imaging and Bioengineering; McKnight Foundation; National Institute of Neurological Disorders and Stroke; American Academy of Neurology","keywords":"Sexual dimorphism; Parahippocampal gyrus; Subplate; Fetus; Neuroscience; Piriform cortex; Biology; Brain size; Sex characteristics; Cortex (anatomy); Gyrus; Anatomy; Cerebral cortex; Orbitofrontal cortex; Psychology; Central nervous system; Prefrontal cortex; Temporal lobe; Magnetic resonance imaging; Medicine; Endocrinology; Cognition; Pregnancy","score_opus":0.03447639415787776,"score_gpt":0.3345280182722019,"score_spread":0.3000516241143242,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2979321298","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9969894,0.000015000465,0.000060873466,0.00020017018,0.00017161857,0.0005570726,0.000049622377,0.000009202523,0.0019469952],"genre_scores_gemma":[0.99929553,0.000002064599,0.00029620904,0.0002819658,0.0000056044964,0.0000086129985,0.0000017603496,0.00001022042,0.00009804559],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99778587,0.00034376708,0.0004980474,0.0004824601,0.0005824134,0.00030744154],"domain_scores_gemma":[0.9987608,0.0006405518,0.00022198146,0.00030260446,0.000024256718,0.00004977714],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00039361077,0.00017998327,0.00036630206,0.00013569342,0.00006157536,0.000029032648,0.00047651873,0.000047065758,0.00006803476],"category_scores_gemma":[0.000176765,0.0001355026,0.000039193506,0.00088602357,0.0005383733,0.00026238553,0.00009877792,0.00025156254,0.0000015327726],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000023000499,0.000116078416,0.2345646,0.000053439577,0.00000236968,0.00001107265,0.0015055669,0.00009865075,0.7548255,0.008608243,0.00004705625,0.00014446277],"study_design_scores_gemma":[0.0011827329,0.00078090146,0.9287046,0.000033255496,0.000005238127,0.000014777079,0.0015904532,0.008537284,0.05863538,0.00030659157,0.000040524534,0.00016825959],"about_ca_topic_score_codex":0.00014255104,"about_ca_topic_score_gemma":0.00008657547,"teacher_disagreement_score":0.69619006,"about_ca_system_score_codex":0.000045260673,"about_ca_system_score_gemma":0.000059547016,"threshold_uncertainty_score":0.5525636},"labels":[],"label_agreement":null},{"id":"W2982818586","doi":"10.1093/cercor/bhz241","title":"Polygenic Architecture of Human Neuroanatomical Diversity","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic Associations and Epidemiology","field":"Biochemistry, Genetics and Molecular Biology","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Biomedical Imaging and Bioengineering; National Institute on Drug Abuse; National Institute of Mental Health; Biotechnology and Biological Sciences Research Council; Medical Research Council; Institut Pasteur; Siemens Healthineers; McGill University; Université Paris Diderot; Fondation pour la Recherche Médicale; National Institutes of Health; Canada First Research Excellence Fund; Fondation Cognacq-Jay; Agence Nationale de la Recherche; European Commission; Centre National de la Recherche Scientifique; Fondation Orange","keywords":"Diversity (politics); Architecture; Neuroscience; Biology; Evolutionary biology; Psychology; Geography; Sociology; Anthropology","score_opus":0.018348116884450153,"score_gpt":0.2491418649616118,"score_spread":0.23079374807716166,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2982818586","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99738544,0.00009765845,0.0005875293,0.00093810656,0.000044940505,0.00006643451,0.000019919642,0.000008848662,0.0008510907],"genre_scores_gemma":[0.998203,0.000008648351,0.0002730544,0.0011740427,0.00013802954,0.0000011292324,0.000063814965,0.000007991767,0.00013031242],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9993452,0.000063898435,0.00015164235,0.00022439375,0.00006305778,0.00015182799],"domain_scores_gemma":[0.9996342,0.000007652045,0.000079615136,0.00014994867,0.000032368716,0.0000962072],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005160487,0.00008379739,0.0001500853,0.000013498544,0.00009003681,0.000002547816,0.00018741481,0.0001071118,0.000049198865],"category_scores_gemma":[0.00008901268,0.00008040731,0.000107383144,0.000058511512,0.00006752261,8.076654e-7,0.0003526704,0.00008877793,0.00000861985],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048080045,0.000035837413,0.4838993,0.00001505846,0.00007617456,0.0000019364552,0.00014509549,0.00004402924,0.5059208,0.00031147,0.008300971,0.0012012006],"study_design_scores_gemma":[0.00054436416,0.00054837734,0.98620063,0.0000019127729,0.00003524781,0.0000046132004,0.000059906484,0.00013545732,0.008708476,0.0005079375,0.003084177,0.0001688949],"about_ca_topic_score_codex":0.000032105374,"about_ca_topic_score_gemma":0.000016529031,"teacher_disagreement_score":0.50230134,"about_ca_system_score_codex":0.000004232815,"about_ca_system_score_gemma":0.00002280506,"threshold_uncertainty_score":0.3278915},"labels":[],"label_agreement":null},{"id":"W2983101366","doi":"10.1093/cercor/bhz208","title":"Tight Coupling between Morphological Features of the Central Sulcus and Somatomotor Body Representations: A Combined Anatomical and Functional MRI Study","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Douglas Mental Health University Institute; McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Central sulcus; Somatosensory system; Neuroscience; Representation (politics); Functional magnetic resonance imaging; Sulcus; Psychology; Anatomy; Cortex (anatomy); Biology; Motor cortex","score_opus":0.022100478230597864,"score_gpt":0.286807651917989,"score_spread":0.26470717368739116,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2983101366","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972801,0.00005541169,0.00020470867,0.00049926696,0.000634223,0.000673401,0.000018338651,0.00004129631,0.0005932369],"genre_scores_gemma":[0.99813396,0.0000033311458,0.00003520617,0.00012996935,0.000106346335,0.000016004764,0.00005466882,0.000011570306,0.0015089461],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99891084,0.0001090053,0.00028654828,0.00032476953,0.00020275862,0.00016604915],"domain_scores_gemma":[0.9993142,0.00014038534,0.00014987878,0.00024706262,0.00007640709,0.000072071736],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012948418,0.00011842924,0.00020736623,0.00005226973,0.00012901746,0.000032958837,0.00008917386,0.000114403134,0.0011009666],"category_scores_gemma":[0.000044052747,0.000084941385,0.000044122804,0.00017786345,0.00011507593,0.00010424357,0.0000762209,0.0001819677,0.000020139069],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009181469,0.00014846904,0.99282926,0.0000074580767,0.00007228018,0.0000015153878,0.00041781485,0.000008741437,0.0005782605,0.0038610995,0.0018445296,0.00013876223],"study_design_scores_gemma":[0.0018289973,0.00016226721,0.9955528,0.000006541442,0.000041425443,0.00001721038,0.0010783643,0.0007464754,0.0000573254,0.0002296049,0.00018540394,0.000093580755],"about_ca_topic_score_codex":0.000080645914,"about_ca_topic_score_gemma":0.000012860085,"teacher_disagreement_score":0.0036314945,"about_ca_system_score_codex":0.000027175029,"about_ca_system_score_gemma":0.000025475803,"threshold_uncertainty_score":0.9998122},"labels":[],"label_agreement":null},{"id":"W2986358756","doi":"10.1093/cercor/bhz189","title":"Morphology and Spatial Probability Maps of the Horizontal Ascending Ramus of the Lateral Fissure","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Fonds de Recherche du Québec - Santé; Canadian Institutes of Health Research","keywords":"Sulcus; Central sulcus; Anatomy; Voxel; Gyrus; Morphology (biology); Cortex (anatomy); Contrast (vision); Neuroscience; Psychology; Biology; Computer science; Artificial intelligence; Motor cortex","score_opus":0.016187221912315135,"score_gpt":0.23447901731627474,"score_spread":0.2182917954039596,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2986358756","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966192,0.000006116227,0.000015639902,0.00026815681,0.001212761,0.00047509922,0.000045432593,0.000016396614,0.0013411839],"genre_scores_gemma":[0.99927205,0.0000014378106,0.000042218297,0.00023496628,0.000027452052,0.0000037606471,3.261461e-7,0.000010369794,0.00040739452],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984304,0.00023607169,0.0002821781,0.00043406175,0.00034993148,0.00026735774],"domain_scores_gemma":[0.99891466,0.0001658554,0.00023146611,0.0006126613,0.000026527776,0.000048809135],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018445392,0.00013458128,0.00021881639,0.00001491132,0.000102864884,0.000016372796,0.0007042548,0.00007752499,0.00010457249],"category_scores_gemma":[0.00058652734,0.000078088604,0.000092619855,0.00036928518,0.00072446547,0.00010272643,0.00048363677,0.00026025594,0.00000618669],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000018528543,0.000032319673,0.2686026,0.00003528532,0.0000011571165,0.0000012209396,0.00012647382,0.000008036414,0.7300408,0.00041040845,0.000052901505,0.00067028793],"study_design_scores_gemma":[0.000309179,0.00013353188,0.45934248,0.000022565522,0.000008234461,0.000057903384,0.000022790593,0.000770895,0.53838426,0.0006179516,0.0002328505,0.00009736693],"about_ca_topic_score_codex":0.00013248155,"about_ca_topic_score_gemma":0.000020504905,"teacher_disagreement_score":0.19165653,"about_ca_system_score_codex":0.000026701635,"about_ca_system_score_gemma":0.000069766145,"threshold_uncertainty_score":0.3184361},"labels":[],"label_agreement":null},{"id":"W2986431168","doi":"10.1093/cercor/bhz195","title":"Inhibitory Theta Burst Stimulation Highlights the Role of Left aIPS and Right TPJ during Complementary and Imitative Human–Avatar Interactions in Cooperative and Competitive Scenarios","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"H2020 European Research Council; Ministry of Health, British Columbia","keywords":"Psychology; Anticipation (artificial intelligence); Intraparietal sulcus; Neuroscience; Avatar; Action (physics); Imitation; Communication; Cognitive psychology; Posterior parietal cortex; Computer science","score_opus":0.017182569153548398,"score_gpt":0.28587194222428475,"score_spread":0.26868937307073637,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2986431168","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99482286,0.00014123734,0.00004190727,0.0004417578,0.00016991366,0.0005270271,0.000036876005,0.000017788065,0.0038006462],"genre_scores_gemma":[0.9988919,0.000013613648,0.00003588822,0.00010579727,0.000043110562,0.000009779913,0.00011607367,0.000012216625,0.00077163195],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99901456,0.00019494447,0.00029189678,0.0002747417,0.00009964005,0.00012419865],"domain_scores_gemma":[0.9994092,0.00014595203,0.00016135913,0.00013465052,0.000109746994,0.00003909609],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00010385498,0.00013450852,0.0001891094,0.000113891634,0.00021983961,0.00003121931,0.000052752675,0.00004355711,0.0012972561],"category_scores_gemma":[0.000009694875,0.000105422485,0.000017277234,0.00010084582,0.00017469726,0.00033737865,0.00006103003,0.00018058358,0.00001486003],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001937229,0.00016762762,0.8512752,0.000038951108,0.00013943379,0.0000028943791,0.029345365,0.000112472895,0.022002906,0.09622557,0.00016508989,0.00033078177],"study_design_scores_gemma":[0.0015280934,0.00011637282,0.9786951,0.000056764806,0.00002070863,0.000013175059,0.014288213,0.002127962,0.0009329972,0.0006520478,0.0014355126,0.0001330291],"about_ca_topic_score_codex":0.0002661691,"about_ca_topic_score_gemma":0.0012526086,"teacher_disagreement_score":0.12741993,"about_ca_system_score_codex":0.00005311471,"about_ca_system_score_gemma":0.000014168518,"threshold_uncertainty_score":0.99961567},"labels":[],"label_agreement":null},{"id":"W2990571127","doi":"10.1093/cercor/bhz251","title":"Key Aspects of Neurovascular Control Mediated by Specific Populations of Inhibitory Cortical Interneurons","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Photoreceptor and optogenetics research","field":"Neuroscience","cited_by":79,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Medical Research Council; Royal Society; Medical Research Council Canada; Wellcome Trust","keywords":"Neuroscience; Optogenetics; Inhibitory postsynaptic potential; Interneuron; Premovement neuronal activity; Neurovascular bundle; Biology; Anatomy","score_opus":0.02985689161125789,"score_gpt":0.27579931471913505,"score_spread":0.24594242310787715,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2990571127","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9940029,0.00008924344,0.00013982541,0.000052392843,0.0005852177,0.0004617547,0.00014496497,0.00003365314,0.0044900854],"genre_scores_gemma":[0.9995573,0.000039089933,0.000020439056,0.00011053053,0.00003890928,0.000006908406,0.000017795626,0.000029475657,0.0001795617],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99787754,0.00025562855,0.00044958832,0.00042971544,0.00065194286,0.00033555916],"domain_scores_gemma":[0.9988091,0.0003053428,0.00013926227,0.00047454736,0.00009981875,0.00017190006],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00013793456,0.00015632181,0.00033279002,0.00013830645,0.000044448345,0.000019298928,0.00041213038,0.00008330171,0.0010002847],"category_scores_gemma":[0.0004333334,0.00014686096,0.00016371367,0.00034520912,0.00027640193,0.00009634109,0.000110740824,0.00030872223,0.00020008266],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006620773,0.00015073593,0.028446214,0.000021651182,0.0000068469694,0.0000048963793,0.000053046773,0.00001491503,0.9684667,0.0019978841,0.0006600031,0.00011089515],"study_design_scores_gemma":[0.0014158747,0.00042664114,0.11854876,0.00002224998,0.000015266496,0.00000797046,0.000017811777,0.002170223,0.8754599,0.00027790802,0.0014632534,0.00017413787],"about_ca_topic_score_codex":0.000024187671,"about_ca_topic_score_gemma":0.000006367121,"teacher_disagreement_score":0.0930068,"about_ca_system_score_codex":0.000029673425,"about_ca_system_score_gemma":0.00006974868,"threshold_uncertainty_score":0.9999129},"labels":[],"label_agreement":null},{"id":"W2993579426","doi":"10.1093/cercor/bhz224","title":"Atrophy of Basal Forebrain Initiates with Tau Pathology in Individuals at Risk for Alzheimer’s Disease","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":66,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Neurological Disorders and Stroke; European Regional Development Fund; Instituto de Salud Carlos III; Ministry of Innovation and Advanced Education; Fundación BBVA; Ministerio de Ciencia e Innovación; National Institutes of Health; Fundació la Marató de TV3","keywords":"Nucleus basalis; Basal forebrain; Cholinergic; Tauopathy; Cholinergic neuron; Neuroscience; Atrophy; Pathology; Alzheimer's disease; Psychology; Medicine; Neurodegeneration; Disease","score_opus":0.023601582009849083,"score_gpt":0.29532736676997157,"score_spread":0.2717257847601225,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2993579426","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9933122,0.0031027629,0.000013212445,0.00022170255,0.000050322866,0.0019357157,0.0008196903,0.000028818551,0.00051557797],"genre_scores_gemma":[0.99810946,0.000058040965,0.0005929632,0.00021269202,0.000053597327,0.00018615575,0.0006659241,0.000048916732,0.00007225533],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9982491,0.00010037453,0.00031514672,0.0004507909,0.00035360994,0.00053098606],"domain_scores_gemma":[0.9986427,0.0001858529,0.00016791071,0.00043454955,0.00011788838,0.00045110408],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016316006,0.00023849738,0.0004982738,0.00020331456,0.0000586369,0.000009848953,0.00012226314,0.00009064082,0.00047510734],"category_scores_gemma":[0.00008266936,0.000175361,0.00017263877,0.00020839855,0.00018193989,0.00012090572,0.00009836478,0.00015782859,0.00012671784],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0025568993,0.00044934338,0.9930594,0.00010564373,0.0019931267,0.00016786573,0.000098083656,0.000004209272,0.000055234308,0.00022675001,0.00042119232,0.00086224737],"study_design_scores_gemma":[0.009048035,0.0020437955,0.98525995,0.00010507563,0.0010084809,0.000013835071,0.000086015534,0.00019828836,0.0005598193,0.0014201369,0.00007402856,0.00018256054],"about_ca_topic_score_codex":0.00006720412,"about_ca_topic_score_gemma":0.00005536595,"teacher_disagreement_score":0.007799476,"about_ca_system_score_codex":0.00006692901,"about_ca_system_score_gemma":0.00032523545,"threshold_uncertainty_score":0.71510136},"labels":[],"label_agreement":null},{"id":"W2995267742","doi":"10.1093/cercor/bhz276","title":"Pain-Evoked Reorganization in Functional Brain Networks","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":81,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institutes of Health; National Institute of Mental Health; Beijing Municipal Science and Technology Commission; China Scholarship Council; National Center for Complementary and Integrative Health; National Natural Science Foundation of China","keywords":"Neuroscience; Psychology; Brain mapping; Functional magnetic resonance imaging","score_opus":0.018281855109421215,"score_gpt":0.2227728640296459,"score_spread":0.2044910089202247,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2995267742","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9759622,0.000042197167,0.0037037265,0.008818542,0.001789924,0.0004943792,0.000005517222,0.00021345358,0.008970042],"genre_scores_gemma":[0.98035413,0.0000038773105,0.000027351918,0.013321922,0.00021620194,0.000016533813,0.000014654692,0.000028711562,0.006016597],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983006,0.00027233746,0.00021517795,0.0005969551,0.00030023305,0.00031466037],"domain_scores_gemma":[0.9961021,0.0034507199,0.00007933198,0.00025776573,0.00005576868,0.00005429623],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00046475802,0.00016431785,0.00018533078,0.00013093944,0.00012382312,0.000043377466,0.00014917168,0.000089660374,0.0010788023],"category_scores_gemma":[0.005905608,0.00016492466,0.000053965192,0.0007475179,0.0000674474,0.0002806027,0.000110506044,0.00024872666,0.0005535769],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00031830138,0.00027276654,0.66645664,0.000051738974,0.000023771641,0.000032029686,0.00029116415,0.010948413,0.16440825,0.031808622,0.12069986,0.0046884576],"study_design_scores_gemma":[0.0015955654,0.000283121,0.9223139,0.000041923187,0.0000063461675,0.000026902326,0.00013872035,0.051475175,0.0038762582,0.0036265403,0.016104156,0.0005113518],"about_ca_topic_score_codex":0.00001593812,"about_ca_topic_score_gemma":0.00007471921,"teacher_disagreement_score":0.25585732,"about_ca_system_score_codex":0.00013053494,"about_ca_system_score_gemma":0.00005209057,"threshold_uncertainty_score":0.99983436},"labels":[],"label_agreement":null},{"id":"W2995903718","doi":"10.1093/cercor/bhz270","title":"Cortical Surfaces Mediate the Relationship Between Polygenic Scores for Intelligence and General Intelligence","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic Associations and Epidemiology","field":"Biochemistry, Genetics and Molecular Biology","cited_by":45,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Holland Bloorview Kids Rehabilitation Hospital","funders":"H2020 European Research Council; National Institute of Biomedical Imaging and Bioengineering; National Institute of Mental Health; Medical Research Council; Royal Perth Hospital Medical Research Foundation; Fondation pour la Recherche Médicale; Svenska Forskningsrådet Formas; Agence Nationale de la Recherche; Deutsche Forschungsgemeinschaft; Bundesministerium für Bildung und Forschung; National Institute for Health and Care Research; National Institutes of Health; Science Foundation Ireland; National Alliance for Research on Schizophrenia and Depression; California Department of Fish and Game","keywords":"Genome-wide association study; Neurocognitive; Insula; Anterior cingulate cortex; Endophenotype; Prefrontal cortex; Psychology; Neuroscience; Single-nucleotide polymorphism; Biology; Genetics; Genotype; Cognition; Gene","score_opus":0.04168888361454447,"score_gpt":0.30626766788315035,"score_spread":0.26457878426860587,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W2995903718","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9831228,0.00077009544,0.014689509,0.0006441326,0.00021142885,0.00036737483,0.000033533044,0.000010382452,0.00015073268],"genre_scores_gemma":[0.9964602,0.00011903935,0.0013770334,0.00027802546,0.00023652535,0.000022687627,0.00012444226,0.00001612329,0.0013658956],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99881494,0.00012912515,0.00031896468,0.00035267082,0.000084458356,0.00029984777],"domain_scores_gemma":[0.99891067,0.00052900036,0.000116314885,0.00029098286,0.00006856957,0.00008445866],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00047355436,0.00014083552,0.00018910576,0.00002470725,0.00016827078,0.000025837131,0.00022678927,0.00017478688,0.000028175162],"category_scores_gemma":[0.00078050053,0.000103833714,0.00008258715,0.00008094825,0.00016395215,0.0000048500174,0.000121276964,0.00014167312,0.00003801061],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024759935,0.0000074307095,0.9928199,0.000010112491,0.000034157518,9.0079e-8,0.000047461195,0.00015846272,0.0018084359,0.0030176216,0.00034542163,0.0017261545],"study_design_scores_gemma":[0.00009907834,0.00024101217,0.9908099,0.000005544594,0.000032545966,0.000003863102,0.00011609134,0.0015433003,0.0012587757,0.0048454716,0.0008917561,0.00015263083],"about_ca_topic_score_codex":0.00003295326,"about_ca_topic_score_gemma":0.000052282154,"teacher_disagreement_score":0.013337417,"about_ca_system_score_codex":0.000011327421,"about_ca_system_score_gemma":0.000058457783,"threshold_uncertainty_score":0.4234216},"labels":[],"label_agreement":null},{"id":"W3003899665","doi":"10.1093/cercor/bhz272","title":"Predictive Pattern Classification Can Distinguish Gender Identity Subtypes from Behavior and Brain Imaging","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Medicinska fakulteten, Umeå Universitet; RWTH Aachen University; Deutsche Forschungsgemeinschaft","keywords":"Transgender; Psychology; Normative; Identity (music); Gender identity; Canonical correlation; Gender Identity Disorder; Biological sex; Perspective (graphical); Perception; Developmental psychology; Correlation; Cognitive psychology; Social psychology; Artificial intelligence; Computer science; Neuroscience; Mathematics","score_opus":0.035288880432143864,"score_gpt":0.27232615207315664,"score_spread":0.23703727164101276,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3003899665","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99471956,0.00005298509,0.0004105657,0.0017183644,0.0007679449,0.0003332874,0.00019887905,0.00011872997,0.0016796626],"genre_scores_gemma":[0.9971056,0.000005163102,0.000017962095,0.0022345071,0.00015574408,0.000035774723,0.000019649582,0.000021638047,0.0004039884],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99851406,0.000103255166,0.00016072381,0.0006907895,0.00030902497,0.00022214669],"domain_scores_gemma":[0.9983267,0.0011679514,0.00011047839,0.00026405658,0.000060642862,0.00007014872],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010040878,0.00015712141,0.00015960417,0.00005584408,0.00020054226,0.00011828074,0.0001563774,0.000040095074,0.00023338154],"category_scores_gemma":[0.0017156687,0.00015766968,0.000044122935,0.00013221778,0.00013941058,0.00039808184,0.00017102556,0.00017263605,0.0001045487],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011530018,0.000043013373,0.9377768,0.000010513165,0.000008343569,0.000008569528,0.0004473821,6.5183735e-7,0.05648583,0.0004571255,0.001411869,0.0033383605],"study_design_scores_gemma":[0.0003331036,0.000032973265,0.99320215,0.000011176096,0.000026606967,0.000008845246,0.00029288165,0.0028085648,0.0016698027,0.0011624752,0.0002748284,0.00017656997],"about_ca_topic_score_codex":0.00044334645,"about_ca_topic_score_gemma":0.00028676435,"teacher_disagreement_score":0.05542536,"about_ca_system_score_codex":0.00008391433,"about_ca_system_score_gemma":0.000020413901,"threshold_uncertainty_score":0.6429583},"labels":[],"label_agreement":null},{"id":"W3005714072","doi":"10.1093/cercor/bhaa261","title":"Modeling Reveals Human–Rodent Differences in H-Current Kinetics Influencing Resonance in Cortical Layer 5 Neurons","year":2020,"lang":"en","type":"preprint","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network","funders":"Krembil Foundation; Natural Sciences and Engineering Research Council of Canada; University Health Network","keywords":"Neuroscience; Human brain; Electrophysiology; Neuron; Kinetics; Biology; Biological system; Physics","score_opus":0.10311195924225579,"score_gpt":0.3115673594566025,"score_spread":0.20845540021434672,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3005714072","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963395,0.00022951626,0.000426512,0.0005831541,0.0013380795,0.00068380905,0.000050277176,0.00010294983,0.0002461973],"genre_scores_gemma":[0.9985184,0.00020564093,0.00005216613,0.00082058326,0.00019672498,0.00007107857,0.00002232321,0.00005078584,0.00006230731],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9958972,0.00036170884,0.0010270319,0.0014944781,0.0005911813,0.0006284487],"domain_scores_gemma":[0.99883497,0.00017644437,0.00022366385,0.00052933383,0.00004705751,0.00018856023],"candidate_categories":["metaepi_narrow","research_integrity"],"consensus_categories":[],"category_scores_codex":[0.00017990891,0.00048163751,0.0006863644,0.00025220294,0.000112161826,0.00022136161,0.0007064511,0.00024918257,0.0000404538],"category_scores_gemma":[0.00070251344,0.00047036647,0.00015221548,0.00043742175,0.00010829095,0.0001350007,0.0011570962,0.002467253,0.00002558635],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002214153,0.0007115449,0.1549008,0.0007943477,0.000008364956,0.0004582332,0.0010843182,0.03790451,0.7834443,0.012093542,0.0001566401,0.008222016],"study_design_scores_gemma":[0.0004980314,0.00015778563,0.36942753,0.00066455815,0.000018014543,0.00000781434,0.00002707787,0.61617446,0.00097038766,0.011381327,0.000054018616,0.00061899784],"about_ca_topic_score_codex":0.00019981539,"about_ca_topic_score_gemma":0.00038142502,"teacher_disagreement_score":0.78247386,"about_ca_system_score_codex":0.00022942039,"about_ca_system_score_gemma":0.00009433844,"threshold_uncertainty_score":0.9998341},"labels":[],"label_agreement":null},{"id":"W3006772828","doi":"10.1093/cercor/bhaa014","title":"Maternal Depressive Symptoms During Pregnancy and Brain Age in Young Adult Offspring: Findings from a Prenatal Birth Cohort","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Maternal Mental Health During Pregnancy and Postpartum","field":"Medicine","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health","funders":"European Regional Development Fund; Masarykova Univerzita; Central European Institute of Technology; Ministerstvo Školství, Mládeže a Tělovýchovy; European Commission; Centre for Addiction and Mental Health Foundation","keywords":"Offspring; Pregnancy; Cohort; Obstetrics; Medicine; Cohort study; Young adult; Psychology; Psychiatry; Developmental psychology; Clinical psychology; Biology; Internal medicine","score_opus":0.010219783448100296,"score_gpt":0.24552808350133565,"score_spread":0.23530830005323536,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3006772828","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964385,0.00088422693,0.000008503445,0.00066991866,0.00022213555,0.0007856322,0.000077692166,0.000118778094,0.00079460186],"genre_scores_gemma":[0.9982488,0.00014798106,0.000093171235,0.000570597,0.00015049457,0.00006678487,0.000048034566,0.00003763707,0.0006364565],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981394,0.00004932285,0.00045398923,0.00058574224,0.00029638904,0.0004751485],"domain_scores_gemma":[0.9991765,0.000041005183,0.00011601692,0.00021835622,0.000029040837,0.0004190691],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.000035643374,0.0002736412,0.00044158715,0.00008210468,0.00009198861,0.000053610744,0.00014992565,0.00012818941,0.00016555376],"category_scores_gemma":[0.000066460554,0.00025526262,0.000065145716,0.00012058735,0.000070861584,0.00020494263,0.00014782841,0.00040205944,0.000034990935],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006262949,0.00004240365,0.99061865,0.00268231,0.00005736773,0.0014490158,0.0012359201,7.508214e-7,0.0027984923,0.00008075938,0.000008253144,0.00039976116],"study_design_scores_gemma":[0.0031660823,0.00021860522,0.96278447,0.011447658,0.000040026225,0.00020621027,0.000036799993,0.00022221198,0.021586113,0.00005199601,0.000006707363,0.00023314128],"about_ca_topic_score_codex":0.0010814582,"about_ca_topic_score_gemma":0.00026524471,"teacher_disagreement_score":0.027834222,"about_ca_system_score_codex":0.00007537839,"about_ca_system_score_gemma":0.000037319453,"threshold_uncertainty_score":0.99999},"labels":[],"label_agreement":null},{"id":"W3008217968","doi":"10.1093/cercor/bhaa017","title":"Human Anterior Insula Encodes Performance Feedback and Relays Prediction Error to the Medial Prefrontal Cortex","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":64,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Mila - Quebec Artificial Intelligence Institute","funders":"Fondo Nacional de Desarrollo Científico y Tecnológico; Comisión Nacional de Investigación Científica y Tecnológica; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs","keywords":"Prefrontal cortex; Neuroscience; Psychology; Insula; Valence (chemistry); Anterior cingulate cortex; Context (archaeology); Insular cortex; Computer science; Cognition; Physics; Biology","score_opus":0.029294376833071487,"score_gpt":0.24327874765617624,"score_spread":0.21398437082310476,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3008217968","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99512553,0.000018598623,0.00006684791,0.0021653294,0.0007626806,0.00060766836,0.000073085714,0.00012988594,0.0010503569],"genre_scores_gemma":[0.9955629,0.000026411315,0.000030541596,0.0033874519,0.00043919016,0.000037053524,0.00001127284,0.000024937775,0.0004802196],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99853015,0.00006917766,0.00027492008,0.0005480873,0.0002924706,0.00028517644],"domain_scores_gemma":[0.9994263,0.00003564985,0.00009797426,0.00020729522,0.000027332964,0.00020545222],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000090985704,0.00019153448,0.00017673532,0.0000419426,0.00045348302,0.0001126361,0.0002691107,0.00007088545,0.00009447367],"category_scores_gemma":[0.00012754176,0.00013815002,0.000053713964,0.00024929064,0.00013785898,0.0003241078,0.00019521054,0.0002750808,0.000100160316],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015658692,0.000029629982,0.0096583,0.00003345738,0.0000043835516,0.000009411134,0.00084641244,0.000041090218,0.98312044,0.00024401788,0.0012632147,0.00459305],"study_design_scores_gemma":[0.0007928109,0.0015609036,0.93188816,0.00004677378,0.000026552194,0.000069570924,0.00014053202,0.048575364,0.012568947,0.0000659319,0.0039762906,0.00028819122],"about_ca_topic_score_codex":0.00001478177,"about_ca_topic_score_gemma":0.00004613191,"teacher_disagreement_score":0.9705515,"about_ca_system_score_codex":0.000035623765,"about_ca_system_score_gemma":0.000023454097,"threshold_uncertainty_score":0.56335944},"labels":[],"label_agreement":null},{"id":"W3008730782","doi":"10.1093/cercor/bhz334","title":"Synaptic Mechanisms Underlying the Network State-Dependent Recruitment of VIP-Expressing Interneurons in the CA1 Hippocampus","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":49,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network; Université Laval","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Savoy Foundation","keywords":"Disinhibition; Neuroscience; Schaffer collateral; Hippocampus; Vasoactive intestinal peptide; Inhibitory postsynaptic potential; Interneuron; Gating; Biology; Excitatory postsynaptic potential; Receptor; Neuropeptide","score_opus":0.1185852239878356,"score_gpt":0.35769856448785586,"score_spread":0.23911334050002025,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3008730782","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.995714,0.000045983485,0.00012940401,0.0008057926,0.0011111719,0.0014149969,0.000005611739,0.000037467005,0.00073554367],"genre_scores_gemma":[0.9957978,0.000063795625,0.00001028344,0.0036040586,0.000019961608,0.000083928135,3.0985504e-7,0.000026423693,0.00039343385],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9964171,0.0011453074,0.0003862794,0.00063931476,0.0006875389,0.00072445074],"domain_scores_gemma":[0.9980091,0.001106169,0.00018145911,0.0006017328,0.00002633065,0.000075226526],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00083280174,0.00020686015,0.00024096969,0.000083608014,0.00027707085,0.00012563825,0.0014407522,0.000050367682,0.00012309974],"category_scores_gemma":[0.00016422845,0.00012332224,0.00009128361,0.0006178816,0.00032603517,0.00022299415,0.00041238207,0.000737173,0.00013759216],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007615102,0.00009363294,0.0011501259,0.000018327932,0.000005492146,0.00012958456,0.00050088484,0.00051686604,0.99410236,0.0018455061,0.00007727476,0.0014837795],"study_design_scores_gemma":[0.0036378254,0.0031928136,0.08466094,0.00030760298,0.00009013555,0.00071877084,0.0020077287,0.026309287,0.8372149,0.039662566,0.0011881314,0.0010093298],"about_ca_topic_score_codex":0.00002915175,"about_ca_topic_score_gemma":0.000018604318,"teacher_disagreement_score":0.1568875,"about_ca_system_score_codex":0.000052313764,"about_ca_system_score_gemma":0.00010457358,"threshold_uncertainty_score":0.5028935},"labels":[],"label_agreement":null},{"id":"W3009506677","doi":"10.1093/cercor/bhz331","title":"Value Neglect: A Critical Role for Ventromedial Frontal Lobe in Learning the Value of Spatial Locations","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Ventromedial prefrontal cortex; Value (mathematics); Neglect; Frontal lobe; Psychology; Cognitive psychology; Neuroscience; Cognition; Mathematics; Statistics; Psychiatry","score_opus":0.021308803322050193,"score_gpt":0.30389791925726223,"score_spread":0.282589115935212,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3009506677","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98445094,0.000021722886,0.012601993,0.0005437129,0.0006992248,0.00042481843,0.000013970539,0.000042879346,0.0012007132],"genre_scores_gemma":[0.9986667,0.0000024632272,0.0002598048,0.0004033458,0.00014031802,0.000027917915,0.000007654119,0.000017452114,0.00047431642],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9988387,0.00015030612,0.0002447205,0.0002801112,0.00022888815,0.00025726],"domain_scores_gemma":[0.9993661,0.00032599096,0.00006977155,0.00014429085,0.000036638045,0.000057189427],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017074218,0.000103143546,0.00015694178,0.000062575935,0.00014077165,0.000044621807,0.00022308472,0.00007393646,0.000495031],"category_scores_gemma":[0.0007419613,0.000083727646,0.00007602084,0.00015205516,0.00010996263,0.00012503435,0.00004982133,0.00023634314,0.00012635089],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014273249,0.00014857894,0.0018237409,0.000074152165,0.00000232234,0.0000012199816,0.0014711457,0.00067095796,0.94599885,0.045372263,0.000043860484,0.0042501544],"study_design_scores_gemma":[0.0038925908,0.0022942934,0.074689,0.0002540146,0.00005581257,0.00004713656,0.0026351432,0.6419776,0.22181399,0.04697512,0.004707411,0.000657883],"about_ca_topic_score_codex":0.00011293032,"about_ca_topic_score_gemma":0.000031103256,"teacher_disagreement_score":0.7241849,"about_ca_system_score_codex":0.000036839305,"about_ca_system_score_gemma":0.000097190685,"threshold_uncertainty_score":0.54202425},"labels":[],"label_agreement":null},{"id":"W3010421932","doi":"10.1093/cercor/bhz250","title":"Experience Transforms Conjunctive Object Representations: Neural Evidence for Unitization After Visual Expertise","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Functional magnetic resonance imaging; Feature (linguistics); Computer science; Novelty; Artificial intelligence; Object (grammar); Pattern recognition (psychology); Encoding (memory); Coding (social sciences); Neuroscience; Psychology; Mathematics","score_opus":0.1542559085862005,"score_gpt":0.3794207635345258,"score_spread":0.2251648549483253,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3010421932","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9755569,0.00006509333,0.021110814,0.0014429096,0.00030816105,0.0009409565,0.0000471746,0.00018363417,0.00034435754],"genre_scores_gemma":[0.99242485,0.00009623918,0.00012068213,0.006505536,0.00016256343,0.00046940023,0.000030584953,0.000023559938,0.00016659529],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985361,0.00011050998,0.0002820977,0.0005551089,0.00025568737,0.00026051456],"domain_scores_gemma":[0.9993358,0.00020172722,0.000061479055,0.00012340036,0.00010180025,0.00017574412],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000048264486,0.00017046325,0.00015345527,0.000056853594,0.00019224516,0.00008154826,0.00014243813,0.00006874299,0.0011168204],"category_scores_gemma":[0.000884028,0.00015533179,0.000112806956,0.0003542384,0.00014637371,0.001094787,0.00002474061,0.000116862786,0.00014864694],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0023835627,0.00012960673,0.0043464773,0.00012034507,0.000008336146,0.000022135271,0.035076078,0.00014096948,0.91282874,0.0002805093,0.00073750626,0.043925732],"study_design_scores_gemma":[0.004048228,0.002101327,0.093611114,0.00024560635,0.000081252496,0.00006277838,0.011187152,0.274521,0.6105293,0.00058103545,0.0016970728,0.0013341716],"about_ca_topic_score_codex":0.000023036564,"about_ca_topic_score_gemma":0.00001825939,"teacher_disagreement_score":0.30229947,"about_ca_system_score_codex":0.000045563356,"about_ca_system_score_gemma":0.00004546192,"threshold_uncertainty_score":0.9997963},"labels":[],"label_agreement":null},{"id":"W3010446410","doi":"10.1093/cercor/bhaa004","title":"Prefrontal Cortical Reactivity and Connectivity Markers Distinguish Youth Depression from Healthy Youth","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":47,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"BC Research (Canada); University of Toronto; Centre for Addiction and Mental Health","funders":"National Institute of Mental Health; Canadian Institutes of Health Research; National Institutes of Health; Michael Smith Health Research BC; Brain and Behavior Research Foundation; Mayo Clinic","keywords":"Default mode network; Psychology; Dorsolateral prefrontal cortex; Transcranial magnetic stimulation; Neuroscience; Prefrontal cortex; Major depressive disorder; Depression (economics); Anhedonia; Functional magnetic resonance imaging; Supplementary motor area; Population; Inferior parietal lobule; Stimulation; Medicine; Cognition","score_opus":0.05597871764656069,"score_gpt":0.26019167964764717,"score_spread":0.20421296200108646,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3010446410","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99200606,0.000084042615,0.000539886,0.00245107,0.0005805753,0.00042481467,0.0006776498,0.00030720228,0.002928724],"genre_scores_gemma":[0.99385583,0.000012639878,0.00009175652,0.0055427053,0.00038691974,0.000014088421,0.000033036624,0.000038572714,0.000024463381],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9969422,0.0004392459,0.0002935976,0.001333643,0.00046979167,0.00052152755],"domain_scores_gemma":[0.99564904,0.0033883906,0.00017364383,0.0003102166,0.000048982463,0.0004297246],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00021132585,0.00032791874,0.00044767366,0.000037672973,0.000621214,0.00009617584,0.00020783581,0.00012441784,0.000075098484],"category_scores_gemma":[0.015651291,0.00030625326,0.00010112109,0.00022804456,0.00035805866,0.00036461762,0.00052739296,0.0005975038,0.000039119983],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.007992652,0.00068553863,0.77721334,0.00014128721,0.000115003626,0.00013747049,0.014943922,0.000011610181,0.17874245,0.0008003088,0.0033950307,0.01582141],"study_design_scores_gemma":[0.0018307767,0.00067723193,0.9792467,0.000048483078,0.00009905282,0.000013996732,0.0030618552,0.002656225,0.010938152,0.000482318,0.0003580292,0.00058721734],"about_ca_topic_score_codex":0.00068172603,"about_ca_topic_score_gemma":0.00017350996,"teacher_disagreement_score":0.20203334,"about_ca_system_score_codex":0.00010294534,"about_ca_system_score_gemma":0.00008001856,"threshold_uncertainty_score":0.99993896},"labels":[],"label_agreement":null},{"id":"W3011221250","doi":"10.1093/cercor/bhaa054","title":"Top–Down Inhibitory Mechanisms Underlying Auditory–Motor Integration for Voice Control: Evidence by TMS","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"Natural Science Foundation of Guangdong Province; National Natural Science Foundation of China","keywords":"Supramarginal gyrus; Transcranial magnetic stimulation; Superior temporal gyrus; Neuroscience; Psychology; Speech production; Inferior frontal gyrus; Inhibitory postsynaptic potential; Auditory feedback; Inferior parietal lobule; Dorsolateral prefrontal cortex; Prefrontal cortex; Audiology; Stimulation; Functional magnetic resonance imaging; Medicine; Cognition; Speech recognition; Computer science","score_opus":0.08814019291166002,"score_gpt":0.30666577668593153,"score_spread":0.2185255837742715,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3011221250","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.73851424,0.00003393191,0.25001332,0.005102553,0.003792076,0.0016180997,0.00011736755,0.00043423648,0.00037416726],"genre_scores_gemma":[0.9814082,0.000021013382,0.00026421068,0.01714354,0.000452934,0.00010808862,0.0000070660076,0.000029316514,0.0005656234],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9978183,0.0001238219,0.00032676532,0.0008584758,0.0004457703,0.00042689516],"domain_scores_gemma":[0.9989495,0.00031571105,0.00017665548,0.00024439307,0.00007162922,0.00024207229],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020299201,0.00023460244,0.00023459208,0.000059567315,0.0003822286,0.00018348281,0.00042132806,0.000109828456,0.00010978958],"category_scores_gemma":[0.0013159254,0.00021541626,0.00013401914,0.00029860437,0.00014423768,0.0010750359,0.000063225045,0.0002454071,0.00019193941],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011653892,0.00002592431,0.000008213124,0.000022444861,0.000001126631,0.000003109429,0.00024574567,0.00000447559,0.9831117,0.00081988465,0.012710385,0.0029304756],"study_design_scores_gemma":[0.0030902172,0.0038903279,0.006773807,0.00025823363,0.00010328506,0.00003149094,0.0007747848,0.042917486,0.91014636,0.0040137465,0.026729835,0.0012704503],"about_ca_topic_score_codex":0.00001832231,"about_ca_topic_score_gemma":0.000009435909,"teacher_disagreement_score":0.24974911,"about_ca_system_score_codex":0.000092571994,"about_ca_system_score_gemma":0.00010841989,"threshold_uncertainty_score":0.87844205},"labels":[],"label_agreement":null},{"id":"W3012795081","doi":"10.1093/cercor/bhaa035","title":"Global and Regional Development of the Human Cerebral Cortex: Molecular Architecture and Occupational Aptitudes","year":2020,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Genetic Associations and Epidemiology","field":"Biochemistry, Genetics and Molecular Biology","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; University of Toronto; Montreal Neurological Institute and Hospital; SickKids Foundation; Holland Bloorview Kids Rehabilitation Hospital; Hospital for Sick Children","funders":"Biotechnology and Biological Sciences Research Council; National Institutes of Health; National Institute on Aging; University of Cape Town; Technische Universität Dresden; University of Queensland; Vrije Universiteit Amsterdam; Universiteit Utrecht; Taiwan Biobank; Queensland University of Technology; University of California, San Diego; Westfälische Wilhelms-Universität Münster; National University of Ireland; McGill University; Medical Research Council; Universidade Estadual de Campinas; University of Galway; Cardiff University; University of Southern California","keywords":"Visual cortex; Cognition; Genome-wide association study; Neuroscience; Cerebral cortex; Association (psychology); Psychology; Biology; Cortex (anatomy); Human brain; Genetics; Single-nucleotide polymorphism; Gene","score_opus":0.03036203313544677,"score_gpt":0.31406964659401737,"score_spread":0.2837076134585706,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3012795081","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.069131285,0.9289034,0.00061182753,0.00014544968,0.00011779956,0.00054910727,0.00017811434,0.00001003848,0.00035298482],"genre_scores_gemma":[0.15452804,0.8266415,0.013343487,0.0011953639,0.00066274276,0.00016674775,0.0027399007,0.00011490489,0.0006072995],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9982987,0.0001773332,0.0005531806,0.0005548147,0.00017235993,0.00024361603],"domain_scores_gemma":[0.9990831,0.000022866969,0.00042775995,0.0002844593,0.00006572256,0.000116110474],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00013851064,0.0003451634,0.0007339328,0.000029752176,0.00017681853,0.000018118526,0.00028826014,0.00038965428,0.000015674164],"category_scores_gemma":[0.00008200165,0.00025032632,0.00023448325,0.00012462422,0.00024027134,0.0000018966524,0.00043487965,0.00018125142,0.0000013692986],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000052321877,0.00016246388,0.09774989,0.004434615,0.00234243,0.000010562752,0.00019334408,0.000013065473,0.0010908783,0.00533284,0.006964793,0.8816528],"study_design_scores_gemma":[0.0003147077,0.000098490906,0.17392397,0.000411204,0.00028053718,0.00010369008,0.000017454135,0.0000040986465,0.000012222065,0.00048748055,0.82395524,0.00039089192],"about_ca_topic_score_codex":0.000013619462,"about_ca_topic_score_gemma":0.000086840744,"teacher_disagreement_score":0.8812619,"about_ca_system_score_codex":0.000039501087,"about_ca_system_score_gemma":0.0004965417,"threshold_uncertainty_score":0.9999949},"labels":[],"label_agreement":null},{"id":"W3012974132","doi":"10.1093/cercor/bhaa058","title":"Dissociable Neural Information Dynamics of Perceptual Integration and Differentiation during Bistable Perception","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Fondo Nacional de Desarrollo Científico y Tecnológico; Wellcome Trust","keywords":"Perception; Bistability; Dynamics (music); Cognitive psychology; Psychology; Neuroscience; Cognitive science; Neural correlates of consciousness; Computer science; Cognition; Physics","score_opus":0.015790332338091385,"score_gpt":0.21645455833776028,"score_spread":0.2006642259996689,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3012974132","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9956288,0.0000022358222,0.0026755668,0.0006851849,0.00017773925,0.00020263821,0.000046775356,0.000073386975,0.00050772494],"genre_scores_gemma":[0.9993103,0.00001539832,0.000045510667,0.00031455696,0.00004926936,0.000005568536,0.00014548999,0.000009809527,0.000104087514],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.999104,0.000051575942,0.00027486074,0.00020555503,0.00020785986,0.00015611401],"domain_scores_gemma":[0.9995908,0.00002944421,0.00016840444,0.00008363049,0.000052154835,0.00007555854],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000039252125,0.00012262579,0.00014248473,0.000064522275,0.00016185142,0.00009241914,0.00008030814,0.000063621934,0.0001378288],"category_scores_gemma":[0.00017401796,0.00011243497,0.000046948884,0.00022372376,0.000060196802,0.0011695434,0.00005906328,0.00014311649,0.000014504329],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000158357,0.00003581273,0.0084614465,0.000121156634,0.0000041202857,7.4082203e-7,0.0024629114,0.00024972318,0.96428543,0.005081133,0.00005408422,0.019085111],"study_design_scores_gemma":[0.00048125492,0.0001844169,0.28327283,0.000013257455,0.000015994676,0.0000065764825,0.0011719645,0.7074598,0.006878591,0.00034243308,0.000018651534,0.00015424032],"about_ca_topic_score_codex":0.000036639758,"about_ca_topic_score_gemma":0.000022475466,"teacher_disagreement_score":0.9574068,"about_ca_system_score_codex":0.00006921952,"about_ca_system_score_gemma":0.000010682831,"threshold_uncertainty_score":0.45849654},"labels":[],"label_agreement":null},{"id":"W3013010530","doi":"10.1093/cercor/bhaa056","title":"Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory Representations","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":71,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Institute of Mental Health; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Government of Ontario; Simons Foundation","keywords":"Neocortex; Neuroscience; Interneuron; Working memory; Primate; Inhibitory postsynaptic potential; Sensory system; Psychology; Biology; Cognitive psychology; Cognition","score_opus":0.07704002757268556,"score_gpt":0.30087154775782904,"score_spread":0.22383152018514346,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3013010530","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9892304,0.000016110234,0.00043059152,0.008520124,0.00024725756,0.0011609176,0.00010981839,0.000012828553,0.00027195286],"genre_scores_gemma":[0.99866134,0.000012744156,0.000030081068,0.0010683918,0.000076168406,0.00007838297,0.000006727489,0.000010405294,0.00005574899],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99908006,0.00011268417,0.00027492063,0.00024640287,0.00017670763,0.00010920289],"domain_scores_gemma":[0.9988296,0.00045898114,0.00030202008,0.00031489818,0.00007143005,0.000023066974],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010681992,0.00008643802,0.00013429714,0.00003975417,0.00008789451,0.000013321934,0.00033434923,0.000028857705,0.0000066628777],"category_scores_gemma":[0.00039134113,0.000047971436,0.00007786972,0.0004037242,0.00013157965,0.00005572885,0.000096447024,0.00011902917,9.79634e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012582689,0.00006628242,0.0216038,0.000035057255,0.000011136521,4.859033e-7,0.0027362765,0.00032296128,0.9618042,0.008115504,0.00026870178,0.004909763],"study_design_scores_gemma":[0.00029204713,0.00020338413,0.55595064,0.0000711115,0.000060289956,0.0000031941515,0.0011317602,0.0034421629,0.4365229,0.0015990658,0.00062385295,0.00009955415],"about_ca_topic_score_codex":0.00012864049,"about_ca_topic_score_gemma":0.00027915213,"teacher_disagreement_score":0.5343469,"about_ca_system_score_codex":0.000027218508,"about_ca_system_score_gemma":0.000039049733,"threshold_uncertainty_score":0.19562185},"labels":[],"label_agreement":null},{"id":"W3013066705","doi":"10.1093/cercor/bhaa048","title":"Multiple Brain Networks Mediating Stimulus–Pain Relationships in Humans","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Pain Management and Placebo Effect","field":"Neuroscience","cited_by":73,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute on Drug Abuse; National Institutes of Health; National Institute of Biomedical Imaging and Bioengineering; National Institute of Mental Health; Deutsche Forschungsgemeinschaft","keywords":"Nociception; Neuroscience; Psychology; Functional magnetic resonance imaging; Noxious stimulus; Stimulus (psychology); Sensory system; Midbrain; Brain activity and meditation; Cognition; Cognitive psychology; Electroencephalography; Medicine; Central nervous system","score_opus":0.057422506249737534,"score_gpt":0.26152566409826516,"score_spread":0.20410315784852762,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3013066705","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8478088,0.00016756498,0.12275391,0.010617167,0.0005882975,0.0018216432,0.00001906656,0.00075905607,0.01546452],"genre_scores_gemma":[0.9924965,0.000004146358,0.00017429637,0.0067422516,0.00022700908,0.000023340202,0.00002182058,0.000023549506,0.00028710192],"study_design_codex":"observational","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9961273,0.002534518,0.00028156475,0.0004608216,0.00021958207,0.00037618645],"domain_scores_gemma":[0.99251217,0.0070693074,0.00008868458,0.00018352448,0.000008863071,0.00013743508],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.0028509349,0.00016377524,0.00017989168,0.00007911838,0.00021160187,0.00007136894,0.00029878542,0.00008605945,0.00015637737],"category_scores_gemma":[0.016847543,0.00016749062,0.0000610422,0.0006110083,0.000053635737,0.00022295976,0.00010698674,0.0005161583,0.00016408002],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000984266,0.00005545204,0.9305513,0.00006302749,0.00000567798,0.00009857623,0.0018220744,0.017488373,0.017399136,0.0028241859,0.016680462,0.012913341],"study_design_scores_gemma":[0.0007068206,0.00006205956,0.083105184,0.000020758089,0.000005176108,3.1154377e-7,0.00011291187,0.9123395,0.0003355278,0.0002208574,0.0028746577,0.00021621573],"about_ca_topic_score_codex":0.000017401853,"about_ca_topic_score_gemma":0.00012326552,"teacher_disagreement_score":0.89485115,"about_ca_system_score_codex":0.000036008198,"about_ca_system_score_gemma":0.000016869111,"threshold_uncertainty_score":0.991434},"labels":[],"label_agreement":null},{"id":"W3014116996","doi":"10.1093/cercor/bhaa094","title":"Corrigendum: Synaptic Mechanisms Underlying the Network State-Dependent Recruitment of VIP-Expressing Interneurons in the CA1 Hippocampus","year":2020,"lang":"en","type":"erratum","venue":"Cerebral Cortex","topic":"Receptor Mechanisms and Signaling","field":"Biochemistry, Genetics and Molecular Biology","cited_by":0,"is_retracted":false,"has_abstract":false,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network; Université Laval","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Savoy Foundation","keywords":"Neuroscience; Hippocampus; Biology; Psychology","score_opus":0.05833719949724098,"score_gpt":0.28407162886357185,"score_spread":0.22573442936633087,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3014116996","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.43931141,0.058348905,0.1838233,0.0047070496,0.26142246,0.020644087,0.00081234466,0.00037749813,0.03055296],"genre_scores_gemma":[0.9871615,0.0008437197,0.0003792123,0.0014899867,0.00075671315,0.00018480753,0.0005615159,0.0001365176,0.008485985],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9969224,0.0005193186,0.00069283525,0.0007630824,0.0004973529,0.00060502073],"domain_scores_gemma":[0.99845,0.00004829224,0.000541639,0.00078341854,0.00007571654,0.00010097608],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00059840834,0.0005034581,0.0005347378,0.000043255524,0.00021175141,0.00012802728,0.0011673548,0.00047413577,0.00011948011],"category_scores_gemma":[0.00006730229,0.00033203335,0.00030046457,0.00018712721,0.00010497666,0.0000068911036,0.0004417113,0.0011352196,0.000012487917],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003957571,0.00023951841,0.0001069641,0.00047117542,0.0010438351,0.00021876971,0.002475452,0.0012768093,0.6777526,0.002713814,0.29885352,0.014451758],"study_design_scores_gemma":[0.0073895357,0.012717828,0.005896112,0.006345278,0.0024519034,0.00079116237,0.020046014,0.019734873,0.107595295,0.09701323,0.7114656,0.008553154],"about_ca_topic_score_codex":0.0001196827,"about_ca_topic_score_gemma":0.00024026861,"teacher_disagreement_score":0.57015735,"about_ca_system_score_codex":0.00006517449,"about_ca_system_score_gemma":0.00029230054,"threshold_uncertainty_score":0.99991316},"labels":[],"label_agreement":null},{"id":"W3014279893","doi":"10.1093/cercor/bhaa093","title":"Corrigendum: Polygenic Architecture of Human Neuroanatomical Diversity","year":2020,"lang":"en","type":"erratum","venue":"Cerebral Cortex","topic":"Medical and Biological Sciences","field":"Medicine","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Diversity (politics); Neuroscience; Architecture; Biology; Evolutionary biology; Genetic architecture; Psychology; Geography; Genetics; Quantitative trait locus; Sociology; Gene; Archaeology","score_opus":0.04282796209671081,"score_gpt":0.2713977136494824,"score_spread":0.2285697515527716,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3014279893","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.68812186,0.003079894,0.00007461204,0.022294827,0.060935006,0.0020711212,0.0003629781,0.00057274406,0.22248699],"genre_scores_gemma":[0.86614335,0.000095229974,0.000053323696,0.004114527,0.0026785918,0.0000030865824,0.00062566646,0.000019902145,0.12626633],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.99776167,0.00007929184,0.0003854096,0.00062475377,0.0007572792,0.00039160444],"domain_scores_gemma":[0.99876213,0.000029548864,0.0002202874,0.00028489795,0.000061565115,0.0006415461],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00010422785,0.00029916593,0.0008654234,0.000072954776,0.00018447133,0.000010269973,0.00058103696,0.00064690853,0.0035480745],"category_scores_gemma":[0.00022493223,0.00018030316,0.00039692296,0.00032875003,0.0006258116,0.000018993953,0.00084683695,0.0017213515,0.000073685886],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011447221,0.00014063626,0.018159252,0.00028051247,0.000080862286,0.00016870027,0.00007309552,1.7369894e-8,0.0015072363,0.00038941772,0.97512287,0.003962902],"study_design_scores_gemma":[0.0014576268,0.0040695434,0.620733,0.00037940196,0.0005926241,0.00010284829,0.000084103565,0.00009071114,0.0001669421,0.0047251587,0.36689797,0.00070002984],"about_ca_topic_score_codex":0.00018190124,"about_ca_topic_score_gemma":0.000044534398,"teacher_disagreement_score":0.6082249,"about_ca_system_score_codex":0.000036813508,"about_ca_system_score_gemma":0.00021431796,"threshold_uncertainty_score":0.9973628},"labels":[],"label_agreement":null},{"id":"W3014788017","doi":"10.1093/cercor/bhaa019","title":"Abrupt, Asynchronous Changes in Action Representations by Anterior Cingulate Cortex Neurons during Trial and Error Learning","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; Simon Fraser University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Anterior cingulate cortex; Cingulate cortex; Neuroscience; Psychology; Cortex (anatomy); Action (physics); Error-related negativity; Asynchronous communication; Cognitive psychology; Cognition; Computer science; Central nervous system","score_opus":0.03972944107678361,"score_gpt":0.2887181687542968,"score_spread":0.24898872767751318,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3014788017","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966377,0.00002246147,0.00007176713,0.0019285547,0.0005015808,0.00046378703,0.000015139202,0.00014075868,0.00021824846],"genre_scores_gemma":[0.99844635,0.00010921764,0.000012103598,0.00064521725,0.00018347782,0.000024952906,0.000012338714,0.000029350282,0.0005369738],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99849474,0.00014805868,0.00025674666,0.00062554807,0.00017900516,0.0002959121],"domain_scores_gemma":[0.9994787,0.00008934015,0.0001539961,0.00012820333,0.000014838877,0.00013490647],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000060948154,0.00017156263,0.00021301192,0.00009269407,0.000267611,0.00011499348,0.00010937548,0.000065513275,0.00009603313],"category_scores_gemma":[0.0003449429,0.00017541762,0.000047645794,0.0003259473,0.00007106654,0.00027149523,0.00010243741,0.00035792228,0.000018327608],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014033621,0.000035504356,0.0033151654,0.000029377485,0.0000029876946,0.000039809653,0.0002780017,0.0000842179,0.99139744,0.000031367854,0.00007180544,0.0033109458],"study_design_scores_gemma":[0.034937877,0.0033427519,0.6867829,0.000120197124,0.000072019626,0.00022058676,0.00087046326,0.15188108,0.1187459,0.0001409634,0.0017099031,0.0011753921],"about_ca_topic_score_codex":0.00008573311,"about_ca_topic_score_gemma":0.00015107087,"teacher_disagreement_score":0.8726516,"about_ca_system_score_codex":0.000039930117,"about_ca_system_score_gemma":0.000018796823,"threshold_uncertainty_score":0.71533227},"labels":[],"label_agreement":null},{"id":"W3016825374","doi":"10.1093/cercor/bhz242","title":"Reinstatement of Event Details during Episodic Simulation in the Hippocampus","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":38,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"National Institute of Mental Health; National Institute on Aging; National Institutes of Health","keywords":"Episodic memory; Hippocampus; Neuroscience; Psychology; Event (particle physics); Cognitive psychology; Cognition; Physics","score_opus":0.04790425911026004,"score_gpt":0.3094968168045493,"score_spread":0.2615925576942893,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3016825374","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981693,0.000011381799,0.000045136414,0.00010082775,0.0002806919,0.0004962679,0.0000025498732,0.00001871895,0.00087513385],"genre_scores_gemma":[0.9992877,0.0000061846667,0.000011235176,0.00034812567,0.000019077203,0.000010094404,0.0000011501078,0.000008057581,0.00030834624],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99878395,0.0001939889,0.0002863787,0.00025733773,0.0002753768,0.00020297004],"domain_scores_gemma":[0.9993718,0.00016876376,0.00012711716,0.00029051155,0.000011886684,0.000029875433],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021726501,0.00009812848,0.00013309735,0.000063587286,0.000054844597,0.000015299303,0.00024609937,0.0000346369,0.00029685753],"category_scores_gemma":[0.00009061258,0.000069301714,0.00005343627,0.00021345112,0.000025427707,0.00016255287,0.000047329166,0.00012905212,0.00014434145],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000068013695,0.000058167607,0.0028376787,0.000058104706,0.0000011741182,0.000017395596,0.00036862766,0.003663336,0.9888648,0.0013416213,0.0000037231862,0.0027173997],"study_design_scores_gemma":[0.0007235263,0.00020947325,0.04493454,0.000050085102,0.0000054681614,0.000011450635,0.0001323187,0.009931428,0.9364344,0.0074114464,0.00003194681,0.00012390883],"about_ca_topic_score_codex":0.0000039891534,"about_ca_topic_score_gemma":0.0000071899894,"teacher_disagreement_score":0.05243035,"about_ca_system_score_codex":0.00002634575,"about_ca_system_score_gemma":0.000014110055,"threshold_uncertainty_score":0.3250382},"labels":[],"label_agreement":null},{"id":"W3017636452","doi":"10.1093/cercor/bhaa088","title":"Reelin Improves Cognition and Extends the Lifespan of Mutant Ndel1 Mice with Postnatal CA1 Hippocampus Deterioration","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurogenesis and neuroplasticity mechanisms","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Alberta Children's Hospital; University of Calgary","funders":"Alberta Children's Hospital Research Institute; Canadian Institutes of Health Research; Alberta Innovates; National Research Foundation; Alberta Innovates - Health Solutions","keywords":"Reelin; Hippocampus; Neuroscience; Biology; DAB1; Synaptic plasticity; Morris water navigation task; Cell biology; Genetics","score_opus":0.0247807644287904,"score_gpt":0.22761751954336318,"score_spread":0.20283675511457278,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3017636452","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99843854,0.000024460403,0.00039937856,0.00055372383,0.00012423373,0.00028302224,0.000047935588,0.000052475847,0.000076225864],"genre_scores_gemma":[0.9974463,0.000029772376,0.00006278511,0.0023445433,0.00006788182,0.000009020265,0.0000040613513,0.000023723516,0.000011886675],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99878633,0.0001245117,0.00022494682,0.00041927944,0.00025869408,0.00018621967],"domain_scores_gemma":[0.99937254,0.00014697877,0.00016765119,0.00014670745,0.000053264535,0.000112883215],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005981327,0.00015959638,0.0001657959,0.000032534765,0.00015146396,0.000061663,0.00016094686,0.00004108778,0.000018084205],"category_scores_gemma":[0.00020357384,0.0001066177,0.000036211968,0.00021673826,0.0001460166,0.00017804217,0.0000857415,0.0001417383,0.000010671293],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025114202,0.00002250687,0.000047392015,0.000027151997,0.000003302725,0.000051927174,0.00017276652,0.0000018199062,0.9976278,0.00033374512,0.000013121549,0.00144733],"study_design_scores_gemma":[0.0005147429,0.0011600457,0.0062578777,0.000018010602,0.000046684938,0.0002239073,0.00010653307,0.002793567,0.9886164,0.00009312675,0.000033018434,0.00013605699],"about_ca_topic_score_codex":0.0000071822014,"about_ca_topic_score_gemma":0.000012065877,"teacher_disagreement_score":0.0090113655,"about_ca_system_score_codex":0.0000053721265,"about_ca_system_score_gemma":0.000040640127,"threshold_uncertainty_score":0.43477437},"labels":[],"label_agreement":null},{"id":"W3019471350","doi":"10.1093/cercor/bhaa092","title":"Corrigendum: Joint Attention and Brain Functional Connectivity in Infants and Toddlers","year":2020,"lang":"en","type":"erratum","venue":"Cerebral Cortex","topic":"Infant Development and Preterm Care","field":"Medicine","cited_by":1,"is_retracted":false,"has_abstract":false,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta; Health Sciences Centre; McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Environmental Health Sciences","keywords":"Joint attention; Functional connectivity; Neuroscience; Joint (building); Psychology; Cognitive psychology; Developmental psychology; Autism","score_opus":0.03291455144704487,"score_gpt":0.24550995123007244,"score_spread":0.21259539978302758,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3019471350","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8755139,0.0023733396,0.00003355287,0.0049649547,0.03545245,0.001626533,0.00031669487,0.00018384626,0.07953469],"genre_scores_gemma":[0.863709,0.00069206493,0.00023814209,0.0057235598,0.0026420285,0.00007102854,0.010271491,0.00012770013,0.11652502],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.9983509,0.000065251734,0.00036340993,0.00060705835,0.00031761458,0.00029573706],"domain_scores_gemma":[0.99933946,0.000038880844,0.00015855803,0.00017204991,0.000080867525,0.0002101778],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001834706,0.00034147146,0.00063897594,0.00022130721,0.00008618551,0.000050409624,0.000046200686,0.0005037096,0.0003704253],"category_scores_gemma":[0.00018103697,0.00032697176,0.00008921991,0.00017062985,0.00011005373,0.00013011215,0.00012868994,0.0010478122,0.0000127205],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00031792224,0.000010911476,0.13171811,0.0005492724,0.00010743384,0.00017012634,0.00058326445,3.5930924e-8,0.00031445635,0.00010411628,0.8617053,0.004419032],"study_design_scores_gemma":[0.0016995216,0.00019169816,0.86694086,0.0005530721,0.00008261113,0.00017296607,0.00012432119,0.00028686904,0.000011170047,0.0001607335,0.12936887,0.00040730552],"about_ca_topic_score_codex":0.00006292262,"about_ca_topic_score_gemma":0.00017514569,"teacher_disagreement_score":0.73522276,"about_ca_system_score_codex":0.00010498245,"about_ca_system_score_gemma":0.0003119575,"threshold_uncertainty_score":0.9999182},"labels":[],"label_agreement":null},{"id":"W3020981083","doi":"10.1093/cercor/bhaa090","title":"Integration of Eye-Centered and Landmark-Centered Codes in Frontal Eye Field Gaze Responses","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"Canadian Institutes of Health Research","keywords":"Gaze; Psychology; Saccade; Eye movement; Frontal eye fields; Landmark; Neuroscience; Visual field; Visual memory; Computer vision; Computer science; Cognition","score_opus":0.08038529215586573,"score_gpt":0.3333614610422867,"score_spread":0.25297616888642094,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3020981083","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99683106,0.000026692236,0.0010566221,0.001053678,0.00012400502,0.00014619927,0.00002991763,0.000045460274,0.00068634603],"genre_scores_gemma":[0.99718416,0.0000316306,0.0002106406,0.0022041795,0.000033506993,0.0000045674283,0.000008247015,0.000009898497,0.0003131615],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990675,0.00013455299,0.00023180133,0.0002844158,0.00013888499,0.00014283584],"domain_scores_gemma":[0.9996574,0.000070614195,0.00008013946,0.00008792774,0.000020056204,0.000083872284],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008080106,0.0001111832,0.00017734096,0.0000624109,0.00004931423,0.000047485344,0.00012264842,0.00006802777,0.0003411916],"category_scores_gemma":[0.0004262219,0.00009903814,0.000035196026,0.00014755028,0.000050711744,0.00016984274,0.00005653718,0.00014455097,0.000019484716],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00071847363,0.000052024145,0.008250221,0.000036998288,0.0000013680032,0.000007104925,0.0014146004,4.188804e-7,0.9838236,0.00024091385,0.00026351216,0.0051907925],"study_design_scores_gemma":[0.0027018227,0.0012743658,0.14130537,0.00023487234,0.00001387169,0.000008386851,0.0012245903,0.009483948,0.8419118,0.0006300777,0.00087173656,0.00033919554],"about_ca_topic_score_codex":0.000028112434,"about_ca_topic_score_gemma":0.00006069047,"teacher_disagreement_score":0.1419118,"about_ca_system_score_codex":0.000014458121,"about_ca_system_score_gemma":0.00002481582,"threshold_uncertainty_score":0.40386578},"labels":[],"label_agreement":null},{"id":"W3022226312","doi":"10.1093/cercor/bhaa106","title":"Contribution of the Entopeduncular Nucleus and the Globus Pallidus to the Control of Locomotion and Visually Guided Gait Modifications in the Cat","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurological disorders and treatments","field":"Medicine","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Canadian Institutes of Health Research","keywords":"Forelimb; Neuroscience; Globus pallidus; Context (archaeology); Population; Gait; Biology; Basal ganglia; Psychology; Central nervous system; Medicine; Physiology","score_opus":0.022644058818145435,"score_gpt":0.2686263711757343,"score_spread":0.24598231235758886,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3022226312","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9312569,0.00033423235,0.00041499248,0.06627633,0.000022369917,0.0014594292,0.000024677744,0.0000059596455,0.0002051058],"genre_scores_gemma":[0.9932963,0.00006556805,0.000009508752,0.0065453625,0.000018026587,0.000041066254,0.0000069813536,0.0000043323585,0.000012852992],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9991566,0.00019890803,0.00022076737,0.00014493575,0.00017318683,0.000105626335],"domain_scores_gemma":[0.99943626,0.0001266497,0.00009555787,0.00022041035,0.00007924242,0.000041901036],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018996811,0.0000858648,0.00019828448,0.000010507475,0.00008803642,0.000014347611,0.00013511481,0.000037286332,0.000012612821],"category_scores_gemma":[0.0002894117,0.00003185866,0.000061080274,0.00017603928,0.00019188556,0.000019920708,0.00004431742,0.00008887352,0.000002155597],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0066057974,0.0024636514,0.72309226,0.00024721754,0.000949057,0.00005037086,0.015552096,0.0005566578,0.045842342,0.17155604,0.007867028,0.025217492],"study_design_scores_gemma":[0.006695677,0.00051701814,0.98411685,0.000022690045,0.00025472834,0.000009174653,0.00032987946,0.0047357925,0.00028426462,0.002368435,0.0006143602,0.000051142346],"about_ca_topic_score_codex":0.00012573868,"about_ca_topic_score_gemma":0.00004794982,"teacher_disagreement_score":0.2610246,"about_ca_system_score_codex":0.000009450128,"about_ca_system_score_gemma":0.000019467489,"threshold_uncertainty_score":0.12991585},"labels":[],"label_agreement":null},{"id":"W3022598019","doi":"10.1093/cercor/bhaa109","title":"Alterations in Local Connectivity and Their Developmental Trajectories in Autism Spectrum Disorder: Does Being Female Matter?","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; Fraser Health; Simon Fraser University","funders":"Canadian Institutes of Health Research","keywords":"Autism spectrum disorder; Autism; Resting state fMRI; Default mode network; Functional connectivity; Psychology; Neuroimaging; Neuroscience; Audiology; Developmental psychology; Medicine","score_opus":0.019637844616440317,"score_gpt":0.2291350877961334,"score_spread":0.2094972431796931,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3022598019","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97914195,0.000034639925,0.00092614925,0.01830801,0.00021232916,0.00028311647,0.000028193219,0.000066334745,0.000999262],"genre_scores_gemma":[0.9968979,0.000010447251,0.000059158418,0.002868669,0.000044234257,0.000039724357,0.0000032819619,0.000017808828,0.00005879899],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985765,0.00012998936,0.00023325444,0.00061772385,0.00013212861,0.00031037003],"domain_scores_gemma":[0.998627,0.0011583598,0.000044966113,0.00008860914,0.0000056595422,0.000075421],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009495072,0.00020841473,0.00026550732,0.00009657342,0.00022153041,0.00007024417,0.000116072624,0.00005012351,0.000115732364],"category_scores_gemma":[0.0006212533,0.00016984959,0.000035506055,0.0004030781,0.00022180213,0.00038689427,0.00017872393,0.0002477619,0.000033214994],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009580706,0.00011169242,0.95829,0.000047407237,0.000009458737,0.000035534078,0.008140447,0.00007310754,0.022631112,0.0086098425,0.00011031983,0.0018453043],"study_design_scores_gemma":[0.0007174273,0.00008447703,0.9665386,0.00002892727,0.0000025328673,0.000022932174,0.0024169264,0.0021824446,0.020816276,0.006557575,0.00033974863,0.00029212006],"about_ca_topic_score_codex":0.00028891495,"about_ca_topic_score_gemma":0.0059454446,"teacher_disagreement_score":0.017755913,"about_ca_system_score_codex":0.00011896396,"about_ca_system_score_gemma":0.000061807616,"threshold_uncertainty_score":0.69262654},"labels":[],"label_agreement":null},{"id":"W3023454905","doi":"10.1093/cercor/bhaa097","title":"Influence of Processing Pipeline on Cortical Thickness Measurement","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Mental Health; Deutsche Forschungsgemeinschaft; European Commission","keywords":"Pipeline (software); Context (archaeology); Pipeline transport; Geology; Computer science; Environmental science; Paleontology","score_opus":0.07619511698678451,"score_gpt":0.2761258681081453,"score_spread":0.19993075112136083,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3023454905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9878164,0.000031479627,0.000726449,0.008905756,0.00009043174,0.00020841135,0.000007870255,0.000109230015,0.002103973],"genre_scores_gemma":[0.9868975,0.000002877772,0.000049256905,0.012891085,0.00009971275,0.000011354724,3.999576e-7,0.000014511088,0.00003326971],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981671,0.00009856232,0.00026071494,0.00047223223,0.000788615,0.00021278318],"domain_scores_gemma":[0.99878323,0.0006302686,0.00011171745,0.00015807686,0.00020903065,0.00010765745],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00018888604,0.00014698572,0.00022060878,0.0000349072,0.00016022907,0.000020769903,0.00020718407,0.00004259613,0.000030031644],"category_scores_gemma":[0.014892585,0.00012661319,0.000053904914,0.00035066874,0.0001982396,0.00015394497,0.0001059787,0.00025663569,0.00007519151],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00044323044,0.0002010491,0.005899017,0.00020508487,0.000009665629,0.000020220701,0.00066447584,0.002458022,0.9784644,0.0038777622,0.0026162716,0.005140781],"study_design_scores_gemma":[0.0017730602,0.0014014262,0.32951275,0.00030696008,0.0000613729,0.000028308888,0.00037269737,0.01742882,0.64338964,0.0013447178,0.0036767516,0.00070352],"about_ca_topic_score_codex":0.0000058729415,"about_ca_topic_score_gemma":0.0000059221143,"teacher_disagreement_score":0.33507478,"about_ca_system_score_codex":0.00004749666,"about_ca_system_score_gemma":0.00010413664,"threshold_uncertainty_score":0.9934054},"labels":[],"label_agreement":null},{"id":"W3028868367","doi":"10.1093/cercor/bhaa085","title":"Dynamic Reconfiguration, Fragmentation, and Integration of Whole-Brain Modular Structure across Depths of Unconsciousness","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Queen's University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; European Commission","keywords":"Unconsciousness; Neuroscience; Functional magnetic resonance imaging; Consciousness; Nerve net; Psychology; Medicine; Anesthesia","score_opus":0.023636250246600182,"score_gpt":0.2770507385827813,"score_spread":0.2534144883361811,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3028868367","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98719233,0.000043716343,0.0032642279,0.008628981,0.0001705954,0.00027314966,0.00030528457,0.000037523736,0.00008420757],"genre_scores_gemma":[0.9975549,0.000004568118,0.00026699647,0.0019783103,0.000028048391,0.000008089205,0.000027674374,0.000014188648,0.00011725177],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99877363,0.00010656921,0.0003279003,0.00040905978,0.00024215967,0.00014069438],"domain_scores_gemma":[0.99868125,0.0007410756,0.00023034145,0.00015214518,0.00013749,0.00005767967],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009016201,0.00014598267,0.00024874433,0.000042038246,0.0001373323,0.00002724812,0.00012745027,0.000055488188,0.000053244657],"category_scores_gemma":[0.0029510197,0.00013628288,0.000041390413,0.00031270098,0.00026214126,0.00029501144,0.000063299805,0.00012649606,0.0000034798854],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007005036,0.000020572204,0.003828209,0.000065530585,0.000013309244,0.0000012674366,0.0024932874,0.00027031722,0.98733205,0.00096307724,0.00061628676,0.0043260194],"study_design_scores_gemma":[0.001598105,0.00079672283,0.17211145,0.00005552975,0.000028471457,0.000019440136,0.0037050499,0.023003453,0.79102385,0.006759396,0.0005482989,0.00035023922],"about_ca_topic_score_codex":0.000028764094,"about_ca_topic_score_gemma":0.00037617914,"teacher_disagreement_score":0.19630824,"about_ca_system_score_codex":0.000028474422,"about_ca_system_score_gemma":0.000043042408,"threshold_uncertainty_score":0.5557454},"labels":[],"label_agreement":null},{"id":"W3030072236","doi":"10.1093/cercor/bhaa132","title":"Differential Generation of Saccade, Fixation, and Image-Onset Event-Related Potentials in the Human Mesial Temporal Lobe","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Toronto Western Hospital; University of Toronto","funders":"National Institute of Neurological Disorders and Stroke; National Institutes of Health; Fondation Brain Canada","keywords":"Psychology; Eye movement; Neuroscience; Fixation (population genetics); Electrophysiology; Saccade; Temporal lobe; Electroencephalography; Audiology; Epilepsy; Medicine","score_opus":0.03630906306224169,"score_gpt":0.2677227027126627,"score_spread":0.231413639650421,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3030072236","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99670565,0.000008596426,0.0006707531,0.0019471392,0.00019823476,0.00030893975,0.000030001682,0.000024830591,0.000105842206],"genre_scores_gemma":[0.9988177,0.0000070243304,0.000017885437,0.0008654016,0.000118807584,0.0000069331704,0.0000792896,0.00001103279,0.000075950986],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99871093,0.00022527715,0.00036011622,0.00031647788,0.00023917704,0.00014799685],"domain_scores_gemma":[0.999583,0.000042511867,0.00017375608,0.00012379409,0.000028064609,0.00004889551],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000096746306,0.00012332821,0.00015922089,0.00005228957,0.00014540566,0.000079253994,0.0001619884,0.00006661344,0.00018454558],"category_scores_gemma":[0.00013317981,0.00009145316,0.000056870063,0.00025697902,0.00009739135,0.00021294077,0.000052556898,0.00016855472,0.000008081135],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00002653068,0.000044882632,0.005434806,0.000013720706,0.0000032146997,0.0000072981893,0.00027641482,0.00001785357,0.9910338,0.0018484176,0.0008561667,0.00043692108],"study_design_scores_gemma":[0.003256939,0.00080060767,0.62410283,0.000032322405,0.00008083624,0.00006455602,0.000204202,0.11204377,0.25330594,0.005374882,0.00019162113,0.00054146803],"about_ca_topic_score_codex":0.000045998637,"about_ca_topic_score_gemma":0.000036847425,"teacher_disagreement_score":0.7377278,"about_ca_system_score_codex":0.000011084168,"about_ca_system_score_gemma":0.000018940746,"threshold_uncertainty_score":0.37293518},"labels":[],"label_agreement":null},{"id":"W3031112155","doi":"10.1093/cercor/bhaa141","title":"Disrupted Neural Synchrony Mediates the Relationship between White Matter Integrity and Cognitive Performance in Older Adults","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"William and Ella Owens Medical Research Foundation","keywords":"White matter; Cognition; Psychology; Effects of sleep deprivation on cognitive performance; Electroencephalography; Neuroscience; Occipital lobe; Working memory; Audiology; Elementary cognitive task; Cognitive psychology; Medicine; Magnetic resonance imaging","score_opus":0.045902217450868005,"score_gpt":0.2678837058338621,"score_spread":0.2219814883829941,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3031112155","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97441465,0.00006389471,0.00002705613,0.024365313,0.00011663231,0.00037595344,0.00004331285,0.000052661046,0.00054053817],"genre_scores_gemma":[0.99288297,0.0000052443074,0.0000070024025,0.0068253423,0.00014776186,0.000037366557,0.000009538071,0.000015360376,0.000069413116],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99866647,0.00018953971,0.00020703617,0.00047787224,0.00021760844,0.00024146037],"domain_scores_gemma":[0.9936738,0.0060208556,0.000075584365,0.000110427754,0.000039280974,0.000080021906],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012440456,0.00016913385,0.00018360862,0.000047385136,0.0002546714,0.000051715662,0.00015144746,0.000060912054,0.0001173938],"category_scores_gemma":[0.004798165,0.00012193232,0.00003618513,0.00033658493,0.00029023574,0.00035555463,0.00018091561,0.0006641596,0.00016539913],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007534499,0.0000134406155,0.9965611,0.00004937752,0.000004209271,0.0000038442436,0.0020078928,0.0000017902347,0.00003412897,0.00005641922,0.0004782021,0.00071421056],"study_design_scores_gemma":[0.0006334624,0.000092354516,0.99565184,0.000070033464,0.000016685328,0.00000677083,0.0005263538,0.0024722768,0.00025052513,0.00010961797,0.000019598121,0.0001504963],"about_ca_topic_score_codex":0.000018662493,"about_ca_topic_score_gemma":0.00005205853,"teacher_disagreement_score":0.018468333,"about_ca_system_score_codex":0.0000250781,"about_ca_system_score_gemma":0.000022807515,"threshold_uncertainty_score":0.5744198},"labels":[],"label_agreement":null},{"id":"W3032520155","doi":"10.1093/cercor/bhaa123","title":"Sex Differences in Variability of Brain Structure Across the Lifespan","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Birth, Development, and Health","field":"Medicine","cited_by":70,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health","funders":"National Center for Advancing Translational Sciences; National Institute of Mental Health; National Center for Research Resources; National Institute of Biomedical Imaging and Bioengineering; National Institute on Aging; National Institutes of Health","keywords":"Biology; Neuroscience; Psychology; Evolutionary biology; Developmental psychology","score_opus":0.030518052670584866,"score_gpt":0.29962196736607105,"score_spread":0.26910391469548617,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3032520155","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9841357,0.000034425175,0.000052017476,0.014564875,0.000107758926,0.00034033856,0.000057845737,0.000026805135,0.0006802388],"genre_scores_gemma":[0.9931942,0.00011340765,0.00020553415,0.0062577566,0.00015587478,0.000004122083,0.000019258374,0.000009778605,0.00004003609],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99882776,0.000110636094,0.0003250763,0.00025883174,0.0002126178,0.00026509914],"domain_scores_gemma":[0.99935544,0.00012398965,0.00009560719,0.00022682779,0.000043268665,0.00015487103],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028556556,0.0001226265,0.00037217097,0.000016307207,0.000066615634,0.000010897754,0.00015564825,0.00010768886,0.00036943407],"category_scores_gemma":[0.00027994224,0.00007535348,0.000043909036,0.00024196642,0.00013396722,0.000035801426,0.00006955729,0.00036421788,0.0000067566957],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009955075,0.000037814367,0.9812062,0.00024375533,0.00002167573,0.000004613278,0.0069296393,2.9266135e-7,0.0017178956,0.0065262564,0.0007410114,0.0024713431],"study_design_scores_gemma":[0.00079617486,0.00016031248,0.989628,0.000029736093,0.000008918832,0.0000050005196,0.00089682336,0.00015821378,0.0005871348,0.0074902894,0.0001613331,0.00007807216],"about_ca_topic_score_codex":0.00018071756,"about_ca_topic_score_gemma":0.0004104614,"teacher_disagreement_score":0.009058536,"about_ca_system_score_codex":0.00003453159,"about_ca_system_score_gemma":0.0002554748,"threshold_uncertainty_score":0.4045044},"labels":[],"label_agreement":null},{"id":"W3034081969","doi":"10.1093/cercor/bhaa129","title":"Neural Correlates of Evidence and Urgency During Human Perceptual Decision-Making in Dynamically Changing Conditions","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Western University; McGill University; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Perception; Cognitive psychology; Computer science; Psychology; Neural correlates of consciousness; Fusiform gyrus; Task (project management); Sensory system; Computational model; Artificial intelligence; Neuroscience; Functional magnetic resonance imaging; Cognition","score_opus":0.05816915232358752,"score_gpt":0.30604941859466017,"score_spread":0.24788026627107265,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3034081969","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9989676,0.000031740765,0.00015244386,0.000295728,0.00018494033,0.00020384847,0.0000143285315,0.000052899,0.00009649247],"genre_scores_gemma":[0.9994863,0.000019407493,0.00004687785,0.00034529853,0.00004335538,0.0000064338515,0.0000029876749,0.000016770242,0.000032516677],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99867857,0.00006212842,0.00033730347,0.0004362552,0.00021207577,0.00027366332],"domain_scores_gemma":[0.99926126,0.00037609323,0.000115367795,0.00012461504,0.000026984966,0.000095668904],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000722393,0.00014157436,0.0001998692,0.00015670224,0.00020944867,0.000041585354,0.00017222925,0.000055749373,0.00020049713],"category_scores_gemma":[0.00078192056,0.00012356654,0.000060361344,0.00048660813,0.00013096354,0.00036976914,0.00018482163,0.00023401348,0.000009811377],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000073245945,0.000039969764,0.08118261,0.00006711598,0.000002610299,0.000064213746,0.0012387328,0.00047395498,0.9116252,0.0029434264,0.000010774457,0.0022781477],"study_design_scores_gemma":[0.00039250051,0.00023487823,0.80146956,0.0003511051,0.000013244354,0.000055732446,0.00033921094,0.19344127,0.0017646394,0.0016844827,0.0000026280209,0.00025076367],"about_ca_topic_score_codex":0.0000071718414,"about_ca_topic_score_gemma":0.000021339729,"teacher_disagreement_score":0.90986055,"about_ca_system_score_codex":0.00002878647,"about_ca_system_score_gemma":0.000013989371,"threshold_uncertainty_score":0.50388974},"labels":[],"label_agreement":null},{"id":"W3036596508","doi":"10.1093/cercor/bhaa168","title":"Altered Resting-State Functional Connectivity Between Awake and Isoflurane Anesthetized Marmosets","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":61,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Isoflurane; Neuroscience; Functional connectivity; Wakefulness; Resting state fMRI; Marmoset; Anesthesia; Medicine; Psychology; Biology; Electroencephalography","score_opus":0.06806745939236973,"score_gpt":0.2594348582975377,"score_spread":0.19136739890516796,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3036596508","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9774186,0.000059733396,0.000547729,0.019354329,0.0003644447,0.0003867284,0.00010599092,0.00034875664,0.0014136959],"genre_scores_gemma":[0.99131364,0.000011902271,0.000098795645,0.0076226555,0.00045535932,0.000026105461,0.000014384055,0.00003972055,0.0004174194],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9974846,0.00026917073,0.00031354933,0.0010427019,0.00045633424,0.0004335951],"domain_scores_gemma":[0.9954512,0.0037830765,0.00015743409,0.00024335548,0.00007932949,0.00028561326],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002211255,0.00031505054,0.000432743,0.00007053848,0.00047092658,0.0000978453,0.00018558491,0.000076231016,0.00017822746],"category_scores_gemma":[0.006083934,0.00030495663,0.00009945287,0.00040559386,0.0003360664,0.00031996585,0.00025818148,0.00037641622,0.00017297953],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014381295,0.0002114703,0.597232,0.0002628139,0.00015605918,0.00024096339,0.001496538,0.00011939585,0.33276883,0.0030893509,0.03964812,0.023336334],"study_design_scores_gemma":[0.0024329014,0.00048634957,0.9617859,0.00002493778,0.000045714198,0.0001347473,0.00006422604,0.0013938117,0.01722566,0.003389517,0.012430511,0.0005857063],"about_ca_topic_score_codex":0.000039746534,"about_ca_topic_score_gemma":0.000018336017,"teacher_disagreement_score":0.3645539,"about_ca_system_score_codex":0.000046794656,"about_ca_system_score_gemma":0.00006674314,"threshold_uncertainty_score":0.9999403},"labels":[],"label_agreement":null},{"id":"W3037226757","doi":"10.1093/cercor/bhaa179","title":"Functional Connectivity within and beyond the Face Network Is Related to Reduced Discrimination of Degraded Faces in Young and Older Adults","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Canadian Institutes of Health Research; Canada Research Chairs; Deutsche Forschungsgemeinschaft","keywords":"Face (sociological concept); Functional connectivity; Psychology; Cognitive psychology; Developmental psychology; Neuroscience; Sociology","score_opus":0.03403780656552551,"score_gpt":0.25674405880541507,"score_spread":0.22270625223988955,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3037226757","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9941715,0.000027584028,0.00009815153,0.0047480194,0.00015644863,0.0003704973,0.000020190659,0.000025160256,0.00038247101],"genre_scores_gemma":[0.9984992,0.00002336047,0.000032002696,0.001292254,0.00002002022,0.0000113339975,0.000009207948,0.00000749133,0.000105112005],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991193,0.0001229537,0.00018080314,0.00030922858,0.00014886605,0.000118838514],"domain_scores_gemma":[0.9996612,0.00009736801,0.00007567195,0.00006563038,0.000026773829,0.00007335686],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000109106346,0.000095908035,0.000119075674,0.00003278047,0.00010355131,0.000032225507,0.000050637314,0.00005799793,0.00014906425],"category_scores_gemma":[0.00016748597,0.00007366346,0.000019941073,0.0002693764,0.000090596564,0.00017353364,0.00004339731,0.00015011051,0.000014384409],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012924372,0.0001970709,0.12790523,0.0002302027,0.000024244397,0.000005910385,0.13326962,0.00060366053,0.6955149,0.0031388788,0.0048014596,0.033016354],"study_design_scores_gemma":[0.0008063402,0.00013112114,0.96655536,0.000050308554,0.000011153284,0.000014018845,0.003490141,0.010437171,0.017820485,0.0005463745,0.000010181408,0.00012736228],"about_ca_topic_score_codex":0.00004267494,"about_ca_topic_score_gemma":0.00018318338,"teacher_disagreement_score":0.8386501,"about_ca_system_score_codex":0.000012333859,"about_ca_system_score_gemma":0.000014637445,"threshold_uncertainty_score":0.30039087},"labels":[],"label_agreement":null},{"id":"W3042486513","doi":"10.1093/cercor/bhaa158","title":"Partial Support for an Interaction Between a Polygenic Risk Score for Major Depressive Disorder and Prenatal Maternal Depressive Symptoms on Infant Right Amygdalar Volumes","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Maternal Mental Health During Pregnancy and Postpartum","field":"Medicine","cited_by":36,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Turun Yliopistosäätiö; Orionin Tutkimussäätiö; Signe ja Ane Gyllenbergin Säätiö; Sigrid Juséliuksen Säätiö; Emil Aaltosen Säätiö; Academy of Finland; Lastentautien Tutkimussäätiö; Jane ja Aatos Erkon Säätiö; Canadian Institutes of Health Research; Compute Canada; Yrjö Jahnssonin Säätiö; Natural Sciences and Engineering Research Council of Canada; Varsinais-Suomen Sairaanhoitopiiri; Fondation Brain Canada; Juho Vainion Säätiö; National Alliance for Research on Schizophrenia and Depression","keywords":"Offspring; Major depressive disorder; Cohort; Polygenic risk score; Psychology; Edinburgh Postnatal Depression Scale; Depression (economics); Cohort study; Psychiatry; Clinical psychology; Medicine; Pregnancy; Internal medicine; Depressive symptoms; Single-nucleotide polymorphism; Genetics; Biology; Genotype; Cognition","score_opus":0.019349497991183937,"score_gpt":0.2965824596187251,"score_spread":0.27723296162754113,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3042486513","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9942961,0.00024552998,0.0012547018,0.00037679423,0.00041999275,0.0021831247,0.0010704405,0.00009490099,0.000058448695],"genre_scores_gemma":[0.99720925,0.000031409527,0.00018612966,0.0005305143,0.0008192848,0.00039620028,0.0004892381,0.000057579276,0.00028038071],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9982016,0.000071189206,0.00045376123,0.0005861305,0.00021689928,0.00047043478],"domain_scores_gemma":[0.998768,0.00011490727,0.0003031006,0.00023141358,0.00007325047,0.00050936925],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000092398914,0.0002944091,0.0004488359,0.00006608164,0.00026687933,0.00006190806,0.0001344442,0.00014564293,0.00015229027],"category_scores_gemma":[0.00006847484,0.0002413602,0.00014144172,0.000050409784,0.000070952825,0.0003030364,0.000075182215,0.0002759711,0.000018888188],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.005092731,0.000107361375,0.9814779,0.002367585,0.00023586456,0.000025850177,0.0005282917,0.000004852932,0.00022366595,0.00009035527,0.00014147934,0.009704068],"study_design_scores_gemma":[0.008312335,0.007077446,0.9367373,0.0016141287,0.0006523033,0.00009459324,0.000058195263,0.0033236109,0.040099576,0.00021643312,0.0014049176,0.00040916004],"about_ca_topic_score_codex":0.00021992637,"about_ca_topic_score_gemma":0.000050138013,"teacher_disagreement_score":0.04474059,"about_ca_system_score_codex":0.000043302953,"about_ca_system_score_gemma":0.00006656274,"threshold_uncertainty_score":0.9842384},"labels":[],"label_agreement":null},{"id":"W3043827589","doi":"10.1093/cercor/bhaa192","title":"Age-Related Compensatory Reconfiguration of PFC Connections during Episodic Memory Retrieval","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital","funders":"National Institute of Mental Health; National Institute on Aging; National Institutes of Health","keywords":"Episodic memory; Control reconfiguration; Psychology; Cognitive psychology; Autobiographical memory; Neuroscience; Developmental psychology; Cognition; Computer science","score_opus":0.018784816870619465,"score_gpt":0.22089521975210177,"score_spread":0.2021104028814823,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3043827589","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99404234,0.00017207432,0.00075309444,0.000094139665,0.00050710834,0.00017864091,0.0000069734306,0.00050510356,0.0037405523],"genre_scores_gemma":[0.99949265,0.000014423198,0.00011824308,0.0000695423,0.00013189012,0.0000016362042,0.000018642831,0.000032647953,0.000120308265],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99904937,0.000036494206,0.00038606438,0.0002095259,0.00011354475,0.00020501822],"domain_scores_gemma":[0.9995473,0.000061020404,0.00008245162,0.00014881992,0.00003914753,0.00012123718],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000055006494,0.00015511409,0.00025197436,0.000055409608,0.00011360573,0.000012151597,0.00011358282,0.00008522308,0.00023929776],"category_scores_gemma":[0.00006954539,0.00017404577,0.00008752679,0.0002975415,0.00005895137,0.0001875829,0.000028168042,0.00031926093,0.000057527017],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006216374,0.000010878592,0.00019281189,0.00020773795,0.00005133383,0.000041915268,0.0006689418,0.031986803,0.9648345,0.00036236455,0.00014518532,0.0014353347],"study_design_scores_gemma":[0.0015439007,0.00018446603,0.027385345,0.000115823175,0.000056836172,0.00006280737,0.0004003824,0.047439247,0.9214677,0.0004445688,0.00034966134,0.00054926606],"about_ca_topic_score_codex":0.0000017036416,"about_ca_topic_score_gemma":0.0000024853923,"teacher_disagreement_score":0.043366835,"about_ca_system_score_codex":0.000041218726,"about_ca_system_score_gemma":0.000013167437,"threshold_uncertainty_score":0.709738},"labels":[],"label_agreement":null},{"id":"W3045086389","doi":"10.1093/cercor/bhaa186","title":"Distributed Motor Control of Limb Movements in Rat Motor and Somatosensory Cortex: The Sensorimotor Amalgam Revisited","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":67,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"National Institutes of Health; National Eye Institute; James S. McDonnell Foundation","keywords":"Forelimb; Somatosensory system; Hindlimb; Neuroscience; Motor cortex; Neocortex; Microstimulation; Motor control; Stimulation; Anatomy; Psychology; Biology","score_opus":0.01906919524119446,"score_gpt":0.22812042733089294,"score_spread":0.20905123208969847,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3045086389","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99659383,0.000062310486,0.00021298409,0.0012747839,0.0002598347,0.0009598151,0.00045134572,0.00006871036,0.000116378396],"genre_scores_gemma":[0.9956501,0.000053735766,0.000012969794,0.0038863888,0.00009903325,0.000020944677,0.000022756058,0.000025679989,0.00022835938],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981313,0.0002109983,0.00047425568,0.00053389376,0.00031840135,0.00033117874],"domain_scores_gemma":[0.99894947,0.0003015994,0.00024432281,0.00028452926,0.00005749669,0.0001625794],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000112539645,0.00023558701,0.00037421004,0.00006318157,0.000121275836,0.000063957705,0.0002520499,0.00008634012,0.000059662292],"category_scores_gemma":[0.0005829971,0.0001741168,0.00010702267,0.00038562278,0.00017406911,0.00016267429,0.0001052832,0.00026872486,0.000021032445],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00045118242,0.000061727675,0.014905795,0.00006148293,0.000010427337,0.000032193995,0.000070461676,0.000009976649,0.9830161,0.00062981946,0.00021517639,0.00053569215],"study_design_scores_gemma":[0.0059397533,0.0018022328,0.7256023,0.00010291024,0.000061073326,0.0000389095,0.00024885722,0.20074986,0.06144482,0.00049968605,0.0028350435,0.0006745089],"about_ca_topic_score_codex":0.00002320281,"about_ca_topic_score_gemma":0.0000043955774,"teacher_disagreement_score":0.92157125,"about_ca_system_score_codex":0.00003621292,"about_ca_system_score_gemma":0.000027385555,"threshold_uncertainty_score":0.7100277},"labels":[],"label_agreement":null},{"id":"W3080178531","doi":"10.1093/cercor/bhaa229","title":"Normative Analysis of Individual Brain Differences Based on a Population MRI-Based Atlas of Cynomolgus Macaques","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Macaque; Magnetic resonance imaging; Brain size; White matter; Temporal lobe; Neuroimaging; Rhesus macaque; Primate; Brain morphometry; Neuroscience; Brain mapping; Population; Psychology; Biology; Medicine; Radiology; Epilepsy","score_opus":0.06908955090232012,"score_gpt":0.33725810792169447,"score_spread":0.26816855701937437,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3080178531","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.95860493,0.000010869738,0.03570064,0.0044943066,0.000008746336,0.00037621433,0.0002176487,0.000109810724,0.00047685308],"genre_scores_gemma":[0.99058944,0.0000017129834,0.006864343,0.0020436416,0.000018625862,0.000020240628,0.0004389281,0.00001132836,0.0000117547515],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99900854,0.000043693242,0.000326489,0.00022897404,0.00028403883,0.00010824461],"domain_scores_gemma":[0.9991935,0.00014451615,0.00026226262,0.00023470503,0.00007887977,0.000086132466],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000053253963,0.00012329033,0.00040588217,0.0002166634,0.000032864187,0.0000063316566,0.00012567671,0.00004578017,0.00011650613],"category_scores_gemma":[0.0000885041,0.0001044197,0.00016574666,0.0008271442,0.00007379723,0.000043084376,0.000024228631,0.0001280723,0.000001899941],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00043778037,0.00039236803,0.9786523,0.00020544455,0.00033011907,0.0000065639124,0.0004516371,0.0014645793,0.00893654,0.0019056405,0.0011361791,0.0060808533],"study_design_scores_gemma":[0.0005236207,0.0005647223,0.86584085,0.000055673216,0.00056145684,3.458079e-7,0.000038631835,0.12209967,0.009921798,0.00023725034,0.000058028534,0.00009797333],"about_ca_topic_score_codex":0.000052342362,"about_ca_topic_score_gemma":0.0000069753282,"teacher_disagreement_score":0.12063509,"about_ca_system_score_codex":0.000019096356,"about_ca_system_score_gemma":0.00003528501,"threshold_uncertainty_score":0.42581117},"labels":[],"label_agreement":null},{"id":"W3080671127","doi":"10.1093/cercor/bhaa220","title":"Investigating Sexual Dimorphism of Human White Matter in a Harmonized, Multisite Diffusion Magnetic Resonance Imaging Study","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health","funders":"National Center for Advancing Translational Sciences; National Institute of Mental Health; National Research Foundation of Korea; National Institutes of Health; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung","keywords":"Sexual dimorphism; Fractional anisotropy; White matter; Diffusion MRI; Sex characteristics; Neuroimaging; Magnetic resonance imaging; Psychology; Neuroscience; Brain Structure and Function; Biology; Medicine; Endocrinology","score_opus":0.05893061070329219,"score_gpt":0.3263750090167659,"score_spread":0.2674443983134737,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3080671127","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99524915,0.00021705015,0.0003747154,0.0028659913,0.000013126329,0.00084650423,0.000009080223,0.00012892504,0.00029544317],"genre_scores_gemma":[0.9918457,0.0000031434208,0.005528749,0.0022171205,0.000052324798,0.00006051565,0.0000151706945,0.00003870276,0.00023855078],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9987126,0.000039721526,0.00040626436,0.0004379529,0.0001904336,0.00021301862],"domain_scores_gemma":[0.999352,0.000021731214,0.00012200216,0.0003290036,0.000046907073,0.00012835169],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006550917,0.00016307076,0.00030367062,0.00007744892,0.00007110672,0.00001331268,0.00014068594,0.000026941876,0.00013079542],"category_scores_gemma":[0.00003996281,0.00015809237,0.000037410595,0.00034093787,0.000102049926,0.000086679705,0.00017736948,0.0003043766,0.00001828154],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000017119039,0.00014670608,0.8932807,0.000040223025,0.000001260775,0.000029560351,0.0009085036,8.930602e-7,0.10096294,0.000023393624,0.00041839646,0.004170334],"study_design_scores_gemma":[0.0017162126,0.0003068693,0.99265486,0.00009843681,0.000026574291,0.000014204781,0.00039639085,0.0034081286,0.0008413746,0.00016520728,0.00022810351,0.00014366632],"about_ca_topic_score_codex":0.00011533095,"about_ca_topic_score_gemma":0.000013988139,"teacher_disagreement_score":0.10012156,"about_ca_system_score_codex":0.000027156051,"about_ca_system_score_gemma":0.000014694857,"threshold_uncertainty_score":0.644682},"labels":[],"label_agreement":null},{"id":"W3080732533","doi":"10.1093/cercor/bhaa205","title":"The Small and Efficient Language Network of Polyglots and Hyper-polyglots","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Carleton University","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute on Deafness and Other Communication Disorders; National Institutes of Health","keywords":"Default mode network; Cognition; Computer science; Psychology; Process (computing); Cognitive psychology; Neuroscience","score_opus":0.024025195895379246,"score_gpt":0.2379540428207483,"score_spread":0.21392884692536906,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3080732533","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99575853,0.0017902977,0.0000090974645,0.0013614631,0.00016762038,0.00016745657,0.000011847617,0.00005103664,0.0006826737],"genre_scores_gemma":[0.99630374,0.0000891801,0.000049124847,0.003201179,0.00016599726,0.0000022059774,0.0000012323411,0.000012618016,0.00017474608],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99897397,0.00010394297,0.00017980894,0.00034531788,0.00009216246,0.00030480418],"domain_scores_gemma":[0.9993107,0.00030386058,0.000085184096,0.00017249525,0.000014188472,0.00011359595],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011269632,0.00012721296,0.00016829478,0.00001133654,0.00018915857,0.00003316582,0.00019503573,0.000052779815,0.00001199933],"category_scores_gemma":[0.00030348563,0.00008306354,0.000037072114,0.00014409477,0.00034362808,0.000022900338,0.00019207889,0.00016312004,0.000008351363],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020333022,0.000048028065,0.0083194915,0.000059822716,0.000013599134,0.0002894341,0.0046558,0.000022019714,0.94983363,0.0023175897,0.0006282698,0.033608973],"study_design_scores_gemma":[0.007503902,0.004129041,0.17172961,0.00024256474,0.00032679905,0.0032957406,0.008343253,0.010797667,0.7661709,0.0022159296,0.022626715,0.0026178816],"about_ca_topic_score_codex":0.000029037199,"about_ca_topic_score_gemma":0.000021175736,"teacher_disagreement_score":0.18366274,"about_ca_system_score_codex":0.0000036943159,"about_ca_system_score_gemma":0.000022344442,"threshold_uncertainty_score":0.3387233},"labels":[],"label_agreement":null},{"id":"W3083100064","doi":"10.1093/cercor/bhaa225","title":"The Claustrum is Involved in Cognitive Processes Related to the Classical Conditioning of Eyelid Responses in Behaving Rabbits","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"Max-Planck-Gesellschaft; Fritz Thyssen Stiftung","keywords":"Claustrum; Eyelid; Cognition; Neuroscience; Psychology; Classical conditioning; Cognitive psychology; Conditioning; Cognitive science; Medicine; Mathematics; Ophthalmology","score_opus":0.10259879474836024,"score_gpt":0.3345443190283456,"score_spread":0.23194552427998533,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3083100064","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.989615,0.000036023368,0.000012808611,0.009331655,0.00013205734,0.00052982866,0.00003551098,0.000034247725,0.0002728555],"genre_scores_gemma":[0.9954757,0.000018707637,0.000007564883,0.0040486716,0.00002399024,0.000047510614,0.0000027572303,0.000014358054,0.00036070868],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982417,0.0003844085,0.00040034205,0.00040464665,0.00026837905,0.0003004894],"domain_scores_gemma":[0.99815893,0.0014089501,0.00013353577,0.00014750398,0.00005566136,0.000095443036],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002575741,0.00014271254,0.00019434365,0.00006564691,0.00022191007,0.000054258635,0.00035847825,0.000077501885,0.000107734355],"category_scores_gemma":[0.004590941,0.00009233593,0.00004020198,0.0010543426,0.00016582567,0.00017840088,0.0001439803,0.00045041327,0.000043726086],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016752222,0.00010898284,0.015252523,0.00007617462,0.0000067699543,0.00014626341,0.008987446,0.000021390246,0.9677114,0.0024764654,0.00076067226,0.0027766812],"study_design_scores_gemma":[0.0006196509,0.00035862377,0.024429753,0.00018912421,0.0000101642445,0.000008800663,0.0022046287,0.0005195307,0.97031826,0.0010682214,0.00012706312,0.00014615696],"about_ca_topic_score_codex":0.0000069379284,"about_ca_topic_score_gemma":0.00018280285,"teacher_disagreement_score":0.009177229,"about_ca_system_score_codex":0.000021172349,"about_ca_system_score_gemma":0.000108768734,"threshold_uncertainty_score":0.5496117},"labels":[],"label_agreement":null},{"id":"W3084108329","doi":"10.1093/cercor/bhaa208","title":"Cognitive Deficits and Clinical Symptoms with Hippocampal Subfields in First-Episode and Never-Treated Patients with Schizophrenia","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"National Key Research and Development Program of China; Wu Jieping Medical Foundation; National Natural Science Foundation of China","keywords":"Hippocampal formation; Subiculum; Schizophrenia (object-oriented programming); Cognition; Psychology; Verbal learning; Hippocampus; Verbal memory; Audiology; Granule cell; Boston Naming Test; Neuroscience; Internal medicine; Psychiatry; Medicine; Neuropsychology; Dentate gyrus","score_opus":0.024487977383390532,"score_gpt":0.2489089554780993,"score_spread":0.22442097809470876,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3084108329","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973247,0.000042989876,0.000041602456,0.0016497615,0.000056260196,0.00046968798,0.000039586655,0.0000713866,0.00030401495],"genre_scores_gemma":[0.99582136,0.000021257525,0.000053090913,0.0039833467,0.000047519356,0.000020696572,0.0000067123706,0.000023888577,0.000022102058],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99833673,0.00011983628,0.00022946211,0.00077982846,0.0002579268,0.00027621444],"domain_scores_gemma":[0.99725926,0.0022875092,0.000095049174,0.000104672006,0.00007650888,0.00017702664],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006795594,0.00023697596,0.00033021878,0.000056272977,0.00017409449,0.0000532643,0.00008450089,0.000091589936,0.00002063632],"category_scores_gemma":[0.0019006125,0.00017780502,0.000026117563,0.0003600612,0.0003897931,0.00032018864,0.00013652687,0.0003416609,0.000014247117],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0023293507,0.00010497812,0.99470574,0.000021414991,0.000027680942,0.000031527685,0.00015458587,0.0000029873838,0.000019614768,0.0001477228,0.00012275878,0.002331667],"study_design_scores_gemma":[0.005177194,0.0021526292,0.9913361,0.00008007261,0.000043604858,0.000010196509,0.00007730458,0.0005236072,0.00020616829,0.000058306083,0.00007109936,0.00026369013],"about_ca_topic_score_codex":0.00008427351,"about_ca_topic_score_gemma":0.00082582637,"teacher_disagreement_score":0.0033695835,"about_ca_system_score_codex":0.000019730858,"about_ca_system_score_gemma":0.000028852339,"threshold_uncertainty_score":0.72506785},"labels":[],"label_agreement":null},{"id":"W3084373674","doi":"10.1093/cercor/bhaa235","title":"Ultrahigh-resolution MRI Reveals Extensive Cortical Demyelination in a Nonhuman Primate Model of Multiple Sclerosis","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multiple Sclerosis Research Studies","field":"Medicine","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institutes of Health; Canadian Child Health Clinician Scientist Program; Multiple Sclerosis Society; Dr. Miriam and Sheldon G. Adelson Medical Research Foundation; National Multiple Sclerosis Society","keywords":"Marmoset; Multiple sclerosis; Immunostaining; Pathology; Experimental autoimmune encephalomyelitis; Magnetic resonance imaging; Myelin; Callithrix; Medicine; Neuroscience; Biology; Central nervous system; Immunohistochemistry; Radiology; Immunology","score_opus":0.10797215333982155,"score_gpt":0.3171645165312882,"score_spread":0.20919236319146664,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3084373674","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99094236,0.00017365832,0.0040915203,0.0029351981,0.00004383313,0.0011048667,0.00006603184,0.0000864712,0.00055606826],"genre_scores_gemma":[0.99431914,0.00030885742,0.0044152564,0.0006228395,0.00010618406,0.00006239164,0.000060460647,0.000033781867,0.00007106283],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9975823,0.00011906331,0.0006797115,0.00050641666,0.000634815,0.0004776565],"domain_scores_gemma":[0.9985927,0.00020163324,0.00016885386,0.00028026235,0.00046302378,0.00029356952],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002929265,0.00022334709,0.00062640186,0.0001599797,0.00010204806,0.00001557753,0.00014913558,0.00013422483,0.000092539114],"category_scores_gemma":[0.0021499433,0.00020280015,0.00014776226,0.0004147242,0.00022993059,0.00017022896,0.00015017834,0.0004220545,0.000043729033],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010646357,0.00033975038,0.11043768,0.00046053124,0.00009429668,0.00001180038,0.0019617146,0.0018474628,0.87853307,0.00039547685,0.0018626928,0.0029909243],"study_design_scores_gemma":[0.0026866829,0.00029604408,0.60072917,0.00022433032,0.00004364912,0.0000016429827,0.00020129354,0.3866561,0.008940761,0.00006627786,0.000014615286,0.00013943523],"about_ca_topic_score_codex":0.000095768344,"about_ca_topic_score_gemma":0.00007796441,"teacher_disagreement_score":0.86959225,"about_ca_system_score_codex":0.00016586379,"about_ca_system_score_gemma":0.00011010447,"threshold_uncertainty_score":0.826995},"labels":[],"label_agreement":null},{"id":"W3087330345","doi":"10.1093/cercor/bhaa250","title":"Superior Parietal Lobule: A Role in Relative Localization of Multiple Different Elements","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spatial Neglect and Hemispheric Dysfunction","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Centre National de la Recherche Scientifique; Fondation de France; Agence Nationale de la Recherche","keywords":"Inferior parietal lobule; Visual search; Object (grammar); Superior parietal lobule; Visual processing; Separable space; Parietal lobe; Eccentricity (behavior); Neuroscience; Psychology; Artificial intelligence; Computer science; Perception; Mathematics; Cognition","score_opus":0.022526568747806237,"score_gpt":0.2365362092483197,"score_spread":0.21400964050051346,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3087330345","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939646,0.0000195032,0.0045892405,0.00010998145,0.00012658817,0.00026323833,0.000010430176,0.000043822674,0.0008725892],"genre_scores_gemma":[0.9993527,0.000008873381,0.000049776976,0.00042747415,0.00004601041,0.000008512664,0.000014538673,0.000014087527,0.00007801791],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9989662,0.000059003585,0.00029574416,0.00028893806,0.00021318856,0.00017693579],"domain_scores_gemma":[0.99964696,0.00005283073,0.00010118632,0.00009607013,0.000023584915,0.00007935963],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00002199659,0.000118104705,0.00018266242,0.000024782086,0.000048104943,0.000015777956,0.000108484775,0.00005691395,0.000426746],"category_scores_gemma":[0.00034668567,0.00010700983,0.00004847096,0.00032610697,0.00005355671,0.00017776426,0.00005897087,0.000119482924,0.000028511118],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002841488,0.00014872264,0.43564904,0.00003221386,0.000005638181,0.0000053839244,0.0015849504,0.00019230321,0.5582,0.0003483817,0.00016923346,0.0033799845],"study_design_scores_gemma":[0.0026484178,0.0006350457,0.1508895,0.000044057106,0.00002356618,0.000002190156,0.00034639853,0.33496705,0.5084483,0.0005632462,0.0011325502,0.00029970604],"about_ca_topic_score_codex":0.000071757706,"about_ca_topic_score_gemma":0.00006678928,"teacher_disagreement_score":0.33477473,"about_ca_system_score_codex":0.000039087183,"about_ca_system_score_gemma":0.000024392577,"threshold_uncertainty_score":0.46725693},"labels":[],"label_agreement":null},{"id":"W3089848503","doi":"10.1093/cercor/bhaa228","title":"Bidirectional Interaction of Hippocampal Ripples and Cortical Slow Waves Leads to Coordinated Spiking Activity During NREM Sleep","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and Wakefulness Research","field":"Neuroscience","cited_by":46,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"SBE Office of Multidisciplinary Activities; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; Defense Advanced Research Projects Agency; National Institutes of Health; CMC Microsystems","keywords":"Non-rapid eye movement sleep; Neuroscience; Hippocampal formation; Sleep (system call); Sleep spindle; Psychology; Physics; Electroencephalography; Computer science","score_opus":0.05060531692649359,"score_gpt":0.3018662103777576,"score_spread":0.251260893451264,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3089848503","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973346,0.000010091146,0.00045740526,0.0008716671,0.00024745188,0.00020760355,0.0000161767,0.00008850806,0.00076648936],"genre_scores_gemma":[0.99951506,0.000007884053,0.0000478173,0.00017456092,0.0001403038,0.000013043262,0.0000020640223,0.000019571184,0.00007971634],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984666,0.00015096663,0.00021053615,0.0004895277,0.00036456733,0.00031778766],"domain_scores_gemma":[0.9992398,0.0002266011,0.00007122229,0.00013056504,0.0000630841,0.00026871957],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009192545,0.00015214433,0.00023276705,0.00012196967,0.0002141872,0.00007058494,0.00015962087,0.00006903029,0.00019837414],"category_scores_gemma":[0.000738021,0.00014517158,0.00006201321,0.0005016054,0.0001491395,0.00030296075,0.00019436813,0.0003597539,0.00004046535],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00055315375,0.000067529625,0.022521613,0.00005236001,0.000011004203,0.000021208314,0.0002624274,0.000042647087,0.9617332,0.00023428368,0.00005571442,0.014444859],"study_design_scores_gemma":[0.00044606478,0.00020912226,0.21713366,0.000027595455,0.000010995439,0.00003283307,0.00009067708,0.007773767,0.7739053,0.000041173564,0.00017017343,0.00015868786],"about_ca_topic_score_codex":0.000041085448,"about_ca_topic_score_gemma":0.000014671127,"teacher_disagreement_score":0.19461204,"about_ca_system_score_codex":0.000052081552,"about_ca_system_score_gemma":0.000030454961,"threshold_uncertainty_score":0.59199256},"labels":[],"label_agreement":null},{"id":"W3093078089","doi":"10.1093/cercor/bhaa310","title":"Reversal of Age-Related Neuronal Atrophy by α5-GABAA Receptor Positive Allosteric Modulation","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":43,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health","funders":"National Institute of Neurological Disorders and Stroke; National Institute on Drug Abuse; National Heart, Lung, and Blood Institute; Campbell Family Mental Health Research Institute; National Institutes of Health; National Science Foundation","keywords":"GABAA receptor; Neuroscience; Hippocampus; Neurotrophic factors; Working memory; Dendritic spine; Prefrontal cortex; Psychology; Atrophy; Excitatory postsynaptic potential; Medicine; Receptor; Cognition; Internal medicine; Hippocampal formation; Inhibitory postsynaptic potential","score_opus":0.036745663298724265,"score_gpt":0.28890244702032847,"score_spread":0.2521567837216042,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3093078089","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9953612,0.0000133515905,0.000036260477,0.0027086071,0.0004712,0.00040014935,0.000118232965,0.000092189744,0.00079880044],"genre_scores_gemma":[0.994049,0.00004049484,0.00001979126,0.0049417648,0.00006995613,0.000007926562,0.000011884283,0.00003244886,0.0008267442],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9974629,0.00039985703,0.00036583075,0.0007834325,0.00054772676,0.00044023953],"domain_scores_gemma":[0.9991211,0.00018283824,0.00017319286,0.00019004333,0.00005674263,0.00027604084],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000787891,0.00020686611,0.00026569684,0.00008590747,0.00017415975,0.000043360487,0.0005211085,0.00008476953,0.00056212215],"category_scores_gemma":[0.00033237663,0.00020061892,0.00012095612,0.0008542918,0.0005284633,0.0003849858,0.00023727497,0.00046181443,0.00030588923],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000263296,0.000075514814,0.00062690483,0.000013858053,0.000004332639,0.00008836461,0.00015235948,0.000023766766,0.9924529,0.00011895275,0.005502748,0.00067696266],"study_design_scores_gemma":[0.0010538857,0.0013824805,0.015093883,0.00000926028,0.000017983619,0.000024667546,0.000014136283,0.0044680308,0.97633696,0.00006224008,0.0012873218,0.0002491442],"about_ca_topic_score_codex":0.000008004423,"about_ca_topic_score_gemma":2.322858e-7,"teacher_disagreement_score":0.016115973,"about_ca_system_score_codex":0.000026814407,"about_ca_system_score_gemma":0.00006986369,"threshold_uncertainty_score":0.8181002},"labels":[],"label_agreement":null},{"id":"W3093238017","doi":"10.1093/cercor/bhaa262","title":"Top–Down Attentional Modulation in Human Frontal Cortex: Differential Engagement during External and Internal Attention","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Natural Sciences and Engineering Research Council of Canada; Norges Forskningsråd; Universitetet i Oslo; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; James S. McDonnell Foundation","keywords":"Psychology; Neuroscience; Electrophysiology; Frontal cortex; Attentional control; Cognitive psychology; Frontal lobe; Cortex (anatomy); Electroencephalography; Audiology; Cognition; Medicine","score_opus":0.0868811378071079,"score_gpt":0.3295025121659906,"score_spread":0.24262137435888267,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3093238017","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983116,0.000016213835,0.00016048427,0.000519671,0.0004425205,0.00023186473,0.000015113155,0.00006158241,0.00024094175],"genre_scores_gemma":[0.99886733,0.000008389746,0.00002419473,0.00031691347,0.00022750844,0.000015915019,0.000011136365,0.000013234007,0.0005153719],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984507,0.00010413754,0.00032475832,0.00060007547,0.00025518396,0.00026512073],"domain_scores_gemma":[0.9996688,0.000012705305,0.000107040534,0.00009275916,0.000016123935,0.00010258034],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000044324926,0.00018765556,0.00019765462,0.00007477534,0.00025618557,0.00006586966,0.00015363185,0.000055081713,0.0004010521],"category_scores_gemma":[0.000019594125,0.00017076533,0.00008081537,0.00010087993,0.00013044929,0.0002634781,0.00022260175,0.00031640375,0.000033259064],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000658852,0.00007603217,0.25207046,0.000012021428,0.000003586501,0.000048003774,0.00011250749,0.0000016121495,0.7463001,0.0001402039,0.000043161002,0.0011264505],"study_design_scores_gemma":[0.0014021824,0.0001618879,0.97912073,0.00003082287,0.000015302378,0.0000286382,0.000059562604,0.0005091347,0.01823106,0.00024738815,0.000014334371,0.00017897987],"about_ca_topic_score_codex":0.000040801657,"about_ca_topic_score_gemma":0.00003442983,"teacher_disagreement_score":0.728069,"about_ca_system_score_codex":0.000041397343,"about_ca_system_score_gemma":0.0000044243825,"threshold_uncertainty_score":0.69636077},"labels":[],"label_agreement":null},{"id":"W3093376247","doi":"10.1093/cercor/bhaa332","title":"Poor Self-Reported Sleep is Related to Regional Cortical Thinning in Aging but not Memory Decline—Results From the Lifebrain Consortium","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and related disorders","field":"Psychology","cited_by":44,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"H2020 European Research Council; National Institute on Aging; Medical Research Council; Canadian Institutes of Health Research; National Institutes of Health; H. Lundbeck A/S; Servier; Agencia Estatal de Investigación; Universitetet i Oslo; Ministerio de Economía y Competitividad; Northern California Institute for Research and Education; Bundesministerium für Bildung und Forschung; University of Southern California; Wellcome Trust; Alzheimer's Society; California Walnut Commission; Pfizer; Novartis Pharmaceuticals Corporation; Meso Scale Diagnostics; Norges Forskningsråd; Foundation for the National Institutes of Health","keywords":"Pittsburgh Sleep Quality Index; Sleep (system call); Psychology; Cognitive decline; Neuroscience; Effects of sleep deprivation on cognitive performance; Biomarker; Cognition; Cerebral cortex; Audiology; Sleep quality; Medicine; Disease; Pathology; Biology; Dementia","score_opus":0.03033212761639138,"score_gpt":0.28938761451891803,"score_spread":0.25905548690252667,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3093376247","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9153557,0.00035007665,0.00009002384,0.071773365,0.0010708811,0.0006303972,0.00007178965,0.00041880462,0.010238958],"genre_scores_gemma":[0.930857,0.000016503767,0.00026303032,0.067761526,0.0002894366,0.000030827316,0.00013276028,0.00007015782,0.000578757],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.9958443,0.000410016,0.0013076385,0.0011106678,0.0005929032,0.00073446374],"domain_scores_gemma":[0.9976164,0.00081195834,0.0003342713,0.0006518154,0.00013468497,0.00045084624],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.00063573837,0.0003968536,0.00048299684,0.00011709284,0.00023354068,0.00007364405,0.00061140454,0.00048095267,0.00187321],"category_scores_gemma":[0.0010369481,0.0003158709,0.00021865782,0.000847344,0.00018658703,0.00011572967,0.00025421998,0.0014073146,0.0014709749],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.009336109,0.0019448327,0.24694926,0.000042260275,0.010349698,0.003453235,0.21396951,0.0011864922,0.012668406,0.004285025,0.46928826,0.026526906],"study_design_scores_gemma":[0.020752242,0.00048787365,0.9182711,0.0001821916,0.0010707027,0.00015114178,0.021152852,0.019294642,0.00078495406,0.0010541354,0.015142273,0.0016558707],"about_ca_topic_score_codex":0.0023099221,"about_ca_topic_score_gemma":0.00015500886,"teacher_disagreement_score":0.67132187,"about_ca_system_score_codex":0.00007479918,"about_ca_system_score_gemma":0.0001576161,"threshold_uncertainty_score":0.9999293},"labels":[],"label_agreement":null},{"id":"W3097259121","doi":"10.1093/cercor/bhaa276","title":"First Demonstration of Double Dissociation between COMT-Met158 and COMT-Val158 Cognitive Performance When Stressed and When Calmer","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; University of British Columbia","funders":"Canadian Institutes of Health Research; National Institutes of Health; Bezos Family Foundation; National Institute on Drug Abuse; Canada Research Chairs; Technische Universität Dresden; Canada Foundation for Innovation","keywords":"Dissociation (chemistry); Cognitive psychology; Psychology; Cognition; Catechol-O-methyl transferase; Neuroscience; Genetics; Chemistry; Biology; Allele","score_opus":0.04900761099954531,"score_gpt":0.2644007082656527,"score_spread":0.2153930972661074,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3097259121","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972987,0.00012163164,0.00030720432,0.00087761116,0.000042201395,0.0003608201,0.00015018332,0.000042339023,0.0007992955],"genre_scores_gemma":[0.9991869,0.00023825144,0.000056725967,0.00028227677,0.000066556735,0.000013278424,0.000024509018,0.00001584312,0.00011569707],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9987772,0.00007152772,0.00029242775,0.00038019716,0.00026514876,0.00021351075],"domain_scores_gemma":[0.99917924,0.00029683605,0.00021082026,0.00010027733,0.000061188286,0.00015164175],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000031717995,0.0001627873,0.00026557446,0.00004386797,0.00020338614,0.000074628435,0.000118405966,0.00008480571,0.00010150546],"category_scores_gemma":[0.0001309419,0.00015476721,0.000037882055,0.00012996944,0.00019375037,0.00033131414,0.00009770044,0.00015418217,0.0000088469005],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009759182,0.00005563756,0.9486036,0.00023174191,0.000034146404,0.000007393759,0.0030077489,0.000006757114,0.018770723,0.00064678007,0.00025079027,0.027408808],"study_design_scores_gemma":[0.0022110941,0.0005380237,0.9258115,0.000112673035,0.00008969017,0.000004870036,0.00032602786,0.005594136,0.06465652,0.00019003774,0.00021127495,0.00025409463],"about_ca_topic_score_codex":0.00009303013,"about_ca_topic_score_gemma":0.000057435493,"teacher_disagreement_score":0.0458858,"about_ca_system_score_codex":0.000015865357,"about_ca_system_score_gemma":0.00003666722,"threshold_uncertainty_score":0.63112235},"labels":[],"label_agreement":null},{"id":"W3100270524","doi":"10.1093/cercor/bhz279","title":"Sex-Based Differences in Cortical and Subcortical Development in 436 Individuals Aged 4–54 Years","year":2019,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; McGill University; Douglas Mental Health University Institute; Hospital for Sick Children; Western University","funders":"Canadian Institutes of Health Research","keywords":"Cortical neurons; Psychology; Neuroscience; Brain development; Developmental psychology","score_opus":0.03504591150442797,"score_gpt":0.2520096168883344,"score_spread":0.2169637053839064,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3100270524","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983616,0.000022896318,0.000015804615,0.00053810806,0.00020382501,0.00036543742,0.0000055823857,0.000044297652,0.0004424428],"genre_scores_gemma":[0.99801993,0.0000037282525,0.00015052497,0.001527008,0.000017731825,0.000038696613,0.0000024212204,0.0000139764,0.00022600613],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998051,0.00020769796,0.00032411955,0.0006249551,0.0003935523,0.00039865883],"domain_scores_gemma":[0.9969697,0.0027052404,0.000050755036,0.00017024152,0.000012187526,0.00009188498],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002988554,0.00017750531,0.00033361054,0.00019608473,0.000068206245,0.000051474137,0.00016362953,0.000087879285,0.00016274468],"category_scores_gemma":[0.0019288646,0.00016712592,0.000029901741,0.00034197426,0.00018435625,0.00013154771,0.0001537121,0.00035626246,0.000120257544],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000043892032,0.00012428392,0.9881858,0.000018769051,0.000004051221,0.000033913722,0.00042054505,0.000004529007,0.009369066,0.00076034415,0.00006809749,0.00096668577],"study_design_scores_gemma":[0.0010573915,0.00012156042,0.9923063,0.0000353142,0.0000031574093,0.0000051453053,0.000089436144,0.000528914,0.0051895794,0.0002930321,0.00015512203,0.00021505312],"about_ca_topic_score_codex":0.000035725694,"about_ca_topic_score_gemma":0.0002986092,"teacher_disagreement_score":0.0041794865,"about_ca_system_score_codex":0.00009060983,"about_ca_system_score_gemma":0.00012675891,"threshold_uncertainty_score":0.6815197},"labels":[],"label_agreement":null},{"id":"W3105873924","doi":"10.1093/cercor/bhaa321","title":"Atlas55+: Brain Functional Atlas of Resting-State Networks for Late Adulthood","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; National Institutes of Health; National Institute of General Medical Sciences; H. Lundbeck A/S; Servier; Genentech; IXICO; Commissariat à l'Énergie Atomique et aux Énergies Alternatives; Eisai; Agence Nationale de la Recherche; F. Hoffmann-La Roche; Pfizer; Biogen; BioClinica; Eli Lilly and Company; U.S. Department of Defense; Meso Scale Diagnostics; Alzheimer's Disease Neuroimaging Initiative; National Institute of Mental Health; Novartis Pharmaceuticals Corporation; Bristol-Myers Squibb; National Institute on Aging; Alzheimer's Association; Foundation for the National Institutes of Health","keywords":"Resting state fMRI; Cohort; Aging brain; Functional magnetic resonance imaging; Human brain; Brain mapping; Psychology; Brain atlas; Young adult; Functional connectivity; Neuroscience; Medicine; Cognition; Developmental psychology; Pathology","score_opus":0.047302588129951174,"score_gpt":0.2576002456435853,"score_spread":0.21029765751363413,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3105873924","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9365988,0.000098315955,0.023998452,0.0345061,0.0012396382,0.00095517206,0.00017462346,0.00033306636,0.0020958788],"genre_scores_gemma":[0.98612344,0.000007846839,0.00032416175,0.01191467,0.00044823095,0.000054553846,0.000016954165,0.000039361785,0.0010707894],"study_design_codex":"not_applicable","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.998105,0.000107573134,0.00036602063,0.0006998077,0.00032919066,0.00039240735],"domain_scores_gemma":[0.9944065,0.004871252,0.00021723539,0.00020219492,0.00014924369,0.00015353593],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00018243841,0.00022367826,0.00031959146,0.000053397078,0.00025808776,0.000032642274,0.000219304,0.00007027922,0.00009699584],"category_scores_gemma":[0.010871606,0.00021522028,0.0001799592,0.00044599918,0.00018160968,0.00019569846,0.00017199264,0.00023229702,0.000052043386],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0047381404,0.00039724848,0.03213841,0.0005469351,0.00022654783,0.000054022308,0.0018252796,0.047938928,0.37374017,0.019699017,0.50370115,0.014994168],"study_design_scores_gemma":[0.010188021,0.004960666,0.3109738,0.00023419455,0.00016579704,0.000074621916,0.0003464689,0.4507894,0.099369235,0.017052501,0.10366008,0.0021852604],"about_ca_topic_score_codex":0.00001176418,"about_ca_topic_score_gemma":0.000022799288,"teacher_disagreement_score":0.40285045,"about_ca_system_score_codex":0.000036190773,"about_ca_system_score_gemma":0.00007716736,"threshold_uncertainty_score":0.99746025},"labels":[],"label_agreement":null},{"id":"W3106077821","doi":"10.1093/cercor/bhaa340","title":"Cortical Processing of Multimodal Sensory Learning in Human Neonates","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Mental Health; Centre For Medical Engineering, King’s College London; Engineering and Physical Sciences Research Council; Menzies Centre for Australian Studies, King's College London, University of London; Medical Research Council; Medical Research Council Canada; European Commission; National Institute for Health and Care Research; Horizon 2020 Framework Programme; King's College London; King's College Hospital NHS Foundation Trust; Chalmers Tekniska Högskola; Wellcome Trust","keywords":"Sensory system; Functional magnetic resonance imaging; Neuroscience; Sensory processing; Stimulus modality; Psychology; Crossmodal; Magnetic resonance imaging; Neural substrate; Sensory deprivation; Medicine; Visual perception; Perception; Cognition","score_opus":0.03763943383513766,"score_gpt":0.27404697767861325,"score_spread":0.2364075438434756,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3106077821","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9980094,0.000013825182,0.00015716824,0.00046826954,0.000062063504,0.00010612068,0.0000022744694,0.000076808916,0.0011040744],"genre_scores_gemma":[0.9988603,0.0000031526256,0.000076174736,0.0007942274,0.000056495566,0.0000024184978,0.0000031514023,0.000015001572,0.00018910204],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9989907,0.000088471694,0.00023833338,0.00031310436,0.00017214185,0.00019720489],"domain_scores_gemma":[0.9996665,0.000080646634,0.00008932532,0.00006238461,0.000022733762,0.00007839355],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000056583405,0.00010007605,0.0001600234,0.000045811594,0.000102672704,0.000026131556,0.00011141516,0.000049274302,0.00006981367],"category_scores_gemma":[0.00037463312,0.00009321575,0.000043913133,0.00024798012,0.00009661373,0.0001365233,0.00006048425,0.00035118315,0.000013910552],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000037124595,0.000029383207,0.011218932,0.000033383014,6.7779746e-7,0.000022122631,0.00023920678,0.0003290558,0.9791354,0.0007892145,0.0000094052075,0.008156085],"study_design_scores_gemma":[0.001139842,0.0005457113,0.15573329,0.00006124755,0.000008369962,0.000017340617,0.0002335748,0.5666034,0.27441764,0.0004898589,0.0004194234,0.0003302638],"about_ca_topic_score_codex":0.000023245244,"about_ca_topic_score_gemma":0.000006428705,"teacher_disagreement_score":0.70471776,"about_ca_system_score_codex":0.00001569526,"about_ca_system_score_gemma":0.000023060387,"threshold_uncertainty_score":0.38012278},"labels":[],"label_agreement":null},{"id":"W3115450428","doi":"10.1093/cercor/bhaa367","title":"Whole-Brain Dynamics in Aging: Disruptions in Functional Connectivity and the Role of the Rich Club","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":54,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"","keywords":"Functional magnetic resonance imaging; Resting state fMRI; Neuroscience; Psychology; Functional connectivity; Default mode network","score_opus":0.0231058155918516,"score_gpt":0.23929957166138707,"score_spread":0.21619375606953548,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3115450428","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.89587855,0.000084088075,0.000095384516,0.101501,0.00017762286,0.00034484948,0.00004359393,0.000024613553,0.0018502809],"genre_scores_gemma":[0.994717,0.000004217095,0.000007502623,0.0049789,0.000057053177,0.000037102993,0.0000020616797,0.000011231916,0.00018494333],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985166,0.0003718081,0.00022790072,0.00041194426,0.00026733652,0.00020440413],"domain_scores_gemma":[0.9951817,0.004442713,0.0000997369,0.00020464008,0.000030115743,0.00004113716],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032385724,0.00013758944,0.00022384124,0.000058212598,0.00020282502,0.000029160676,0.00021118789,0.00004690506,0.000021506497],"category_scores_gemma":[0.0068468503,0.00009019604,0.00007078484,0.0007366396,0.00055894424,0.00016627593,0.00032485262,0.00037705808,0.000008360379],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00042132323,0.000187584,0.74431217,0.000041882176,0.000019851603,0.000005338975,0.002562953,0.00080212625,0.035543118,0.21276699,0.0012466873,0.002089979],"study_design_scores_gemma":[0.0017264219,0.000053580385,0.926135,0.000019246787,0.0000098109,0.000011948298,0.0016138698,0.050869126,0.0013285859,0.016751762,0.0013384686,0.0001421479],"about_ca_topic_score_codex":0.00014079115,"about_ca_topic_score_gemma":0.002033322,"teacher_disagreement_score":0.19601522,"about_ca_system_score_codex":0.000108164786,"about_ca_system_score_gemma":0.000059919254,"threshold_uncertainty_score":0.8196814},"labels":[],"label_agreement":null},{"id":"W3117471375","doi":"10.1093/cercor/bhaa381","title":"Cortical Gyrification Morphology in Individuals with ASD and ADHD across the Lifespan: A Systematic Review and Meta-Analysis","year":2020,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Attention Deficit Hyperactivity Disorder","field":"Medicine","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; Centre for Addiction and Mental Health; Holland Bloorview Kids Rehabilitation Hospital; University of Toronto","funders":"Government of Ontario; Bloorview Research Institute","keywords":"Gyrification; Meta-analysis; PsycINFO; Autism spectrum disorder; Psychology; Attention deficit hyperactivity disorder; Autism; Clinical psychology; MEDLINE; Neuroscience; Medicine; Developmental psychology; Biology; Internal medicine; Cerebral cortex","score_opus":0.127951544664619,"score_gpt":0.4003063862454621,"score_spread":0.2723548415808431,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3117471375","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0005550754,0.99185586,0.00005460297,0.002765049,0.000011840465,0.0045867325,0.000108490596,0.000032158547,0.000030214407],"genre_scores_gemma":[0.0060883244,0.9907564,0.000079981626,0.0014615628,0.000023381806,0.0009234026,0.00021284012,0.000051779884,0.00040233912],"study_design_codex":"systematic_review","study_design_gemma":"meta_analysis","domain_scores_codex":[0.99634963,0.0010432274,0.0011619347,0.00076089526,0.00038481897,0.0002994803],"domain_scores_gemma":[0.9975821,0.00057316147,0.0007993934,0.00077309186,0.00009909871,0.0001732016],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0008983748,0.0005010015,0.008150803,0.0001607462,0.00009581731,0.00007355227,0.00018432504,0.00026066872,0.00027765144],"category_scores_gemma":[0.00071439066,0.00025267332,0.0008321391,0.0012938645,0.00023258387,0.00009196,0.00013471376,0.000864253,0.00006377828],"study_design_candidate":"meta_analysis","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000008957864,0.00013748491,0.0008595999,0.88136363,0.11406622,0.000095489806,0.0004285935,1.4628803e-7,2.6842025e-7,0.00013753191,0.00013139486,0.002770654],"study_design_scores_gemma":[0.00030890666,0.000113861366,0.0015665838,0.011612584,0.9729701,0.0009531872,0.00048695074,0.000012615909,1.7867597e-8,0.000003864994,0.011668507,0.00030281945],"about_ca_topic_score_codex":0.00002458383,"about_ca_topic_score_gemma":0.000042184307,"teacher_disagreement_score":0.8697511,"about_ca_system_score_codex":0.00004925177,"about_ca_system_score_gemma":0.00013975406,"threshold_uncertainty_score":0.99999255},"labels":[],"label_agreement":null},{"id":"W3119156604","doi":"10.1093/cercor/bhaa389","title":"Pubertal Testosterone and the Structure of the Cerebral Cortex in Young Men","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":24,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Institute of Mental Health; Medical Research Council; National Institutes of Health; Wellcome Trust","keywords":"Testosterone (patch); Endocrinology; Internal medicine; Cerebral cortex; Fractional anisotropy; White matter; Myelin; Period (music); Biology; Psychology; Central nervous system; Medicine; Magnetic resonance imaging","score_opus":0.016556649385133775,"score_gpt":0.23397469579700692,"score_spread":0.21741804641187315,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3119156604","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99403507,0.00012451489,0.0000059219865,0.002217254,0.00018718507,0.00046874819,0.000059585433,0.000024754483,0.0028769465],"genre_scores_gemma":[0.99824864,0.000032934593,0.000009247373,0.0011033807,0.000069713315,0.0000061193155,0.0000014662836,0.000019819285,0.00050865527],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99839115,0.00022994264,0.00032605676,0.00041550363,0.00033601423,0.00030134956],"domain_scores_gemma":[0.9991368,0.00022104094,0.00017049826,0.00035503219,0.000020762112,0.00009584367],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000027075946,0.00019136665,0.00028087266,0.000030831736,0.00013469293,0.00006912923,0.0005514992,0.000074824384,0.00027560742],"category_scores_gemma":[0.0004354376,0.00010552335,0.00008960319,0.00039515866,0.00049127097,0.00013924271,0.0003454469,0.00033325845,0.000006522644],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016462979,0.000051871757,0.2995245,0.000064928536,0.000021077609,0.000020138998,0.0040188436,0.000023393817,0.6810666,0.00727547,0.0010200727,0.005266868],"study_design_scores_gemma":[0.0026309874,0.00014427392,0.94480413,0.000028824932,0.000027462118,0.00008583074,0.00045050547,0.0035814405,0.047097012,0.00074602687,0.00020638709,0.00019711375],"about_ca_topic_score_codex":0.00027799388,"about_ca_topic_score_gemma":0.00043968795,"teacher_disagreement_score":0.64527965,"about_ca_system_score_codex":0.000016922037,"about_ca_system_score_gemma":0.00005509852,"threshold_uncertainty_score":0.43031174},"labels":[],"label_agreement":null},{"id":"W3121113396","doi":"10.1093/cercor/bhaa384","title":"Perirhinal Cortex is Involved in the Resolution of Learned Approach–Avoidance Conflict Associated with Discrete Objects","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; The Scarborough Hospital; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Perirhinal cortex; Psychology; Functional magnetic resonance imaging; Temporal lobe; Stimulus (psychology); Neuroscience; Neural correlates of consciousness; Cognitive psychology; Conflict resolution; Hippocampus; Cognition; Epilepsy","score_opus":0.12425407953983164,"score_gpt":0.2932179414934407,"score_spread":0.16896386195360907,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3121113396","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9940522,0.000036876634,0.0002925025,0.00096468563,0.00007348859,0.0005517332,0.000034851408,0.00007134455,0.0039223377],"genre_scores_gemma":[0.995221,0.000015519472,0.000064007196,0.004349596,0.000045578945,0.000025443234,0.000014801513,0.0000230983,0.00024093478],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99752,0.000602679,0.00033563268,0.00060557673,0.0005543416,0.00038171877],"domain_scores_gemma":[0.99906045,0.00019110537,0.00027553126,0.00031879204,0.000041142335,0.00011298647],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032141182,0.00023054396,0.00033520634,0.000048169026,0.00016813338,0.00004984002,0.0005309286,0.00009964907,0.00008774101],"category_scores_gemma":[0.00058484776,0.00015459026,0.000084039355,0.0007517681,0.00022242389,0.00024043031,0.00007536861,0.0004824985,0.000020041254],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006487363,0.0001546113,0.0021433674,0.000074618176,0.000012227719,0.00006809821,0.007882546,0.000059882284,0.98526347,0.0031103217,0.00033505698,0.00024705214],"study_design_scores_gemma":[0.003394995,0.0026354752,0.07691682,0.0001708147,0.00006805694,0.000037446953,0.0031576264,0.04333529,0.86858827,0.0007437434,0.00025505552,0.0006963805],"about_ca_topic_score_codex":0.000019943738,"about_ca_topic_score_gemma":0.00002939497,"teacher_disagreement_score":0.11667518,"about_ca_system_score_codex":0.00003123497,"about_ca_system_score_gemma":0.00006612365,"threshold_uncertainty_score":0.6304008},"labels":[],"label_agreement":null},{"id":"W3122215929","doi":"10.1093/cercor/bhaa392","title":"Sulcal Morphology in Cingulate Cortex is Associated with Voluntary Oro-Facial Motor Control and Gestural Communication in Chimpanzees (<i>Pan troglodytes</i>)","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Neurological Disorders and Stroke; Université de Lyon; National Institutes of Health; Agence Nationale de la Recherche","keywords":"Psychology; Sulcus; Superior temporal sulcus; Gyrification; Anterior cingulate cortex; Motor cortex; Gyrus; Motor control; Neuroscience; Lateralization of brain function; Anatomy; Audiology; Cognition; Perception; Cerebral cortex; Biology; Medicine","score_opus":0.012727270228554423,"score_gpt":0.24158057967472216,"score_spread":0.22885330944616775,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3122215929","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99776936,0.00010439211,0.000020032272,0.00088970916,0.00018146593,0.00042536858,0.000079372105,0.00007297759,0.00045731594],"genre_scores_gemma":[0.994986,0.00005635773,0.00014057198,0.004355104,0.000029893274,0.00003398859,0.000014927872,0.000035761066,0.00034738923],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99679357,0.0005747976,0.00053943857,0.00093720993,0.00042655217,0.00072842377],"domain_scores_gemma":[0.99835896,0.0005800837,0.00023078157,0.00057702506,0.00007640193,0.0001767373],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00028704834,0.00032625662,0.00055269693,0.0001137888,0.00019102925,0.00010689133,0.0005248422,0.00019291382,0.0000952544],"category_scores_gemma":[0.0013957409,0.00031027256,0.00005775729,0.0011637564,0.0006209661,0.0003360258,0.00024315836,0.00070589816,0.000012917497],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001701269,0.00026570458,0.3571307,0.000010355277,0.0000068937034,0.00048487162,0.0005490565,0.00001394826,0.63994443,0.00009629348,0.00008560909,0.0012420227],"study_design_scores_gemma":[0.0037514193,0.00023364712,0.9666953,0.000065969536,0.000018339888,0.00028295032,0.00014657527,0.008251937,0.019956125,0.00016008741,0.00007737035,0.0003602596],"about_ca_topic_score_codex":0.00038794466,"about_ca_topic_score_gemma":0.0010251519,"teacher_disagreement_score":0.61998826,"about_ca_system_score_codex":0.0001902145,"about_ca_system_score_gemma":0.00020918992,"threshold_uncertainty_score":0.9999349},"labels":[],"label_agreement":null},{"id":"W3122372685","doi":"10.1093/cercor/bhaa401","title":"Linking Cortical Morphology to Interindividual Variability in Auditory Feedback Control of Vocal Production","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China","keywords":"Precuneus; Inferior parietal lobule; Psychology; Parietal lobe; Superior temporal gyrus; Superior parietal lobule; Inferior frontal gyrus; Neuroscience; Cuneus; Audiology; Functional magnetic resonance imaging; Medicine","score_opus":0.0414203360376263,"score_gpt":0.27790980642805097,"score_spread":0.23648947039042467,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3122372685","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.991228,5.358011e-7,0.004638759,0.001960692,0.0014373554,0.00038500252,0.00001304639,0.000054744873,0.000281906],"genre_scores_gemma":[0.9950678,0.000001317087,0.00008565117,0.00439649,0.00039392393,0.000016836671,0.000001618619,0.00001023604,0.00002612225],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9980228,0.0003422777,0.00036793924,0.00069465104,0.00027055194,0.00030177896],"domain_scores_gemma":[0.99937326,0.00013037382,0.000083704916,0.00021753638,0.00003454226,0.00016060294],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003915664,0.00012545676,0.00024368106,0.00007582871,0.000061175546,0.000019558784,0.0002769907,0.000077448974,0.00015751013],"category_scores_gemma":[0.0024425504,0.00012118311,0.00005365687,0.0004455453,0.00027006146,0.00020405973,0.00013067562,0.00032356527,0.00010371746],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015372763,0.00009180034,0.0066116136,0.000019223022,6.883898e-7,0.000012573215,0.00060827116,0.000075991855,0.98876774,0.00025158626,0.00025187086,0.0031549367],"study_design_scores_gemma":[0.0010910907,0.0010012516,0.84519345,0.00004196784,0.000018155913,0.00005321938,0.00014386496,0.0043867547,0.14635637,0.00039578372,0.0010080952,0.0003099643],"about_ca_topic_score_codex":0.000009550935,"about_ca_topic_score_gemma":0.000007696036,"teacher_disagreement_score":0.84241134,"about_ca_system_score_codex":0.000050715964,"about_ca_system_score_gemma":0.00007163247,"threshold_uncertainty_score":0.4941704},"labels":[],"label_agreement":null},{"id":"W3126121486","doi":"10.1093/cercor/bhaa403","title":"Motor Planning Modulates Neural Activity Patterns in Early Human Auditory Cortex","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Queen's University","funders":"Canadian Institutes of Health Research","keywords":"Sensory system; Neuroscience; Functional magnetic resonance imaging; Motor cortex; Psychology; Auditory cortex; Posterior parietal cortex; Supplementary motor area; Motor system; Motor control; Cued speech; Cortex (anatomy); Cognitive psychology","score_opus":0.04262871035769767,"score_gpt":0.2675563499302242,"score_spread":0.22492763957252654,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3126121486","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977116,0.0000054412135,0.000090347094,0.0004966833,0.0008104379,0.00029075405,0.000040693423,0.00017936915,0.00037468507],"genre_scores_gemma":[0.9976911,0.0000017478692,0.0000060222815,0.0015028627,0.00044592452,0.000014493628,0.000008760931,0.00003705063,0.00029205438],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9982177,0.0001196425,0.00025379498,0.00068919134,0.00029520586,0.00042446863],"domain_scores_gemma":[0.9993385,0.000092835064,0.00013814478,0.00022064241,0.00001862122,0.00019122814],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000057928035,0.00023980913,0.00025718735,0.000090496316,0.0001859694,0.00011169456,0.00030020156,0.00009709957,0.000106572894],"category_scores_gemma":[0.00010946977,0.000233323,0.00010240841,0.00026589766,0.00006903046,0.00045330726,0.00014553775,0.00048490462,0.00006154764],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008126673,0.000049636208,0.11494591,0.000025639114,0.0000028844734,0.00012196796,0.00022421,0.0001658658,0.88301134,0.00011366405,0.00021086677,0.0010467386],"study_design_scores_gemma":[0.00049766887,0.00038587625,0.9192016,0.000020753336,0.0000058565115,0.000007765689,0.000018586785,0.0694505,0.009909986,0.00013795902,0.000094854746,0.00026858525],"about_ca_topic_score_codex":0.00014055315,"about_ca_topic_score_gemma":0.00002480629,"teacher_disagreement_score":0.87310135,"about_ca_system_score_codex":0.000057508976,"about_ca_system_score_gemma":0.000018387595,"threshold_uncertainty_score":0.9514636},"labels":[],"label_agreement":null},{"id":"W3126661780","doi":"10.1093/cercor/bhaa410","title":"Global Network Organization of the Fetal Functional Connectome","year":2020,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neonatal and fetal brain pathology","field":"Medicine","cited_by":40,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Heart, Lung, and Blood Institute; Canadian Institutes of Health Research; National Institutes of Health","keywords":"Connectome; Neuroscience; Functional connectivity; Fetus; Psychology; Biology; Pregnancy; Genetics","score_opus":0.015548590082723761,"score_gpt":0.2219754112317299,"score_spread":0.20642682114900612,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3126661780","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9891523,0.0001147551,0.0012040384,0.0045577725,0.0004958334,0.00019823444,0.000022923512,0.00005599521,0.0041981135],"genre_scores_gemma":[0.9945684,0.0000017777104,0.0001151327,0.0045433366,0.00042456033,0.0000011050168,0.000051801737,0.000008465663,0.00028539984],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9994022,0.000019034056,0.00015054227,0.00015429902,0.00014930166,0.00012462397],"domain_scores_gemma":[0.9996391,0.00001490838,0.0000622041,0.00011433366,0.00008718176,0.00008226235],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000293737,0.00007703518,0.00015822842,0.000005769521,0.00005247129,0.0000035918947,0.00007387444,0.00006019187,0.00071627373],"category_scores_gemma":[0.00011265955,0.000051464503,0.00006575323,0.00050077325,0.00009710537,0.000033316857,0.00008786063,0.000085291176,0.00007462217],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014540333,0.000043658674,0.96960956,0.000050634168,0.000059315,0.000022719469,0.00012283862,0.00007003455,0.005745969,0.010412129,0.011008885,0.0027088542],"study_design_scores_gemma":[0.00076452194,0.00013711433,0.99559903,0.000012237559,0.00004663996,0.00015602476,0.00003439688,0.00020036194,0.00043362516,0.0005114016,0.0020457108,0.000058960926],"about_ca_topic_score_codex":0.0000046426826,"about_ca_topic_score_gemma":0.0000032404687,"teacher_disagreement_score":0.025989445,"about_ca_system_score_codex":0.000020082176,"about_ca_system_score_gemma":0.000069086695,"threshold_uncertainty_score":0.7842695},"labels":[],"label_agreement":null},{"id":"W3130668886","doi":"10.1093/cercor/bhab039","title":"Phenotyping the Preterm Brain: Characterizing Individual Deviations From Normative Volumetric Development in Two Large Infant Cohorts","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neonatal and fetal brain pathology","field":"Medicine","cited_by":45,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"European Research Council; Engineering and Physical Sciences Research Council; Programme Grants for Applied Research; Medical Research Council; NIHR Maudsley Biomedical Research Centre; Royal Society; Innovative Medicines Initiative; Medical Research Council Canada; Medical Research Council Centre for Neurodevelopmental Disorders; European Commission; King's College London; National Institute for Health and Care Research; Centre For Medical Engineering, King’s College London; European Federation of Pharmaceutical Industries and Associations; Autism Speaks; Simons Foundation Autism Research Initiative; Wellcome Trust","keywords":"Neurocognitive; Normative; Bayley Scales of Infant Development; Brain development; Generalizability theory; Neuroimaging; Medicine; Psychology; Developmental psychology; Pediatrics; Cognition; Neuroscience","score_opus":0.020046826220826,"score_gpt":0.27457885209562405,"score_spread":0.25453202587479806,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3130668886","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99444646,0.0005840085,0.0008376995,0.0016351392,0.00029652994,0.00041248117,0.000089362205,0.000047430745,0.0016508816],"genre_scores_gemma":[0.99097514,0.0000104980145,0.0010061854,0.006560313,0.00014717819,0.000053133215,0.0008471258,0.00001955086,0.00038086],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998395,0.00012376146,0.00045137553,0.00035922293,0.00028002763,0.00039060495],"domain_scores_gemma":[0.99911696,0.00025703624,0.00014057955,0.00027902873,0.00010011805,0.00010626179],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002969492,0.00018559689,0.0003627602,0.00015826014,0.00019198861,0.000045038032,0.000145695,0.00007293692,0.00040085698],"category_scores_gemma":[0.00037647964,0.0001438382,0.00007394971,0.0006448605,0.000058778995,0.00018405818,0.00027562655,0.0004137422,0.00010930865],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011717051,0.00029490446,0.88860035,0.00008722621,0.00028587817,0.00067799614,0.016525894,0.0000012580126,0.012946111,0.0010926025,0.0005464257,0.07882418],"study_design_scores_gemma":[0.0015492679,0.000029257972,0.98583466,0.00012600009,0.00004513684,0.00011472935,0.00049515424,0.00029072975,0.0027225623,0.00025093244,0.008357273,0.00018431255],"about_ca_topic_score_codex":0.000052338808,"about_ca_topic_score_gemma":0.00045231642,"teacher_disagreement_score":0.097234294,"about_ca_system_score_codex":0.000099530786,"about_ca_system_score_gemma":0.00026389648,"threshold_uncertainty_score":0.5865552},"labels":[],"label_agreement":null},{"id":"W3133808826","doi":"10.1093/cercor/bhab015","title":"Examining the Boundary Sharpness Coefficient as an Index of Cortical Microstructure in Autism Spectrum Disorder","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Addiction and Mental Health; Hospital for Sick Children; Holland Bloorview Kids Rehabilitation Hospital; University of Toronto; Université de Montréal; Western University; McGill University; Douglas Mental Health University Institute","funders":"National Institute of Mental Health; Medical Research Council; National Institute for Health and Care Research; Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; Department of Psychiatry, University of Toronto; National Institutes of Health; Medical Research Council Canada","keywords":"Autism spectrum disorder; Precuneus; White matter; Psychology; Superior temporal gyrus; Audiology; Middle temporal gyrus; Temporal lobe; Neuroscience; Magnetic resonance imaging; Autism; Medicine; Functional magnetic resonance imaging; Developmental psychology; Radiology; Epilepsy","score_opus":0.025001980640744534,"score_gpt":0.26464788288743163,"score_spread":0.23964590224668708,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3133808826","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9936486,0.00014562062,0.00017861195,0.0039126505,0.0007238078,0.00019825395,0.000031775933,0.000042874086,0.0011178055],"genre_scores_gemma":[0.99704957,0.0000082837905,0.000018581517,0.0024793858,0.000056263383,0.000012375558,0.0000074409695,0.000022192835,0.00034588386],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9979969,0.00028236498,0.00029788955,0.00065266597,0.00040390587,0.00036626452],"domain_scores_gemma":[0.99792206,0.0014374938,0.000095467796,0.00044213815,0.000034117504,0.00006873522],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019523836,0.0001889877,0.0002669709,0.00007295877,0.00033584525,0.000085312065,0.0002972916,0.00008624414,0.0003996225],"category_scores_gemma":[0.0023706537,0.00014833489,0.000060825256,0.0006493644,0.0005206737,0.0001705064,0.00031144408,0.000447776,0.000022456388],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040494927,0.00097284844,0.49067214,0.00011459936,0.000052501757,0.00053144846,0.0051912786,0.0011096096,0.41621584,0.07875979,0.00095175667,0.005023246],"study_design_scores_gemma":[0.0006263076,0.00018960664,0.9677091,0.00003011732,0.000011187943,0.00016802707,0.001231123,0.0020942623,0.019375904,0.0067213182,0.001627983,0.00021503444],"about_ca_topic_score_codex":0.00011004102,"about_ca_topic_score_gemma":0.0007781465,"teacher_disagreement_score":0.477037,"about_ca_system_score_codex":0.00006837788,"about_ca_system_score_gemma":0.00022916603,"threshold_uncertainty_score":0.60489213},"labels":[],"label_agreement":null},{"id":"W3134236488","doi":"10.1093/cercor/bhab001","title":"A Structure–Function Substrate of Memory for Spatial Configurations in Medial and Lateral Temporal Cortices","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Douglas Mental Health University Institute; McGill University; Montreal Neurological Institute and Hospital","funders":"European Research Council; China Scholarship Council; Canadian Institutes of Health Research; Canadian Open Neuroscience Platform; Centre Azrieli de recherche sur l'autisme, Institut et Hôpital Neurologiques de Montréal; Brain Research UK","keywords":"Functional magnetic resonance imaging; Episodic memory; Temporal lobe; Neuroscience; Spatial memory; Psychology; Computer science; Cognitive psychology; Cognition; Working memory","score_opus":0.051566820418127934,"score_gpt":0.28781496266151096,"score_spread":0.23624814224338303,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3134236488","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981243,0.000018753908,0.00030235192,0.00013889033,0.0007998371,0.00028523762,0.00009260902,0.000021694852,0.00021631169],"genre_scores_gemma":[0.99928683,0.0000050527333,0.000112997026,0.00026971597,0.00010299245,0.000014059483,0.00003315336,0.000010204176,0.000164994],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99896103,0.00009239419,0.0002918645,0.0003306676,0.00014135381,0.00018270157],"domain_scores_gemma":[0.99949783,0.00013611856,0.00012399112,0.00012789364,0.000046830006,0.00006736127],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006197711,0.00011639152,0.00019585747,0.000057479636,0.00008220024,0.000035767396,0.00007445977,0.000073818504,0.00033485837],"category_scores_gemma":[0.00018387097,0.000106949585,0.00004145355,0.00014345282,0.0000818395,0.00021496046,0.000026444946,0.00011250779,0.0000019761733],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019399957,0.000026045165,0.0014073895,0.000039342645,0.00000242476,0.000019449013,0.00015004881,0.000006595643,0.99488086,0.002170104,0.000014126117,0.0010896333],"study_design_scores_gemma":[0.0009934076,0.00023054522,0.03492011,0.0000157459,0.000017298977,0.000030194915,0.00006962215,0.0015267561,0.9562024,0.005855889,0.000022542636,0.00011551186],"about_ca_topic_score_codex":0.00002649961,"about_ca_topic_score_gemma":0.00092215417,"teacher_disagreement_score":0.038678467,"about_ca_system_score_codex":0.000008895721,"about_ca_system_score_gemma":0.00007471467,"threshold_uncertainty_score":0.43612772},"labels":[],"label_agreement":null},{"id":"W3135713085","doi":"10.1093/cercor/bhab008","title":"Prioritizing Genetic Contributors to Cortical Alterations in 22q11.2 Deletion Syndrome Using Imaging Transcriptomics","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Congenital heart defects research","field":"Biochemistry, Genetics and Molecular Biology","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Clinical and Translational Science Institute, University of California, Los Angeles; Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Child Health and Human Development; National Institute of Mental Health; National Institute on Aging; Comisión Nacional de Investigación Científica y Tecnológica; Medical Research Council; National Institute of Biomedical Imaging and Bioengineering; Michael Smith Health Research BC; Norges Idrettshøgskole; National Center for Advancing Translational Sciences; Wellcome Trust; Mauritius Research Council; ZonMw; Canadian Institutes of Health Research; National Institute of General Medical Sciences; National Institute for Health and Care Research; King's College London; NIHR Maudsley Biomedical Research Centre; National Alliance for Research on Schizophrenia and Depression","keywords":"Haploinsufficiency; Corticogenesis; Biology; microRNA; Transcriptome; Gene; Copy-number variation; Genetics; Neuroscience; Gene expression; Phenotype","score_opus":0.014821205637682824,"score_gpt":0.29201412532078486,"score_spread":0.27719291968310206,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3135713085","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99222606,0.0006783773,0.00629315,0.0001784622,0.00017675603,0.00028280832,0.000027389788,0.000014040494,0.00012294675],"genre_scores_gemma":[0.9974676,0.000018172539,0.0018521465,0.0002916071,0.000097152995,0.000015994097,0.00009086348,0.000028309336,0.00013820406],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985503,0.00013163558,0.00027792575,0.0004320459,0.00017162904,0.0004364879],"domain_scores_gemma":[0.9993366,0.000021220732,0.000020318828,0.00027397665,0.0001651504,0.00018275774],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012894919,0.0001391482,0.00017330683,0.000089188456,0.00011865097,0.000087037384,0.0001049361,0.000087100445,0.000039639042],"category_scores_gemma":[0.00017874043,0.00016623634,0.00008560385,0.00027729367,0.00004396509,0.000009506904,0.00010700772,0.00018642415,0.00002146486],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003664421,0.00004663409,0.02485767,0.000018807268,0.000015540381,0.00025111865,0.00004618717,0.00007280281,0.97225195,0.00004904659,0.00003469812,0.0023188759],"study_design_scores_gemma":[0.0026987004,0.00046463255,0.778648,0.0001783684,0.00008285181,0.0032320372,0.00045904395,0.034156065,0.17412834,0.00020361214,0.0046689743,0.001079331],"about_ca_topic_score_codex":0.00006348552,"about_ca_topic_score_gemma":0.00040368148,"teacher_disagreement_score":0.79812366,"about_ca_system_score_codex":0.000090691654,"about_ca_system_score_gemma":0.00024808213,"threshold_uncertainty_score":0.67789215},"labels":[],"label_agreement":null},{"id":"W3138051794","doi":"10.1093/cercor/bhab036","title":"Mapping Specific Mental Content during Musical Imagery","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Canadian Institute for Advanced Research; McGill University; International Laboratory for Brain, Music and Sound Research; Centre for Research on Brain Language and Music; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Canadian Institute for Advanced Research","keywords":"Melody; Psychology; Auditory imagery; Perception; Rhythm; Stimulus (psychology); Cognitive psychology; Mental image; Functional magnetic resonance imaging; Sensory system; Communication; Neuroscience; Cognition; Musical","score_opus":0.08193058877929303,"score_gpt":0.2661910105625924,"score_spread":0.18426042178329938,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3138051794","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9934092,0.0000135324335,0.00011864144,0.00048130882,0.0016868553,0.00012955778,0.000011811717,0.000114977476,0.0040340703],"genre_scores_gemma":[0.9948871,0.00006321656,0.000080099264,0.0019018612,0.0002938889,0.000008196861,0.000005457386,0.000016269587,0.0027439254],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99824905,0.00007577393,0.00022523642,0.0006897888,0.00035452834,0.00040559057],"domain_scores_gemma":[0.99942815,0.000032933312,0.00005657268,0.00031308434,0.000029976218,0.0001392555],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00006283411,0.00014683712,0.00015560159,0.00007295307,0.00031906535,0.00014666133,0.00019597734,0.00004139667,0.0010943606],"category_scores_gemma":[0.00010565009,0.00014245139,0.000112838556,0.0003785955,0.00017731667,0.00038832502,0.00019420095,0.0001968648,0.00046438904],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001048677,0.00006562196,0.00041894618,0.0000074805266,6.885238e-7,0.00029391889,0.0002669336,4.1204495e-7,0.9961081,0.00043645833,0.00066159223,0.0017293709],"study_design_scores_gemma":[0.0005569373,0.000029087932,0.32320234,0.000029603134,0.0000025808815,0.0005005187,0.0006034975,0.00011015961,0.66703165,0.00013555684,0.007553263,0.0002448272],"about_ca_topic_score_codex":0.000004041442,"about_ca_topic_score_gemma":0.0000030514914,"teacher_disagreement_score":0.32907647,"about_ca_system_score_codex":0.00007450561,"about_ca_system_score_gemma":0.000046075143,"threshold_uncertainty_score":0.9998188},"labels":[],"label_agreement":null},{"id":"W3140472322","doi":"10.1093/cercor/bhab043","title":"The Precentral Insular Cortical Network for Speech Articulation","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Apraxia; Precentral gyrus; Broca's area; Supplementary motor area; Inferior frontal gyrus; Motor cortex; Psychology; Articulation (sociology); Neuroscience; Insula; Superior temporal gyrus; Aphasia; Speech production; Middle frontal gyrus; Frontal lobe; Insular cortex; Neurocomputational speech processing; Supramarginal gyrus; Cortex (anatomy); Postcentral gyrus; Somatosensory system; Functional magnetic resonance imaging; Medicine; Speech perception; Perception; Magnetic resonance imaging; Computer science; Speech recognition","score_opus":0.027795769564100847,"score_gpt":0.28447096004491046,"score_spread":0.2566751904808096,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3140472322","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962766,0.0001676317,0.0002276856,0.0011324942,0.001347052,0.00026655578,0.000009371024,0.00006708192,0.0005055153],"genre_scores_gemma":[0.99512774,0.00002744139,0.00036292104,0.0023590492,0.00050087797,0.0000144759415,0.000016985434,0.0000132869445,0.0015772055],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987634,0.00016403606,0.00020517447,0.00033790612,0.00011802192,0.00041149938],"domain_scores_gemma":[0.99898094,0.000578401,0.00005638839,0.00025697012,0.000057253987,0.00007003235],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015146124,0.000100711804,0.00011334776,0.000008020819,0.00043679547,0.00007784736,0.00015204286,0.0000685754,0.000080111204],"category_scores_gemma":[0.0010624274,0.00006957735,0.00009244996,0.00016051017,0.0001337944,0.00006402897,0.000061016508,0.00016398758,0.000040091152],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00016406862,0.0001281531,0.00392694,0.000016293263,0.000017246623,0.000642401,0.00023064337,0.000072534705,0.9537603,0.017073603,0.007550285,0.016417505],"study_design_scores_gemma":[0.0014338165,0.00029219416,0.036033396,0.000026236568,0.00007951156,0.0012871947,0.00013524524,0.0057244305,0.8558569,0.016623113,0.082040176,0.00046781162],"about_ca_topic_score_codex":0.0000018877967,"about_ca_topic_score_gemma":0.000023783356,"teacher_disagreement_score":0.09790345,"about_ca_system_score_codex":0.000013917807,"about_ca_system_score_gemma":0.000060577022,"threshold_uncertainty_score":0.33595216},"labels":[],"label_agreement":null},{"id":"W3141453816","doi":"10.1093/cercor/bhab035","title":"Association between Quantitative MR Markers of Cortical Evolving Organization and Gene Expression during Human Prenatal Brain Development","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Fetal and Pediatric Neurological Disorders","field":"Medicine","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Biomedical Imaging and Bioengineering; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; National Institutes of Health; Fetal Health Foundation","keywords":"Subplate; Fetus; Cerebral cortex; In utero; FLNA; Gene expression; Biology; Cortex (anatomy); Human brain; Pathology; Neuroscience; Magnetic resonance imaging; Phenotype; Gene; Medicine; Pregnancy; Genetics; Cell","score_opus":0.015856332365144728,"score_gpt":0.25624210957686655,"score_spread":0.24038577721172183,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3141453816","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99887043,0.00014138146,0.00018748337,0.0002749067,0.000041343814,0.00013534688,0.000008775276,0.0000326134,0.00030771454],"genre_scores_gemma":[0.99776846,0.000018273315,0.0013390952,0.00007927589,0.00004890598,0.000002369744,0.00018904875,0.00001258047,0.00054197677],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99900675,0.00008122671,0.00027817467,0.0002358921,0.00024078069,0.00015719117],"domain_scores_gemma":[0.9993589,0.00017472336,0.00012447753,0.000077952296,0.0001724702,0.00009148745],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010695528,0.00009864304,0.00021815182,0.0000441478,0.00012440849,0.00001323262,0.00003285417,0.000099035875,0.0003396839],"category_scores_gemma":[0.00094994163,0.00008699595,0.000030077297,0.00021913326,0.000031378764,0.000080744605,0.00008880463,0.00015730316,0.000005659001],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048636,0.000053571795,0.77188534,0.00013705173,0.000056642202,0.000018648163,0.00024182782,7.2760986e-7,0.22712591,0.000036423007,0.00018290927,0.0002123318],"study_design_scores_gemma":[0.0007960022,0.00014817143,0.8981216,0.000039883857,0.000064161795,0.000007329104,0.00010296206,0.000021349215,0.10054635,0.000046334437,0.00002057122,0.00008529812],"about_ca_topic_score_codex":0.0000044957314,"about_ca_topic_score_gemma":0.0000039891543,"teacher_disagreement_score":0.12657955,"about_ca_system_score_codex":0.000052564195,"about_ca_system_score_gemma":0.00006548731,"threshold_uncertainty_score":0.37193006},"labels":[],"label_agreement":null},{"id":"W3144219494","doi":"10.1093/cercor/bhab058","title":"Transcriptome Regulation by Oncogenic ALK Pathway in Mammalian Cortical Development Revealed by Single-Cell RNA Sequencing","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"RNA Research and Splicing","field":"Biochemistry, Genetics and Molecular Biology","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University of Toronto","funders":"Program of Shanghai Academic Research Leader; National Key Research and Development Program of China; Canadian Institutes of Health Research; Science and Technology Commission of Shanghai Municipality; National Natural Science Foundation of China","keywords":"Anaplastic lymphoma kinase; Biology; Transcriptome; Embryonic stem cell; Signal transduction; Cell type; Neuroscience; Cell biology; Gene; Cell; Gene expression; Genetics; Pathology; Medicine","score_opus":0.01717446370184551,"score_gpt":0.23934523616632125,"score_spread":0.22217077246447575,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3144219494","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9959137,0.0010363328,0.0011076952,0.00015024783,0.0000714987,0.00016653392,0.00002063352,0.000014066318,0.001519304],"genre_scores_gemma":[0.9856493,0.00003020421,0.00074810855,0.0002684603,0.0000553213,0.00001737432,0.0007178939,0.000029072315,0.012484299],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99827355,0.00013676075,0.00037111083,0.0004851214,0.00025413942,0.00047931922],"domain_scores_gemma":[0.99938285,0.000012683015,0.000058268597,0.00026375934,0.000085408465,0.00019705287],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022292847,0.00017684087,0.00019109553,0.00003919019,0.00009752546,0.00004630841,0.00015137812,0.00018136797,0.00012485177],"category_scores_gemma":[0.00006175718,0.00018521672,0.000078500816,0.0001713667,0.000047535235,0.000010258319,0.000061066494,0.0002030317,0.000020711434],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005605276,0.000088646564,0.0023544037,0.000027708671,0.000015899324,0.0000312613,0.00006551761,0.0000036986053,0.9910223,0.000012626782,0.0028342325,0.00348764],"study_design_scores_gemma":[0.00094164466,0.00014897737,0.0039945943,0.0000282567,0.000004975819,0.000020034968,0.00013433718,0.00010857481,0.9778705,0.000015028452,0.016488854,0.00024418352],"about_ca_topic_score_codex":0.000035792422,"about_ca_topic_score_gemma":0.00015069786,"teacher_disagreement_score":0.01365462,"about_ca_system_score_codex":0.00016542185,"about_ca_system_score_gemma":0.00036576114,"threshold_uncertainty_score":0.7552918},"labels":[],"label_agreement":null},{"id":"W3148444750","doi":"10.1093/cercor/bhab081","title":"Maternal Adverse Childhood Experience and Depression in Relation with Brain Network Development and Behaviors in Children: A Longitudinal Study","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Maternal Mental Health During Pregnancy and Postpartum","field":"Medicine","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Medical Research Council; National Medical Research Council; National Research Foundation Singapore; Singapore Institute for Clinical Sciences; National University Health System; National Research Foundation","keywords":"Psychopathology; Psychology; Depression (economics); Offspring; Early childhood; Developmental psychology; Maternal sensitivity; Longitudinal study; Language development; Clinical psychology; Child development; Pregnancy; Medicine","score_opus":0.013401057289883774,"score_gpt":0.2773126137201986,"score_spread":0.26391155643031483,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3148444750","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99889964,0.00039792547,0.0000055117334,0.00004312774,0.000053893447,0.0005302876,9.736233e-7,0.000014696091,0.000053950116],"genre_scores_gemma":[0.9991633,0.000017282631,0.0005118607,0.000105643056,0.000032859563,0.000048085665,0.0000123625905,0.000010962465,0.000097641605],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9989871,0.000051199284,0.00025664177,0.00032035317,0.00016054325,0.00022420876],"domain_scores_gemma":[0.9996941,0.0000131808865,0.00005749055,0.0001094739,0.000014545156,0.00011117752],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010504723,0.00012530676,0.00018932184,0.000056121607,0.00007246377,0.00001287577,0.000028051812,0.00004697139,0.000036044945],"category_scores_gemma":[0.0000091111115,0.00010416722,0.000008294584,0.0001299247,0.000027033599,0.00011036546,0.000069303525,0.00018273697,0.0000017571062],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025164775,0.00022709764,0.99490166,0.00008209574,0.0000074982713,0.0003258174,0.0030055393,0.0000057950324,0.000011606862,0.0000070297233,9.4419926e-7,0.0011732768],"study_design_scores_gemma":[0.0026424124,0.000211523,0.9934837,0.0022987584,0.00001287008,0.0005025139,0.00037524456,0.000015211286,0.0003368533,0.000007824438,0.000002335142,0.000110757166],"about_ca_topic_score_codex":0.00016562938,"about_ca_topic_score_gemma":0.00048694963,"teacher_disagreement_score":0.0026302948,"about_ca_system_score_codex":0.00004642043,"about_ca_system_score_gemma":0.00005692929,"threshold_uncertainty_score":0.4247816},"labels":[],"label_agreement":null},{"id":"W3155250027","doi":"10.1093/cercor/bhab111","title":"Corrigendum to: Pubertal testosterone and the structure of the cerebral cortex in young men","year":2021,"lang":"en","type":"erratum","venue":"Cerebral Cortex","topic":"Hormonal and reproductive studies","field":"Medicine","cited_by":1,"is_retracted":false,"has_abstract":false,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"","keywords":"Testosterone (patch); Cerebral cortex; Neuroscience; Psychology; Cortex (anatomy); Internal medicine; Endocrinology; Medicine","score_opus":0.012931183461132117,"score_gpt":0.24248877996609297,"score_spread":0.22955759650496085,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3155250027","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.7895905,0.01697584,0.0000027529043,0.012401086,0.047060747,0.0054818303,0.00057781127,0.000068960486,0.12784047],"genre_scores_gemma":[0.7632928,0.00018940719,0.000026403019,0.00040431414,0.001624811,0.000025447245,0.00016536901,0.000059981594,0.23421146],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.9970618,0.00018606767,0.0006472494,0.0008808688,0.0007156454,0.0005084001],"domain_scores_gemma":[0.99819,0.000055879973,0.00033398683,0.00096535136,0.00030551647,0.00014926364],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00020780787,0.00054177747,0.0014158406,0.00012361133,0.00020758607,0.000039450602,0.00038171787,0.00039335084,0.00023046912],"category_scores_gemma":[0.00047205074,0.0002670744,0.00028059518,0.0005726332,0.0008405105,0.000061981686,0.00077753497,0.0016171272,0.0000069903917],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012795778,0.00021478256,0.1789938,0.0010510073,0.001312809,0.00011021701,0.007500294,0.0000010513215,0.007126499,0.001103482,0.7984997,0.0028067678],"study_design_scores_gemma":[0.002375653,0.000239944,0.9795195,0.0006590067,0.00043781355,0.0002808997,0.0024956642,0.000029752267,0.00034073956,0.00038343124,0.0128695695,0.00036802655],"about_ca_topic_score_codex":0.0011072921,"about_ca_topic_score_gemma":0.0050028237,"teacher_disagreement_score":0.8005257,"about_ca_system_score_codex":0.00011838067,"about_ca_system_score_gemma":0.0004346161,"threshold_uncertainty_score":0.9999781},"labels":[],"label_agreement":null},{"id":"W3157448257","doi":"10.1093/cercor/bhab109","title":"Variability in Brain Structure and Function Reflects Lack of Peer Support","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Mila - Quebec Artificial Intelligence Institute; McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute on Aging; Medical Research Council; Natural Sciences and Engineering Research Council of Canada; Google; Canadian Institutes of Health Research; Centre Azrieli de recherche sur l'autisme, Institut et Hôpital Neurologiques de Montréal; National Institute of Mental Health; Vienna Science and Technology Fund; Deutsche Forschungsgemeinschaft; Government of Canada; Agence Nationale de la Recherche; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; Wellcome Trust; Biotechnology and Biological Sciences Research Council; Austrian Science Fund; Canada Research Chairs; University of Miami","keywords":"Psychology; Loneliness; Social neuroscience; Social support; Salience (neuroscience); Cognitive psychology; Distress; Perception; Developmental psychology; Social cognition; Neuroscience; Cognition; Clinical psychology; Social psychology","score_opus":0.04941166345972283,"score_gpt":0.3042797827549558,"score_spread":0.254868119295233,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3157448257","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9887596,0.000016271017,0.00009988989,0.006303077,0.00042680412,0.00012595151,0.000044267093,0.000030920182,0.0041932515],"genre_scores_gemma":[0.99460626,0.0000028324337,0.00008494558,0.0036415046,0.000054109496,0.0000043656796,0.000008797014,0.000010311858,0.001586906],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984967,0.00026580133,0.0002089205,0.0005354506,0.00030473855,0.00018840564],"domain_scores_gemma":[0.99741894,0.0020800142,0.00006988164,0.00024865812,0.00013604766,0.00004647923],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00037280913,0.000121242636,0.00021712415,0.00005996919,0.00007069211,0.000020670072,0.00006843161,0.000079345315,0.00047826083],"category_scores_gemma":[0.014924257,0.000117757336,0.000039118764,0.00040882046,0.00013885321,0.00017300117,0.0001345431,0.00020200043,0.000007243235],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019335403,0.00013510523,0.1590119,0.00013406681,0.000017092498,0.000044134373,0.0004876241,0.000022222619,0.8088505,0.01561771,0.011611481,0.0038748023],"study_design_scores_gemma":[0.00073006237,0.00020143943,0.8290881,0.0000143404595,0.000013593683,0.000055441786,0.000107300446,0.00021186807,0.1334214,0.029596133,0.0063696937,0.00019061567],"about_ca_topic_score_codex":0.000019354089,"about_ca_topic_score_gemma":0.00023967082,"teacher_disagreement_score":0.6754291,"about_ca_system_score_codex":0.00004985838,"about_ca_system_score_gemma":0.00011368195,"threshold_uncertainty_score":0.99337345},"labels":[],"label_agreement":null},{"id":"W3159779018","doi":"10.1093/cercor/bhab101","title":"Individual-Specific Areal-Level Parcellations Improve Functional Connectivity Prediction of Behavior","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":268,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Center for Research Resources; National Institute of Mental Health; Ministry of Defense; National Institute on Aging; National Research Foundation; National Institutes of Health; National University of Singapore; National Institute of Biomedical Imaging and Bioengineering; George Washington University; National Research Foundation Singapore; Massachusetts General Hospital","keywords":"Functional connectivity; Computer science; Biology; Neuroscience","score_opus":0.10596006391830477,"score_gpt":0.26723212644498257,"score_spread":0.1612720625266778,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3159779018","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98799664,0.00009773578,0.002131724,0.0007886394,0.0020910478,0.00037133662,0.001786562,0.00015227811,0.004584033],"genre_scores_gemma":[0.997329,0.000026102656,0.00020565903,0.0004752825,0.00029122585,0.000101474085,0.0001087475,0.000027428892,0.0014350542],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9976386,0.00018768603,0.0003929362,0.00081057736,0.0006562601,0.0003139762],"domain_scores_gemma":[0.9967632,0.0021783214,0.00020376257,0.00043792144,0.00031313693,0.000103648796],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00020865306,0.00022573731,0.00029721664,0.00013149445,0.00041044995,0.000055278655,0.0001476623,0.00011907707,0.0009464012],"category_scores_gemma":[0.0018094125,0.00023902455,0.00017779421,0.0005787058,0.00026608218,0.0003345061,0.00021449965,0.0002956664,0.0000746666],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009036613,0.0007292778,0.08245193,0.000037164384,0.00006019199,0.000033649558,0.00022321806,0.00007822255,0.8798137,0.016183756,0.0144344,0.0058641694],"study_design_scores_gemma":[0.00069894333,0.0001370238,0.82038474,0.000013415921,0.00005376727,0.00006400765,0.0002040624,0.00016735708,0.17331193,0.0012969492,0.0034842158,0.00018355335],"about_ca_topic_score_codex":0.000023478317,"about_ca_topic_score_gemma":0.00006199718,"teacher_disagreement_score":0.73793286,"about_ca_system_score_codex":0.00011140374,"about_ca_system_score_gemma":0.00019863065,"threshold_uncertainty_score":0.99996686},"labels":[],"label_agreement":null},{"id":"W3164065059","doi":"10.1093/cercor/bhab063","title":"The Microstructural Plasticity of the Arcuate Fasciculus Undergirds Improved Speech in Noise Perception in Musicians","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"International Laboratory for Brain, Music and Sound Research; Centre for Research on Brain Language and Music; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; National Natural Science Foundation of China","keywords":"Arcuate fasciculus; Speech perception; Perception; Plasticity; Noise (video); Psychology; Neuroscience; Audiology; Computer science; Diffusion MRI; Tractography; Medicine; Physics; Magnetic resonance imaging; Artificial intelligence","score_opus":0.018798029667881903,"score_gpt":0.25307740587186234,"score_spread":0.23427937620398043,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3164065059","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99737287,0.0000034673428,0.00002111199,0.0007137868,0.00090746884,0.0002557606,0.000014013618,0.000017440518,0.0006940699],"genre_scores_gemma":[0.9981365,0.000029332292,0.000021368609,0.0012151698,0.000054511984,0.0000080385535,0.0000013717447,0.000010870977,0.0005227944],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99829507,0.00022364092,0.00033361843,0.00046218105,0.00029779912,0.00038770525],"domain_scores_gemma":[0.9993407,0.00012721404,0.00011790774,0.00032913729,0.00004137495,0.00004366353],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015336557,0.00014598461,0.00015936216,0.00006049404,0.00023350577,0.00008091452,0.00042237816,0.000067896086,0.000055504373],"category_scores_gemma":[0.0004776104,0.00009180648,0.00009330285,0.00082930375,0.0004100652,0.0002164963,0.00020813625,0.00034179038,0.000012547825],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000261243,0.00003780923,0.0031035042,0.0000072130583,3.7879073e-7,0.000013803136,0.00047161456,0.000030444915,0.9917407,0.0001812028,0.000049979157,0.0043372237],"study_design_scores_gemma":[0.0004412123,0.000035662302,0.8027478,0.000027123038,0.0000044015383,0.00005451651,0.00060016045,0.0033954699,0.19183303,0.00064447406,0.00010177198,0.000114389004],"about_ca_topic_score_codex":0.0002590319,"about_ca_topic_score_gemma":0.004522204,"teacher_disagreement_score":0.7999077,"about_ca_system_score_codex":0.00012150088,"about_ca_system_score_gemma":0.0001614115,"threshold_uncertainty_score":0.37437597},"labels":[],"label_agreement":null},{"id":"W3164382304","doi":"10.1093/cercor/bhab130","title":"Resting-State Network Alterations Differ between Alzheimer’s Disease Atrophy Subtypes","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation; Hospital for Sick Children; University of Toronto","funders":"National Institute on Aging; University of California, San Diego; National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; University of California, Los Angeles; Genentech; National Institutes of Health; Deutsches Zentrum für Neurodegenerative Erkrankungen; H. Lundbeck A/S; Servier; Eisai; Northern California Institute for Research and Education; Pfizer; Biogen; BioClinica; Takeda Pharmaceutical Company; Medpace; AstraZeneca; Eli Lilly and Company; Bristol-Myers Squibb; Novartis Pharmaceuticals Corporation; F. Hoffmann-La Roche; Alzheimer's Association; Amorfix Life Sciences; Alzheimer's Drug Discovery Foundation; Synarc; Bayer HealthCare; Alzheimer's Disease Neuroimaging Initiative; Meso Scale Diagnostics","keywords":"Atrophy; Default mode network; Dementia; Neuroscience; Neuroimaging; Biomarker; Resting state fMRI; Alzheimer's disease; Task-positive network; Cognition; Psychology; Disease; Medicine; Pathology; Biology","score_opus":0.055049438628783226,"score_gpt":0.27855938659004864,"score_spread":0.22350994796126541,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3164382304","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9839895,0.00065464614,0.0006646681,0.010085287,0.0012159694,0.00028769442,0.00017330966,0.0002856953,0.0026432506],"genre_scores_gemma":[0.99289423,0.000022915452,0.00021954357,0.0039884513,0.0009099378,0.000033484313,0.000039589348,0.000034539913,0.0018573261],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9979922,0.00023288444,0.00025305848,0.0007335017,0.00034314307,0.00044519838],"domain_scores_gemma":[0.9966939,0.00244905,0.00008953619,0.0004362448,0.00011038156,0.00022086334],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008999021,0.00021831329,0.00024389113,0.000043598047,0.00067361945,0.000133461,0.00018124982,0.000036790985,0.00019439866],"category_scores_gemma":[0.0032868164,0.00021275996,0.00013503854,0.00048586293,0.00016205484,0.00023236293,0.00025435307,0.00022948977,0.00027334446],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002368828,0.00027736163,0.83045137,0.000059481026,0.0002538531,0.0007553696,0.00036493162,0.0027030702,0.025288783,0.016857637,0.11523792,0.0075133485],"study_design_scores_gemma":[0.00041197875,0.00008034989,0.9593146,0.00003679979,0.0001427513,0.000012928479,0.000013187562,0.0008377215,0.008034439,0.01478344,0.01591422,0.00041757445],"about_ca_topic_score_codex":0.000013910399,"about_ca_topic_score_gemma":0.000056816174,"teacher_disagreement_score":0.12886325,"about_ca_system_score_codex":0.000039194154,"about_ca_system_score_gemma":0.00014226927,"threshold_uncertainty_score":0.8676099},"labels":[],"label_agreement":null},{"id":"W3165485765","doi":"10.1093/cercor/bhab142","title":"Cross-Diagnosis Structural Correlates of Autistic-Like Social Communication Differences","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; McMaster University; Queen's University; University of Calgary; Hospital for Sick Children; Holland Bloorview Kids Rehabilitation Hospital; SickKids Foundation; University of Toronto","funders":"Ontario Brain Institute","keywords":"Association (psychology); Psychology; Autism; Autism spectrum disorder; Developmental psychology; Social communication; Clinical psychology","score_opus":0.04283499930461363,"score_gpt":0.33058831580203135,"score_spread":0.2877533164974177,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3165485765","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9948022,0.0002710257,0.000035721267,0.0015152472,0.00024249333,0.00015695664,0.00008218323,0.000075069765,0.002819133],"genre_scores_gemma":[0.9984635,0.00009859423,0.00009122567,0.0001427922,0.000027087783,0.00002625574,0.00002610799,0.000020694471,0.0011037202],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981106,0.00027726407,0.0003391737,0.00041752926,0.0004757826,0.000379654],"domain_scores_gemma":[0.9988902,0.0003714073,0.00016904999,0.0004511588,0.000051570507,0.00006661669],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00008624734,0.00016173723,0.0002718238,0.00006634043,0.00048352755,0.00014521129,0.0006342076,0.0001111598,0.0029100182],"category_scores_gemma":[0.0004278247,0.00015557487,0.0001063964,0.0004732453,0.00066459953,0.00022997541,0.00043243554,0.000355865,0.00008113731],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000047236696,0.00012745557,0.82085806,0.00006284435,0.000018349267,0.000028957913,0.0012102163,0.000004755541,0.011639428,0.1611969,0.00044437937,0.0043614353],"study_design_scores_gemma":[0.00044199696,0.00005516414,0.94304353,0.000019718453,0.000013239292,0.000019829327,0.00009535844,0.0012903124,0.029555153,0.02514212,0.00014075045,0.00018283767],"about_ca_topic_score_codex":0.00011203654,"about_ca_topic_score_gemma":0.00017442692,"teacher_disagreement_score":0.13605478,"about_ca_system_score_codex":0.00005102476,"about_ca_system_score_gemma":0.00014040893,"threshold_uncertainty_score":0.99800146},"labels":[],"label_agreement":null},{"id":"W3166951550","doi":"10.1093/cercor/bhab156","title":"Brain Dynamics Underlying Cognitive Flexibility Across the Lifespan","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":106,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Mental Health; Canadian Institute for Advanced Research; University of Miami","keywords":"Cognitive flexibility; Neurocognitive; Cognition; Flexibility (engineering); Psychology; Executive functions; Cognitive decline; Resting state fMRI; Cognitive psychology; Neuroscience; Developmental psychology; Medicine","score_opus":0.08737991120542934,"score_gpt":0.34457150624887556,"score_spread":0.25719159504344624,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3166951550","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.96189845,0.000074985444,0.0012991781,0.027959062,0.000839333,0.00027491976,0.00016360874,0.00016743688,0.007323038],"genre_scores_gemma":[0.97550255,0.000004845248,0.000025605352,0.020805283,0.000118775766,0.00002830325,0.0000137331335,0.00002358608,0.0034772898],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.9977592,0.00038390612,0.00021823276,0.00079162786,0.0003850047,0.00046197794],"domain_scores_gemma":[0.98881227,0.010417655,0.000091844406,0.00042768221,0.00016881786,0.00008175173],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00038558277,0.0002012875,0.00021179445,0.00002009858,0.0010164252,0.00016539005,0.00024903117,0.00007256388,0.00015439684],"category_scores_gemma":[0.022601653,0.00015926972,0.00014085567,0.00053205795,0.0004988392,0.00023021644,0.00033171245,0.00039061173,0.0001692836],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013151172,0.0022390762,0.23125249,0.00047298655,0.000655905,0.0012482724,0.02245545,0.00043722076,0.23476209,0.25300092,0.045727693,0.20643279],"study_design_scores_gemma":[0.0024297934,0.00037158703,0.85132277,0.00012853873,0.00007988845,0.0004521644,0.024225121,0.016445486,0.061083224,0.0328811,0.009346823,0.0012334785],"about_ca_topic_score_codex":0.000043618547,"about_ca_topic_score_gemma":0.0014969689,"teacher_disagreement_score":0.62007034,"about_ca_system_score_codex":0.00016021226,"about_ca_system_score_gemma":0.00015119181,"threshold_uncertainty_score":0.9856314},"labels":[],"label_agreement":null},{"id":"W3167295874","doi":"10.1093/cercor/bhab132","title":"Differences in Rhythmic Neural Activity Supporting the Temporal and Spatial Cueing of Attention","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute on Drug Abuse; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; National Institute on Aging; National Institutes of Health","keywords":"Magnetoencephalography; Psychology; Cognitive psychology; Orienting response; Attentional control; Anterior cingulate cortex; Dissociation (chemistry); Neuroscience; Electroencephalography; Cognition; Habituation","score_opus":0.09780268621122148,"score_gpt":0.3420524030787056,"score_spread":0.24424971686748412,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3167295874","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982465,0.000032833374,0.00001088095,0.001108098,0.0003078127,0.00011985185,0.000006303944,0.000018272207,0.00014945139],"genre_scores_gemma":[0.9995645,0.000012260054,0.0000060736857,0.00015653617,0.00004143315,0.000006514014,0.0000010524043,0.000005420877,0.00020619543],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99895006,0.00016001199,0.00021145254,0.00033248,0.000135548,0.00021044535],"domain_scores_gemma":[0.99959314,0.00009391776,0.00013818697,0.0001273566,0.000020018007,0.000027370574],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000088996836,0.0001088463,0.00019628817,0.000032850276,0.00013510647,0.000025518862,0.00009175782,0.00003803777,0.000037362093],"category_scores_gemma":[0.000098772696,0.000071883034,0.000050378567,0.00018451634,0.00023780008,0.00014214113,0.0001382018,0.0002013796,0.000002506833],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001982553,0.00003773513,0.5293098,0.000008346164,0.0000011776665,0.000047385405,0.00007812319,1.03216664e-7,0.45771664,0.000018314837,0.000008459267,0.012754072],"study_design_scores_gemma":[0.0002545928,0.00006803786,0.91773653,0.000014899448,0.000008537391,0.000055566456,0.00014763586,0.00034258113,0.081103586,0.00018279906,0.0000059758186,0.000079278245],"about_ca_topic_score_codex":0.00025981426,"about_ca_topic_score_gemma":0.00053622713,"teacher_disagreement_score":0.3884267,"about_ca_system_score_codex":0.0000075847,"about_ca_system_score_gemma":0.000013668802,"threshold_uncertainty_score":0.29313052},"labels":[],"label_agreement":null},{"id":"W3168594876","doi":"10.1093/cercor/bhab147","title":"Classification of Cortical Neurons by Spike Shape and the Identification of Pyramidal Neurons","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":48,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Biotechnology and Biological Sciences Research Council; National Institute of Neurological Disorders and Stroke; Medical Research Council; National Institutes of Health; Medical Research Council Canada; Wellcome Trust","keywords":"Neuroscience; Antidromic; Spike (software development); Optogenetics; Pyramidal cell; Electrophysiology; Pyramidal tracts; Biology; Nerve net; Computer science; Hippocampus","score_opus":0.02419811431111388,"score_gpt":0.2547826427344705,"score_spread":0.2305845284233566,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3168594876","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99661547,0.00004629911,0.00028975605,0.001939372,0.0003212273,0.00018971838,0.00005372648,0.000022321952,0.00052208744],"genre_scores_gemma":[0.9987261,0.00004876221,0.0000073621254,0.0004920478,0.000022424942,0.00000841012,0.000018537105,0.000012135845,0.0006641993],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986089,0.00021608916,0.0004445982,0.00034796956,0.00024352898,0.00013889968],"domain_scores_gemma":[0.99895346,0.0003431868,0.0002574108,0.0003135412,0.00008288047,0.000049546325],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015924392,0.00009859914,0.00017101546,0.000033612218,0.000121490346,0.000051224026,0.00015309248,0.00004840333,0.000064277636],"category_scores_gemma":[0.00077356107,0.00007555093,0.00007083937,0.00028776051,0.0005662413,0.00012236119,0.00007926176,0.00017519674,0.000006443096],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000052933756,0.0000662843,0.001320546,0.000018132836,0.0000026276814,0.0000016994559,0.00003545856,0.0000043699156,0.9588316,0.036855783,0.00030579497,0.0025047844],"study_design_scores_gemma":[0.0010931265,0.00012252947,0.4936207,0.000012249855,0.00006714038,0.00005483517,0.00009479772,0.14938043,0.352103,0.0025360351,0.0007580184,0.00015713758],"about_ca_topic_score_codex":0.000008779333,"about_ca_topic_score_gemma":0.000005590437,"teacher_disagreement_score":0.6067286,"about_ca_system_score_codex":0.0000090215135,"about_ca_system_score_gemma":0.000036205667,"threshold_uncertainty_score":0.30808777},"labels":[],"label_agreement":null},{"id":"W3177123537","doi":"10.1093/cercor/bhab149","title":"Structural Connectivity Gradients of the Temporal Lobe Serve as Multiscale Axes of Brain Organization and Cortical Evolution","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":52,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; McGill University; Montreal Neurological Institute and Hospital","funders":"European Research Council; National Institutes of Health; Canadian Institutes of Health Research; Sick Kids Foundation; Wellcome Trust; Western Washington University; Neuroscience Nursing Foundation; Autism Research Foundation; Fondation Brain Canada; Office of International Science and Engineering; Epilepsy Foundation","keywords":"Temporal lobe; Neuroscience; Functional connectivity; Cortex (anatomy); Temporal cortex; Cognition; Neuroimaging; Functional magnetic resonance imaging; Primate; Brain mapping; Biology; Epilepsy","score_opus":0.018673881823979485,"score_gpt":0.24580692006517268,"score_spread":0.22713303824119319,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3177123537","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99736166,0.000046633064,0.00012394607,0.0015580321,0.0004680007,0.0001958166,0.000055725563,0.000027984783,0.00016221264],"genre_scores_gemma":[0.9992689,0.0000025327545,0.000045447003,0.0003878076,0.000037487414,0.0000025623517,0.0000059177605,0.000013329998,0.00023600445],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985587,0.00030216272,0.00024622752,0.0003977186,0.00032613653,0.00016903473],"domain_scores_gemma":[0.99780136,0.0014851729,0.00017436553,0.00024920053,0.00023963745,0.00005023384],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.000115316,0.00013265572,0.00023217597,0.000036347235,0.00024575097,0.000017896838,0.00012691415,0.00006546144,0.000077778444],"category_scores_gemma":[0.014499935,0.00010484164,0.000062485335,0.00057703553,0.00042157204,0.0002057188,0.0002767214,0.00015280346,0.000003660265],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000038192637,0.000069275986,0.62616473,0.000051578227,0.00001696124,0.0000043275218,0.0002896389,0.00002245119,0.3581309,0.014732265,0.00028374972,0.00019590132],"study_design_scores_gemma":[0.00045434528,0.000091222784,0.7921515,0.000020823667,0.00001763046,0.00006968577,0.00016699098,0.0009872309,0.20286535,0.0030575914,0.000022076581,0.0000955618],"about_ca_topic_score_codex":0.00015146662,"about_ca_topic_score_gemma":0.0003038268,"teacher_disagreement_score":0.16598675,"about_ca_system_score_codex":0.00006100717,"about_ca_system_score_gemma":0.000108153894,"threshold_uncertainty_score":0.99380136},"labels":[],"label_agreement":null},{"id":"W3177866527","doi":"10.1093/cercor/bhab192","title":"Phase Resetting in the Anterior Cingulate Cortex Subserves Childhood Attention and Is Impaired by Epilepsy","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"SickKids Foundation; Canada Research Chairs; Hospital for Sick Children; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Default mode network; Anterior cingulate cortex; Stimulus (psychology); Epilepsy; Psychology; Dorsum; Cognition; Cognitive psychology; Medicine; Anatomy","score_opus":0.01872963310746641,"score_gpt":0.26797141777279143,"score_spread":0.249241784665325,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3177866527","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967126,0.00017093473,0.000026381394,0.002210834,0.00026054925,0.00024840326,0.000061981176,0.000044494347,0.0002637982],"genre_scores_gemma":[0.9967782,0.000089452595,0.00001603277,0.0025607538,0.000064004686,0.000010527845,0.000031265194,0.000018997536,0.0004308025],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99834704,0.00022387787,0.00031028362,0.0005569221,0.00024184462,0.00032001175],"domain_scores_gemma":[0.9993726,0.0001190725,0.00012661093,0.00028622625,0.000030549334,0.000064959866],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00023371735,0.0001669834,0.00018830536,0.0000571563,0.00025134915,0.00021002287,0.00017417101,0.00006379655,0.00008461461],"category_scores_gemma":[0.00019963134,0.00013049974,0.000082636136,0.00042014592,0.00008093642,0.00027287644,0.00009278442,0.00024118036,0.000012576984],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000038316633,0.00028720332,0.013332333,0.000018531451,0.0000043741834,0.0000999937,0.00044123127,3.0264397e-7,0.97233605,0.00016738706,0.00086899474,0.012405307],"study_design_scores_gemma":[0.0033064538,0.00048547602,0.93869424,0.0001269465,0.000027230522,0.00035163306,0.00050832576,0.009091977,0.04514141,0.0014260939,0.00047589323,0.00036430536],"about_ca_topic_score_codex":0.000053189375,"about_ca_topic_score_gemma":0.000073690375,"teacher_disagreement_score":0.9271946,"about_ca_system_score_codex":0.000021932572,"about_ca_system_score_gemma":0.00002615431,"threshold_uncertainty_score":0.5321625},"labels":[],"label_agreement":null},{"id":"W3179639426","doi":"10.1093/cercor/bhab224","title":"The Orphan GPCR Receptor, GPR88, Interacts with Nuclear Protein Partners in the Cerebral Cortex","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Receptor Mechanisms and Signaling","field":"Biochemistry, Genetics and Molecular Biology","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Centre National de la Recherche Scientifique","keywords":"Cell biology; Nuclear localization sequence; Subcellular localization; Proximity ligation assay; Nuclear transport; Nucleus accumbens; Nuclear membrane; G protein-coupled receptor; Orphan receptor; Biology; Medium spiny neuron; Chemistry; Neuroscience; Cell nucleus; Receptor; Nucleus; Cytoplasm; Biochemistry; Gene; Central nervous system; Transcription factor; Basal ganglia; Signal transduction","score_opus":0.010109437515217671,"score_gpt":0.2426600732236767,"score_spread":0.23255063570845902,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3179639426","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9946509,0.00039568913,0.00011377736,0.00093242485,0.0002781132,0.00042158115,0.000009231888,0.000020312724,0.0031779802],"genre_scores_gemma":[0.995785,0.00006214348,0.00046657943,0.00097609643,0.0002849869,0.000055244203,0.0001218324,0.000050197956,0.002197917],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981255,0.00025820843,0.0003105344,0.00052402285,0.00028796447,0.0004937803],"domain_scores_gemma":[0.9989899,0.00003074589,0.00013499851,0.0006189085,0.00012249559,0.00010298657],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00035587835,0.00026167757,0.00020254441,0.00002600439,0.00030481417,0.00021100322,0.0004887333,0.00015711295,0.0004921456],"category_scores_gemma":[0.000092890994,0.00015438824,0.00012571216,0.00022771994,0.00012835095,0.000014632248,0.00015315987,0.00032390968,0.00006209027],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003097111,0.00011895955,0.00085679785,0.000019535335,0.00009124791,0.00004704545,0.0004972366,0.000013207895,0.9840072,0.0038558927,0.005537025,0.0046461686],"study_design_scores_gemma":[0.0026724376,0.0016410872,0.007880425,0.00022501583,0.00006087538,0.00022105365,0.008084033,0.00034842562,0.6254838,0.00082821416,0.35148826,0.0010663663],"about_ca_topic_score_codex":0.000044661178,"about_ca_topic_score_gemma":0.0004185393,"teacher_disagreement_score":0.35852337,"about_ca_system_score_codex":0.000028574119,"about_ca_system_score_gemma":0.00016073503,"threshold_uncertainty_score":0.629577},"labels":[],"label_agreement":null},{"id":"W3180500461","doi":"10.1093/cercor/bhab215","title":"Person-Based Similarity Index for Cognition and Its Neural Correlates in Late Adulthood: Implications for Cognitive Reserve","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute on Drug Abuse; National Institute on Aging; National Institute of Mental Health; Biotechnology and Biological Sciences Research Council","keywords":"Cognitive reserve; Cognition; Similarity (geometry); Index (typography); Psychology; Neural correlates of consciousness; Cognitive psychology; Neuroscience; Computer science; Artificial intelligence; Cognitive impairment","score_opus":0.0777081011160319,"score_gpt":0.30837736726708503,"score_spread":0.23066926615105315,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3180500461","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97942793,0.00017813261,0.0008610097,0.016805781,0.00020570756,0.0011987604,0.0010313024,0.00006789244,0.00022346208],"genre_scores_gemma":[0.9943858,0.000009914066,0.00007712842,0.004586496,0.000057699548,0.0005596767,0.000109945315,0.000023532162,0.00018985075],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9986431,0.00010500871,0.00018650768,0.00065217004,0.00011020897,0.00030298054],"domain_scores_gemma":[0.9914231,0.007905217,0.00009249585,0.00011354732,0.00039225555,0.00007343411],"candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.00014518877,0.00016662973,0.00021437093,0.00009099242,0.00039000812,0.000055836714,0.00007926577,0.0000924199,0.000021261843],"category_scores_gemma":[0.014246238,0.0001787128,0.00009105254,0.00030957107,0.00009900071,0.00022771499,0.00005436413,0.0001833049,0.0000040492964],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.005641666,0.001907035,0.61791724,0.0013704167,0.00021324748,0.000061669016,0.0035346972,0.0008173959,0.32825333,0.015393505,0.009658448,0.015231341],"study_design_scores_gemma":[0.0064147282,0.00052011496,0.7731882,0.00014003633,0.00010336171,0.000019950689,0.000730196,0.16119194,0.04720416,0.009720583,0.00024847357,0.0005182808],"about_ca_topic_score_codex":0.00003535281,"about_ca_topic_score_gemma":0.0012930462,"teacher_disagreement_score":0.28104916,"about_ca_system_score_codex":0.000055421522,"about_ca_system_score_gemma":0.00016144577,"threshold_uncertainty_score":0.9940572},"labels":[],"label_agreement":null},{"id":"W3181459544","doi":"10.1093/cercor/bhab222","title":"Cerebellar Continuous Theta Burst Stimulation Facilitates Auditory–Vocal Integration in Spinocerebellar Ataxia","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic Neurodegenerative Diseases","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China; Guangdong Provincial Translational Medicine Innovation Platform for Diagnosis and Treatment of Major Neurological Disease","keywords":"Cerebellum; Spinocerebellar ataxia; Neuroscience; Stimulation; Transcranial magnetic stimulation; Psychology; Ataxia; Audiology; Motor control; Medicine","score_opus":0.026635685372280057,"score_gpt":0.26565452621741853,"score_spread":0.23901884084513847,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3181459544","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99498755,0.00022161075,0.00078594836,0.0003068436,0.00091918977,0.00042909576,0.00011554542,0.00011541351,0.0021188306],"genre_scores_gemma":[0.9959808,0.00004217754,0.00017693407,0.00056023325,0.00020302458,0.000027686932,0.00010023473,0.000040351555,0.0028685364],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99701047,0.0005042665,0.0005042227,0.001006046,0.00049160386,0.00048337493],"domain_scores_gemma":[0.99868906,0.00023527777,0.00014798321,0.0005692579,0.00018230896,0.00017609366],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0001236846,0.0003398626,0.00036725512,0.00013876938,0.0001965255,0.00015468679,0.00030125125,0.0001231172,0.00062157185],"category_scores_gemma":[0.001147445,0.00033398342,0.000140487,0.0005792237,0.00018655756,0.00027613252,0.00014678841,0.00029065696,0.00043010965],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000061924155,0.00025234712,0.028447177,0.000030280664,0.000006430454,0.00012301857,0.0003293746,0.0012676795,0.9622651,0.0011388059,0.0014189137,0.004658959],"study_design_scores_gemma":[0.0009658894,0.00015347869,0.21154079,0.000048230915,0.00002599833,0.000025517287,0.0002826889,0.0055482574,0.777649,0.0015092872,0.0018279864,0.00042287091],"about_ca_topic_score_codex":0.000036947567,"about_ca_topic_score_gemma":0.00015257283,"teacher_disagreement_score":0.18461607,"about_ca_system_score_codex":0.00010692085,"about_ca_system_score_gemma":0.00017868071,"threshold_uncertainty_score":0.99991125},"labels":[],"label_agreement":null},{"id":"W3184542634","doi":"10.1093/cercor/bhab246","title":"Pain, No Gain: Acute Pain Interrupts Motor Imagery Processes and Affects Mental Training-Induced Plasticity","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sport Psychology and Performance","field":"Psychology","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"Agence Nationale de la Recherche","keywords":"Transcranial magnetic stimulation; Neuroplasticity; Motor imagery; Physical medicine and rehabilitation; Psychology; Neuroscience; Facilitation; Thumb; Rehabilitation; Medicine; Physical therapy; Stimulation; Electroencephalography; Brain–computer interface; Anatomy","score_opus":0.03286250447952254,"score_gpt":0.3067436878341965,"score_spread":0.27388118335467393,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3184542634","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98510534,0.0003423555,0.00040133265,0.0004249881,0.0018113229,0.000275595,0.000049562845,0.00014701005,0.011442511],"genre_scores_gemma":[0.99049467,0.00002710008,0.00017442857,0.004533341,0.00039471278,0.00007236805,0.00009656313,0.00003920746,0.0041676015],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9980027,0.00031844754,0.00028471756,0.0006906172,0.00015012332,0.00055338815],"domain_scores_gemma":[0.998883,0.00037602792,0.00013868722,0.0002920802,0.00011879665,0.00019137585],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0006397874,0.00029990904,0.0003729603,0.000085216896,0.00018450846,0.000049470957,0.00018903668,0.000257856,0.003247112],"category_scores_gemma":[0.0003348912,0.00028851823,0.00008180956,0.00024680496,0.00016466531,0.00019404654,0.0000724977,0.00041788205,0.0003125031],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00447439,0.0020083108,0.3639136,0.0011183923,0.00243413,0.0046742735,0.038395353,8.2692407e-7,0.1086978,0.0008494107,0.2759686,0.19746491],"study_design_scores_gemma":[0.006340725,0.00391178,0.94611454,0.0005113484,0.00026932696,0.0015900875,0.006316376,0.00091418705,0.0049025053,0.00040516304,0.026821136,0.0019028418],"about_ca_topic_score_codex":0.000014180174,"about_ca_topic_score_gemma":0.00006870346,"teacher_disagreement_score":0.58220094,"about_ca_system_score_codex":0.000028904995,"about_ca_system_score_gemma":0.000116274976,"threshold_uncertainty_score":0.99995667},"labels":[],"label_agreement":null},{"id":"W3186072849","doi":"10.1093/cercor/bhab131","title":"Symptom-Related Differential Neuroimaging Biomarkers in Children with Corpus Callosum Abnormalities","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Fetal and Pediatric Neurological Disorders","field":"Medicine","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"St. Francis Xavier University","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health","keywords":"Corpus callosum; Gyrification; White matter; Neuroimaging; Dysgenesis; Medicine; Abnormality; Diffusion MRI; Magnetic resonance imaging; Fractional anisotropy; Brain size; Differential diagnosis; Internal medicine; Audiology; Pathology; Epilepsy; Psychology; Radiology; Psychiatry; Anatomy","score_opus":0.0074802698735338445,"score_gpt":0.21445029385694447,"score_spread":0.20697002398341063,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3186072849","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9929788,0.0005711673,0.000012234225,0.00091539184,0.00018328599,0.00025812513,0.000016099184,0.00011175893,0.004953099],"genre_scores_gemma":[0.9977495,0.000117879776,0.00002934145,0.00096104125,0.000065670436,0.0000093645995,0.00016790887,0.000026559184,0.00087274186],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985498,0.000080189784,0.00029045023,0.00042773635,0.0002516659,0.00040016032],"domain_scores_gemma":[0.9994545,0.00004387376,0.00006396386,0.00023102733,0.000044275825,0.00016237015],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00003923144,0.00021798813,0.00033186493,0.00010480182,0.000060153674,0.00003072371,0.00008967367,0.000095928655,0.0007643713],"category_scores_gemma":[0.000040953677,0.00016336761,0.00010800705,0.00036974892,0.00015001358,0.00008655097,0.0000788001,0.00036927225,0.000038975133],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002300736,0.00018603566,0.9948367,0.000029194793,0.0001495003,0.00042011536,0.000058132497,0.0000043277164,0.001286336,0.00018778337,0.0002728005,0.002339023],"study_design_scores_gemma":[0.0028925235,0.00030142558,0.9949865,0.000025950163,0.00010480414,0.0006722602,0.000061303734,0.00025304736,0.00018210137,0.00019000242,0.00012598313,0.0002041298],"about_ca_topic_score_codex":0.00018594028,"about_ca_topic_score_gemma":0.000049983693,"teacher_disagreement_score":0.0047706543,"about_ca_system_score_codex":0.000022476263,"about_ca_system_score_gemma":0.000094948235,"threshold_uncertainty_score":0.836933},"labels":[],"label_agreement":null},{"id":"W3187005872","doi":"10.1093/cercor/bhab167","title":"Microstimulation of the Premotor Cortex of the Cat Produces Phase-Dependent Changes in Locomotor Activity","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Canadian Institutes of Health Research","keywords":"Microstimulation; Premotor cortex; Neuroscience; Cortex (anatomy); Motor cortex; Psychology; Anatomy; Biology; Dorsum; Stimulation","score_opus":0.029849737237119294,"score_gpt":0.2727333728076565,"score_spread":0.24288363557053724,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3187005872","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99748987,0.000028370428,0.000041484684,0.001006533,0.00047393746,0.0007447682,0.000050140912,0.000013172979,0.0001517458],"genre_scores_gemma":[0.9988943,0.000007452602,0.00001898291,0.00014921914,0.000055581524,0.000017048065,0.000001584534,0.000010962333,0.00084490667],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9986925,0.00026228288,0.00022401054,0.00032070754,0.00033681863,0.00016366475],"domain_scores_gemma":[0.9990583,0.000114433045,0.00030210006,0.00041522697,0.00008321141,0.00002673531],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001351731,0.00011553462,0.00018973082,0.000035063167,0.00008943309,0.000019046947,0.00028686895,0.00005179477,0.000058405734],"category_scores_gemma":[0.00041164545,0.00007231846,0.00008669105,0.0003386421,0.00011552053,0.00012739291,0.0001227449,0.000114361086,0.0000024625876],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000071055765,0.00021673701,0.006535829,0.000040547024,0.000003269389,0.0000013785551,0.00034749258,0.000050031093,0.98829293,0.00008287466,0.000009427506,0.0043484294],"study_design_scores_gemma":[0.0006847877,0.000045131263,0.35890403,0.000038022255,0.000010520795,0.0000035754172,0.000029859402,0.0035167073,0.63657135,0.000070915456,0.000071873335,0.000053246622],"about_ca_topic_score_codex":0.00013720081,"about_ca_topic_score_gemma":0.00092350616,"teacher_disagreement_score":0.3523682,"about_ca_system_score_codex":0.00004471319,"about_ca_system_score_gemma":0.00013317914,"threshold_uncertainty_score":0.2949061},"labels":[],"label_agreement":null},{"id":"W3189931286","doi":"10.1093/cercor/bhab216","title":"Sleep Enhances Consolidation of Memory Traces for Complex Problem-Solving Skills","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and Wakefulness Research","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Royal Ottawa Mental Health Centre; University of Ottawa","funders":"Luonnontieteiden ja Tekniikan Tutkimuksen Toimikunta; Ontario Ministry of Research, Innovation and Science","keywords":"Memory consolidation; Nap; Wakefulness; Sleep (system call); Psychology; Task (project management); Cognition; Procedural memory; Cognitive psychology; Effects of sleep deprivation on cognitive performance; Sleep deprivation; Prefrontal cortex; Neuroscience; Computer science; Hippocampus; Electroencephalography","score_opus":0.049362254463740395,"score_gpt":0.3194993123406691,"score_spread":0.2701370578769287,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3189931286","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98472774,0.00010325963,0.0034783948,0.00035089298,0.00026364333,0.0005176,0.00006601581,0.000054610064,0.010437847],"genre_scores_gemma":[0.9973095,0.00002130003,0.001239829,0.00020664571,0.00008777954,0.00005693172,0.00002630268,0.000017497678,0.0010342207],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984692,0.00013099246,0.00030711503,0.0004163448,0.00034216585,0.0003341848],"domain_scores_gemma":[0.9987454,0.0005985487,0.00013358565,0.00024414322,0.0001990795,0.000079258476],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017948428,0.00012259303,0.00023793812,0.00007626773,0.00018712523,0.00007144365,0.00025426774,0.00006046931,0.00074835465],"category_scores_gemma":[0.00070893427,0.00011222795,0.00009855079,0.00032496444,0.00019228406,0.0002480535,0.00008188204,0.00011086742,0.000028238945],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003399354,0.00016795035,0.0005491852,0.0001309459,0.000011129291,0.000007800571,0.00036768615,0.000025459032,0.96665126,0.0027379433,0.00047270674,0.028843941],"study_design_scores_gemma":[0.00060442544,0.000095541836,0.005067575,0.000032165673,0.000013437717,0.000013514048,0.00031776834,0.002535496,0.98835915,0.001878065,0.00094018556,0.00014266004],"about_ca_topic_score_codex":0.000011927626,"about_ca_topic_score_gemma":0.000031554697,"teacher_disagreement_score":0.028701281,"about_ca_system_score_codex":0.000021810249,"about_ca_system_score_gemma":0.000090917005,"threshold_uncertainty_score":0.8193959},"labels":[],"label_agreement":null},{"id":"W3194212303","doi":"10.1093/cercor/bhab286","title":"Baseline Functional Connectivity in Resting State Networks Associated with Depression and Remission Status after 16 Weeks of Pharmacotherapy: A CAN-BIND Report","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"St. Michael's Hospital; University Health Network; University of Toronto; Centre for Addiction and Mental Health; St. Joseph’s Healthcare Hamilton; Toronto Western Hospital; University of British Columbia; Queen's University; McMaster University; Baycrest Hospital; University of Alberta; University of Calgary","funders":"Janssen Biotech; Canadian Institutes of Health Research; Lallemand; H. Lundbeck A/S; Ontario Mental Health Foundation; Pfizer; Servier; Ontario Brain Institute","keywords":"Baseline (sea); Depression (economics); Pharmacotherapy; Resting state fMRI; Functional connectivity; Psychology; Neuroscience; Psychiatry; Medicine; Political science","score_opus":0.023774507170184547,"score_gpt":0.2597269410238218,"score_spread":0.2359524338536373,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3194212303","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9968617,0.00033244523,0.0009918859,0.000819096,0.00026312406,0.00022996742,0.00005560676,0.000058467915,0.0003877056],"genre_scores_gemma":[0.9981317,0.00005665947,0.00006457067,0.0008762892,0.00006212983,0.00003454343,0.000029873383,0.000030595605,0.00071363035],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9975261,0.0004490214,0.0003827402,0.00081438903,0.00043351692,0.00039425222],"domain_scores_gemma":[0.9956916,0.0034389368,0.0002983973,0.00023189613,0.00021247285,0.00012668082],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00057917903,0.00022367697,0.00034391516,0.000101459555,0.00017150733,0.000032798813,0.00004846694,0.0000809009,0.00014727979],"category_scores_gemma":[0.0070712296,0.00019306806,0.000047564747,0.000580066,0.00015527561,0.00020646767,0.0001310907,0.00037716457,5.484401e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012871048,0.00022469596,0.8532503,0.000029893363,0.00003880298,0.00080011797,0.00016301544,0.0014883428,0.13863644,0.0000132798805,0.0005272327,0.0035407706],"study_design_scores_gemma":[0.0025050514,0.00015265179,0.929851,0.0003187818,0.000028680432,0.00021880804,0.0000841185,0.010416335,0.0554156,0.00035051804,0.00035152328,0.00030690787],"about_ca_topic_score_codex":0.00029536532,"about_ca_topic_score_gemma":0.002717204,"teacher_disagreement_score":0.08322084,"about_ca_system_score_codex":0.00018561393,"about_ca_system_score_gemma":0.00025348554,"threshold_uncertainty_score":0.8465433},"labels":[],"label_agreement":null},{"id":"W3194280834","doi":"10.1093/cercor/bhab272","title":"Overlapping Functional Representations of Self- and Other-Related Thought are Separable Through Multivoxel Pattern Classification","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Cancer Institute","keywords":"Orbitofrontal cortex; Prefrontal cortex; Psychology; Neuroscience; Posterior cingulate; Human brain; Functional connectivity; Cognitive psychology; Cortex (anatomy); Cognition","score_opus":0.06539835801341885,"score_gpt":0.2951038648825819,"score_spread":0.22970550686916302,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3194280834","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9807407,0.00022076674,0.0024716079,0.004192087,0.00068060297,0.00027332178,0.00010273969,0.00018716918,0.011131],"genre_scores_gemma":[0.99571306,0.000041950618,0.0003152384,0.0017982143,0.0000742613,0.000029932271,0.000011999887,0.000020240552,0.0019950846],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984301,0.00016582731,0.0002894682,0.00061296264,0.00031317945,0.00018848162],"domain_scores_gemma":[0.9977388,0.0015489622,0.00022587582,0.00029361932,0.00015108814,0.00004168361],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000100023055,0.0001466651,0.00020981758,0.000051273833,0.00030229436,0.000040219107,0.00007723262,0.000073724594,0.00023038569],"category_scores_gemma":[0.0016652216,0.00014933194,0.00007737059,0.00048778005,0.00014031866,0.0003329813,0.000107471016,0.00016743985,0.000039169805],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000063780375,0.0005718752,0.3338028,0.00015231346,0.00018072536,0.00003046852,0.001755662,0.00032812086,0.62044317,0.029457655,0.011530535,0.001682894],"study_design_scores_gemma":[0.001037019,0.000047627327,0.92721367,0.00006466373,0.000051424282,0.00009002231,0.0013723109,0.0069013033,0.051269967,0.0031535465,0.008526153,0.00027230306],"about_ca_topic_score_codex":0.000046579153,"about_ca_topic_score_gemma":0.000058376383,"teacher_disagreement_score":0.59341085,"about_ca_system_score_codex":0.000054522938,"about_ca_system_score_gemma":0.000066081004,"threshold_uncertainty_score":0.608958},"labels":[],"label_agreement":null},{"id":"W3195431345","doi":"10.1093/cercor/bhab269","title":"Optogenetic Activation of Interneuron Subtypes Modulates Visual Contrast Responses of Mouse V1 Neurons","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Dalhousie University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Foundation for Innovation","keywords":"Optogenetics; Photostimulation; Interneuron; Neuroscience; Parvalbumin; Biology; Channelrhodopsin; Vasoactive intestinal peptide; Visual cortex; Excitatory postsynaptic potential; Cortex (anatomy); Neuropeptide; Inhibitory postsynaptic potential","score_opus":0.0240715672203096,"score_gpt":0.2694459692549166,"score_spread":0.245374402034607,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3195431345","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99888706,0.000014606124,0.00020785478,0.00016212768,0.00027246686,0.00013274378,0.000037132395,0.000033427197,0.00025256124],"genre_scores_gemma":[0.9980268,0.000023272722,0.000031446893,0.00025387082,0.00002838141,0.0000035654868,0.000012479557,0.000021517937,0.0015986566],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987489,0.00018336688,0.00031234018,0.00035733677,0.00022264617,0.00017540592],"domain_scores_gemma":[0.99913293,0.00029648267,0.00019078275,0.0002249052,0.00010281888,0.000052053965],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000054430784,0.00013169654,0.00021061276,0.00009425367,0.00004965173,0.000029288467,0.00013896608,0.000053363292,0.000112015005],"category_scores_gemma":[0.00062027056,0.00012544445,0.000090652306,0.00027175795,0.000118057265,0.00014451321,0.00009127586,0.000117625794,0.000008102008],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00024506336,0.00012296956,0.004562116,0.000029486839,0.0000053934687,0.000007937531,0.00003299745,0.000143352,0.9917562,0.0012471223,0.000031421256,0.0018159164],"study_design_scores_gemma":[0.00030366087,0.0003075972,0.085464925,0.00002130961,0.000011786858,0.000016294143,0.000027498967,0.0078052636,0.9057166,0.00016516795,0.000060964103,0.00009890402],"about_ca_topic_score_codex":0.000022458542,"about_ca_topic_score_gemma":0.000008210839,"teacher_disagreement_score":0.086039595,"about_ca_system_score_codex":0.00001600595,"about_ca_system_score_gemma":0.000057758916,"threshold_uncertainty_score":0.5115476},"labels":[],"label_agreement":null},{"id":"W3196141401","doi":"10.1093/cercor/bhab239","title":"Brain and Behavioral Evidence for Reweighting of Vestibular Inputs with Long-Duration Spaceflight","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spaceflight effects on biology","field":"Medicine","cited_by":72,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Aging; Natural Sciences and Engineering Research Council of Canada; National Space Biomedical Research Institute; National Institute of Neurological Disorders and Stroke; National Aeronautics and Space Administration","keywords":"Vestibular system; Somatosensory system; Spaceflight; Neuroscience; Sensory system; Balance (ability); Stimulation; Psychology; Sensory deprivation; Vestibular nuclei","score_opus":0.046258937322026336,"score_gpt":0.34758079991615914,"score_spread":0.3013218625941328,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3196141401","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98999876,0.0009563274,0.0026487042,0.0055620065,0.00009499759,0.00057656795,0.0000063468287,0.00004206528,0.00011423894],"genre_scores_gemma":[0.9916742,0.00002307146,0.0067738104,0.0005755814,0.00012710835,0.0000291356,0.000065573266,0.00002507506,0.0007064349],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99890196,0.000068075424,0.00025230384,0.0003797007,0.000162848,0.00023508316],"domain_scores_gemma":[0.9988533,0.00028315696,0.00015881637,0.00029571465,0.00028435735,0.00012465482],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002135453,0.00015879147,0.00036951492,0.0000722296,0.000059397284,0.000017379109,0.000050160925,0.00013187363,0.000057030265],"category_scores_gemma":[0.0005110989,0.00012381321,0.00004231653,0.00020490633,0.00013621233,0.00013809124,0.000044870365,0.00012839073,0.0000036414679],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000775233,0.0001267786,0.4144831,0.00045240868,0.0000753221,0.00020422456,0.00032492753,0.0000012421983,0.5787839,0.0006819393,0.0010101016,0.0030807748],"study_design_scores_gemma":[0.0035073194,0.005208093,0.6347708,0.0012011963,0.00040328523,0.00084381545,0.00010040872,0.00052997324,0.35169607,0.00011937415,0.0012957951,0.00032388253],"about_ca_topic_score_codex":0.000025644898,"about_ca_topic_score_gemma":0.00014665959,"teacher_disagreement_score":0.22708789,"about_ca_system_score_codex":0.000043276203,"about_ca_system_score_gemma":0.000184332,"threshold_uncertainty_score":0.5048956},"labels":[],"label_agreement":null},{"id":"W3196862461","doi":"10.1093/cercor/bhab275","title":"Aging-Related Differences in Structural and Functional Interhemispheric Connectivity","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Kavli Institute for Brain and Mind, University of California, San Diego; National Institute on Aging; National Institutes of Health","keywords":"Functional connectivity; Neuroscience; Psychology; Cognitive psychology","score_opus":0.029396279332557507,"score_gpt":0.2435838168506679,"score_spread":0.2141875375181104,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3196862461","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99458736,0.00020816042,0.00004965849,0.0019173342,0.00076706486,0.00009657641,0.000010542967,0.00008151614,0.002281761],"genre_scores_gemma":[0.99767846,0.000015663196,0.00003187371,0.0011111344,0.000055993103,0.000013261348,0.0000039554116,0.000012260865,0.0010774281],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998472,0.00016095364,0.00020272403,0.0006711267,0.0002274791,0.00026576762],"domain_scores_gemma":[0.997772,0.0018807568,0.00006592916,0.00016233728,0.000051301096,0.000067699395],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008914073,0.000181726,0.00025157773,0.00005617479,0.00018979193,0.00006902801,0.00007970409,0.00006586778,0.00062612095],"category_scores_gemma":[0.0029696312,0.00016884289,0.000053516727,0.0004338415,0.00022603621,0.00025704168,0.00021336893,0.00029086272,0.000023369044],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010714057,0.00011080033,0.7622313,0.00005830594,0.00004623313,0.00017224498,0.00066322164,0.000027790342,0.20729655,0.022778664,0.0008049248,0.005702825],"study_design_scores_gemma":[0.00071086554,0.000051506606,0.9730179,0.00002663528,0.0000076071487,0.00018162065,0.00022122264,0.0023488882,0.015450896,0.007574327,0.00018466594,0.00022388769],"about_ca_topic_score_codex":0.00003636956,"about_ca_topic_score_gemma":0.00019220414,"teacher_disagreement_score":0.21078658,"about_ca_system_score_codex":0.00007197054,"about_ca_system_score_gemma":0.00006700354,"threshold_uncertainty_score":0.6885213},"labels":[],"label_agreement":null},{"id":"W3198787748","doi":"10.1093/cercor/bhab283","title":"Small Nucleus Accumbens and Large Cerebral Ventricles in Infants and Toddlers Prior to Receiving Diagnoses of Autism Spectrum Disorder","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":29,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"St. Francis Xavier University","funders":"National Institute of Mental Health; Natural Sciences and Engineering Research Council of Canada; National Institutes of Health; St. Francis Xavier University","keywords":"Autism spectrum disorder; Lateral ventricles; Magnetic resonance imaging; Psychology; Neuroimaging; Nucleus accumbens; Audiology; Medicine; Pediatrics; Autism; Radiology; Neuroscience; Psychiatry; Central nervous system","score_opus":0.02948689215660679,"score_gpt":0.28370675251402466,"score_spread":0.2542198603574179,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3198787748","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99301785,0.0005412743,0.000053567248,0.0048498306,0.00014590472,0.0005054583,0.000074195166,0.000059876307,0.0007520572],"genre_scores_gemma":[0.99853194,0.000483376,0.00021756934,0.00037412753,0.000023117607,0.000023637811,0.0000042114434,0.000046583205,0.0002954661],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99729806,0.000204166,0.00041472435,0.00086314336,0.0003678309,0.00085209374],"domain_scores_gemma":[0.99880433,0.00039481517,0.00010782769,0.00041457845,0.000011151391,0.00026729636],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00020779176,0.00025790336,0.00041418686,0.00028693883,0.00018693226,0.00013843064,0.00030641712,0.000112172645,0.00047667953],"category_scores_gemma":[0.00096751715,0.00027055343,0.000058884845,0.0009775248,0.00017161603,0.0002909479,0.00085267314,0.0003448574,0.000027481432],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011288275,0.00041583373,0.94411117,0.00013154013,0.000014830874,0.00030548227,0.002318474,0.000008753493,0.013531691,0.02350073,0.00008243681,0.015466166],"study_design_scores_gemma":[0.0015047533,0.00016413593,0.9691023,0.00011585506,0.000010336495,0.000059647326,0.00031469346,0.000389378,0.021786284,0.005354322,0.0008729386,0.00032533347],"about_ca_topic_score_codex":0.00036983876,"about_ca_topic_score_gemma":0.005247949,"teacher_disagreement_score":0.024991143,"about_ca_system_score_codex":0.00006292936,"about_ca_system_score_gemma":0.00013448138,"threshold_uncertainty_score":0.99997467},"labels":[],"label_agreement":null},{"id":"W3200307117","doi":"10.1093/cercor/bhab295","title":"Assessing the Longitudinal Relationship between Theta-Gamma Coupling and Working Memory Performance in Older Adults","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; Health Sciences Centre; Sunnybrook Health Science Centre; St. Michael's Hospital; Queen's University; University Health Network; Toronto Dementia Research Alliance; University of Toronto; Centre for Addiction and Mental Health","funders":"Academic Health Center, University of Minnesota; Ontario Ministry of Research, Innovation and Science; Canada Foundation for Innovation; Canadian Institutes of Health Research; Ontario Mental Health Foundation","keywords":"Working memory; Electroencephalography; Psychology; Association (psychology); Alpha (finance); Major depressive disorder; Audiology; Neuroscience; Cognition; Medicine; Developmental psychology","score_opus":0.07305813849660839,"score_gpt":0.29371114164559825,"score_spread":0.22065300314898986,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3200307117","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997574,0.000091275164,0.000098014374,0.00052688725,0.00029220892,0.00014439716,0.0000012830342,0.00003600524,0.0012359546],"genre_scores_gemma":[0.9992418,0.0000165138,0.000035220033,0.0001801996,0.00013758996,0.000007505827,0.0000061896876,0.00001533491,0.00035962675],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9988381,0.00007582117,0.00023083967,0.00040742333,0.00020268852,0.000245118],"domain_scores_gemma":[0.99897313,0.00065264513,0.00009667496,0.00020513026,0.000026875296,0.0000455446],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026446633,0.00012413911,0.00013626723,0.00005560627,0.00039981608,0.0002452299,0.00011918351,0.000060689443,0.000026311815],"category_scores_gemma":[0.000266821,0.00009370539,0.00003848924,0.0003582282,0.00008450075,0.00041394902,0.00010311857,0.00039418184,0.00001185],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000075119774,0.000012968595,0.99093735,0.000022600176,0.000001505002,0.000015165228,0.0001541029,0.0001785803,0.0013890194,0.00041047978,0.0000052527994,0.006865483],"study_design_scores_gemma":[0.00031653076,0.000014896014,0.9715904,0.0001370948,0.000010722742,0.000035932662,0.0001831356,0.025707025,0.0015910036,0.00027255717,0.000020261466,0.00012042874],"about_ca_topic_score_codex":0.000008163239,"about_ca_topic_score_gemma":0.000030714127,"teacher_disagreement_score":0.025528444,"about_ca_system_score_codex":0.000036282803,"about_ca_system_score_gemma":0.00003916982,"threshold_uncertainty_score":0.3821195},"labels":[],"label_agreement":null},{"id":"W3201204116","doi":"10.1093/cercor/bhab328","title":"Functional Organization of Frontoparietal Cortex in the Marmoset Investigated with Awake Resting-State fMRI","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Canadian Institutes of Health Research","keywords":"Marmoset; Macaque; Neuroscience; Posterior parietal cortex; Callithrix; Frontal eye fields; Psychology; Premotor cortex; Functional magnetic resonance imaging; Primate; Parietal lobe; Working memory; Cortex (anatomy); Frontal lobe; Cognition; Eye movement; Biology; Anatomy","score_opus":0.031410656237180166,"score_gpt":0.23080296685039092,"score_spread":0.19939231061321075,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3201204116","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9933052,0.00003217232,0.0003735801,0.0038154477,0.00029385724,0.00022115403,0.000040647086,0.000065016844,0.0018529138],"genre_scores_gemma":[0.9956929,0.0000072177745,0.0001470082,0.0031776314,0.00005946269,0.000014990406,0.000061212326,0.000024258858,0.0008152807],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99810684,0.00028386334,0.0002969032,0.0005304725,0.0005305709,0.00025134048],"domain_scores_gemma":[0.997732,0.0014602077,0.00016606184,0.00031810638,0.00027189628,0.00005173873],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021741168,0.00018230717,0.00022431994,0.00007333497,0.0002204454,0.00005661491,0.00019047066,0.00005032906,0.0002296629],"category_scores_gemma":[0.0058464753,0.00013607272,0.000037421418,0.0013785894,0.00032610845,0.00023077987,0.000113362,0.00026479247,0.00003688011],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013055284,0.00037361775,0.6801648,0.000071880495,0.000047837617,0.00023162029,0.0016043519,0.0009171646,0.2886246,0.0070530255,0.02014888,0.00063165196],"study_design_scores_gemma":[0.0008155003,0.00011827173,0.9588549,0.000035115652,0.00002054309,0.00017551765,0.00040828402,0.00054245023,0.03685324,0.0013348741,0.00065245124,0.0001888672],"about_ca_topic_score_codex":0.000092085924,"about_ca_topic_score_gemma":0.00060227094,"teacher_disagreement_score":0.27869007,"about_ca_system_score_codex":0.000060043938,"about_ca_system_score_gemma":0.00029476758,"threshold_uncertainty_score":0.69991994},"labels":[],"label_agreement":null},{"id":"W3201625995","doi":"10.1093/cercor/bhab326","title":"Cortical Gyrification Morphology in ASD and ADHD: Implication for Further Similarities or Disorder-Specific Features?","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Attention Deficit Hyperactivity Disorder","field":"Medicine","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Ontario Institute for Cancer Research; Queen's University; McMaster University; University of Toronto; Western University; Children’s Health Research Institute; Centre for Addiction and Mental Health; Ontario Centre of Excellence for Child and Youth Mental Health; Holland Bloorview Kids Rehabilitation Hospital; Hospital for Sick Children; Autism Canada; McGill University; Douglas Mental Health University Institute; Mental Health Research Canada","funders":"Canadian Institutes of Health Research; Ontario Brain Institute","keywords":"Gyrification; Psychology; Comorbidity; Attention deficit hyperactivity disorder; Psychopathology; Developmental psychology; Clinical psychology; Neuroscience; Psychiatry; Cerebral cortex","score_opus":0.05138443819074617,"score_gpt":0.3363701526808167,"score_spread":0.28498571449007054,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3201625995","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9853202,0.0010893506,0.0021840907,0.010205299,0.00012608233,0.0006191833,0.000029383858,0.000054241817,0.00037218578],"genre_scores_gemma":[0.9949065,0.00020876345,0.0012470154,0.0004886206,0.0001098757,0.00013511392,0.00032300822,0.00003418293,0.0025469356],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99881655,0.0000656145,0.0002802199,0.00044794465,0.0001369212,0.000252729],"domain_scores_gemma":[0.999156,0.00018967933,0.00007410005,0.0003281281,0.00016791152,0.00008416069],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011050877,0.00015053926,0.00029850806,0.00009091185,0.000078475765,0.00003558771,0.000049920618,0.00018257259,0.0006028346],"category_scores_gemma":[0.00027412167,0.00013527439,0.000068607456,0.00022341977,0.000102507496,0.00012784605,0.000035816192,0.00026213742,0.000023571858],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0037725884,0.0030642424,0.511421,0.0007944239,0.00024323235,0.00022167973,0.0034705123,0.000019549827,0.34056002,0.026260022,0.016718272,0.093454435],"study_design_scores_gemma":[0.0028067061,0.00019595645,0.9786127,0.00003737841,0.000062354506,0.00037004272,0.005012924,0.00025105473,0.0007246382,0.00066198636,0.011067925,0.00019631353],"about_ca_topic_score_codex":0.000021024436,"about_ca_topic_score_gemma":0.00016278004,"teacher_disagreement_score":0.4671917,"about_ca_system_score_codex":0.000053287273,"about_ca_system_score_gemma":0.0000980506,"threshold_uncertainty_score":0.66006166},"labels":[],"label_agreement":null},{"id":"W3203155969","doi":"10.1093/cercor/bhab343","title":"From Molecular to Behavior: Higher Order Occipital Cortex in Major Depressive Disorder","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":58,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"Fundamental Research Funds for the Central Universities; Zhejiang Provincial Key Laboratory of Wood Science and Technology; National Natural Science Foundation of China; Canadian Institutes of Health Research; Ministry of Science and Technology","keywords":"Major depressive disorder; Neuroscience; Psychology; Cortex (anatomy); Medicine; Cognition","score_opus":0.019041755639406344,"score_gpt":0.26726890479400783,"score_spread":0.24822714915460148,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3203155969","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906624,0.00022819192,0.00023976625,0.0041009667,0.0012332449,0.0003955867,0.0001389112,0.00010602264,0.0028949203],"genre_scores_gemma":[0.98956656,0.0000050480503,0.00032752182,0.0072849337,0.00014914288,0.00017893316,0.000029066696,0.000049915234,0.0024088563],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99745923,0.00016158703,0.00029207108,0.0011455012,0.0004613059,0.00048027321],"domain_scores_gemma":[0.9982789,0.0008244975,0.000072580966,0.00053355016,0.00013338456,0.00015705875],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000048819147,0.000292097,0.00033612765,0.00011171301,0.00016516152,0.00009182896,0.00029021857,0.00011173503,0.0016240973],"category_scores_gemma":[0.0020207027,0.0003018639,0.00010878203,0.0008224514,0.00011060252,0.00023515709,0.00047975825,0.00030264442,0.00048756],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001328621,0.00070238026,0.15326501,0.000014175118,0.000046478788,0.0021367397,0.0005737054,0.00010287397,0.82952625,0.0030413284,0.0076031163,0.0028550746],"study_design_scores_gemma":[0.0017055416,0.00011942293,0.9126168,0.00003359092,0.000054655135,0.000027225818,0.00025423954,0.00008035128,0.0736018,0.0021430794,0.008758539,0.0006047971],"about_ca_topic_score_codex":0.00043622692,"about_ca_topic_score_gemma":0.0008451128,"teacher_disagreement_score":0.75935173,"about_ca_system_score_codex":0.000103754144,"about_ca_system_score_gemma":0.00010744889,"threshold_uncertainty_score":0.9999434},"labels":[],"label_agreement":null},{"id":"W3203347453","doi":"10.1093/cercor/bhab354","title":"Reorganization of the Neurobiology of Language After Sentence Overlearning","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Acadia University","funders":"Engineering and Physical Sciences Research Council","keywords":"Sentence; Psychology; Aphasia; Functional magnetic resonance imaging; Active listening; Sentence processing; Cognitive psychology; Comprehension; Speech production; Linguistics; Cognition; Neuroscience; Communication","score_opus":0.010510974326475917,"score_gpt":0.2415614191469325,"score_spread":0.23105044482045659,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3203347453","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99866194,0.00007009904,0.000013236029,0.00019677481,0.00034283375,0.000066384426,0.00001602391,0.000019354355,0.000613388],"genre_scores_gemma":[0.99769354,0.000009774769,0.000037443773,0.0012905825,0.00003837984,0.0000011356499,0.0000036503907,0.000009748511,0.0009157641],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99908453,0.00024182716,0.00019964064,0.000250882,0.00008682781,0.00013631898],"domain_scores_gemma":[0.9993387,0.00012170611,0.00015111903,0.0003075818,0.00006132705,0.000019604664],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000054635035,0.00007862456,0.00014278457,0.000024683057,0.00004053601,0.0000051384513,0.00019764507,0.000056422632,0.00034048926],"category_scores_gemma":[0.000727365,0.000055173503,0.000069180685,0.00030339573,0.0001962091,0.000046350415,0.00017084902,0.0001417551,0.000009927767],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000013570695,0.00002540045,0.01532676,0.000016597685,0.0000019227869,0.0000725176,0.00071455067,0.0000032950318,0.98342633,0.00016585988,0.00003155734,0.00020163327],"study_design_scores_gemma":[0.0001427618,0.00003908571,0.045374766,0.000019187803,0.000009834457,0.00016442355,0.00022054571,0.000013390676,0.95378596,0.000061256826,0.00011150524,0.00005726177],"about_ca_topic_score_codex":0.000012314824,"about_ca_topic_score_gemma":0.000014972443,"teacher_disagreement_score":0.030048007,"about_ca_system_score_codex":0.0000049124455,"about_ca_system_score_gemma":0.000048810376,"threshold_uncertainty_score":0.37281185},"labels":[],"label_agreement":null},{"id":"W3203808572","doi":"10.1093/cercor/bhab337","title":"Structural Covariance of Depth-Dependent Intracortical Myelination in the Human Brain and Its Application to Drug-Naïve Schizophrenia: A T1w/T2w MRI Study","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":25,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Lawson Health Research Institute; Western University","funders":"Schulich School of Medicine and Dentistry; Sichuan University; National Natural Science Foundation of China","keywords":"Neuroscience; Schizophrenia (object-oriented programming); Psychology; Prefrontal cortex; Psychosis; Anterior cingulate cortex; Cingulate cortex; Cortex (anatomy); Connectome; Cognition; Psychiatry; Central nervous system; Functional connectivity","score_opus":0.026981634451309494,"score_gpt":0.29652981902328995,"score_spread":0.2695481845719805,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3203808572","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98865825,0.000045104716,0.0002880923,0.009628534,0.00015176869,0.0009616966,0.000016860575,0.000031965144,0.00021775224],"genre_scores_gemma":[0.9978417,0.000002606351,0.00007306811,0.0017094779,0.00009927099,0.00013074197,0.00000517908,0.000013696426,0.00012422103],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99785805,0.00037478897,0.00035845517,0.0006761746,0.00050356984,0.00022895903],"domain_scores_gemma":[0.9979068,0.0014688083,0.000110815505,0.00032029423,0.0001352115,0.000058068425],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00039804296,0.00017007509,0.00024253302,0.00009761394,0.00024968528,0.00005908177,0.00025268932,0.00004669903,0.00002743274],"category_scores_gemma":[0.0030041817,0.00014266105,0.000038959217,0.00060909777,0.00006951158,0.00020122182,0.00022313646,0.00026648946,0.000016010392],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035772356,0.00089406496,0.06096405,0.00009809824,0.000050100556,0.00010689358,0.0069364607,0.00055663334,0.79593545,0.122583896,0.00085081777,0.010665835],"study_design_scores_gemma":[0.0011661513,0.00020483992,0.96894914,0.000016474023,0.000021796683,0.000042695334,0.0012096026,0.0022509159,0.023092212,0.0028057052,0.00004800055,0.00019245048],"about_ca_topic_score_codex":0.00006036868,"about_ca_topic_score_gemma":0.002347465,"teacher_disagreement_score":0.9079851,"about_ca_system_score_codex":0.000068008674,"about_ca_system_score_gemma":0.000056354238,"threshold_uncertainty_score":0.5817549},"labels":[],"label_agreement":null},{"id":"W3204514069","doi":"10.1093/cercor/bhab358","title":"Symmetry Processing in the Macaque Visual Cortex","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"National Eye Institute; Canada First Research Excellence Fund; Agence Nationale de la Recherche","keywords":"Macaque; Symmetry (geometry); Neuroimaging; Reflection symmetry; Neuroscience; Psychology; Physics; Cognitive psychology; Mathematics; Geometry","score_opus":0.0469093381674785,"score_gpt":0.3320165150320306,"score_spread":0.2851071768645521,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3204514069","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98071694,0.000089560795,0.0006746197,0.0009326854,0.00035378765,0.00016194647,0.000005135255,0.00012270038,0.016942602],"genre_scores_gemma":[0.9877544,0.00001973905,0.00013219283,0.0103535075,0.00014455151,0.000016553779,0.000009391674,0.000024547184,0.0015450999],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99811953,0.00026392835,0.000278172,0.0005305587,0.00042620304,0.00038162066],"domain_scores_gemma":[0.9994756,0.00007471657,0.00008859787,0.00022651165,0.00005394685,0.000080639635],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002032953,0.00018033688,0.00018066792,0.000088017485,0.00028512924,0.00029651244,0.00034355052,0.00010737222,0.00079414557],"category_scores_gemma":[0.0002879856,0.00013708933,0.00007021032,0.000954507,0.00009550913,0.00028090124,0.00008282036,0.0004108076,0.00029509878],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003909541,0.00036979956,0.0014268964,0.00011627236,0.0000016215797,0.00034613095,0.0019725882,0.0000036632728,0.9127841,0.009276041,0.00080713845,0.07285663],"study_design_scores_gemma":[0.0044195033,0.0008236884,0.23879696,0.0006544564,0.00008944789,0.002584933,0.013309553,0.040073562,0.6371582,0.036601383,0.023046037,0.0024422272],"about_ca_topic_score_codex":0.000010061229,"about_ca_topic_score_gemma":0.000033137803,"teacher_disagreement_score":0.27562588,"about_ca_system_score_codex":0.00004036033,"about_ca_system_score_gemma":0.00018571083,"threshold_uncertainty_score":0.8695337},"labels":[],"label_agreement":null},{"id":"W3204530178","doi":"10.1093/cercor/bhab367","title":"Frontoparietal Anatomical Connectivity Predicts Second Language Learning Success","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University; McGill University; Centre for Research on Brain Language and Music; University of Ottawa; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Canada First Research Excellence Fund; Fonds de Recherche du Québec-Société et Culture; Canada Research Chairs; Centre for Research on Brain, Language and Music","keywords":"Neuroscience; Psychology; Cognitive psychology","score_opus":0.016475732709218618,"score_gpt":0.2717062538375173,"score_spread":0.2552305211282987,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3204530178","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99011075,0.00019621434,0.000035168778,0.00017016345,0.0005883229,0.00010932009,0.0000368022,0.00021988928,0.00853339],"genre_scores_gemma":[0.99435776,0.0000049420414,0.000049801187,0.0016605781,0.0002433313,0.0000053591234,0.00003142214,0.000022728833,0.0036240618],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99814737,0.00036075342,0.0002111858,0.0006912929,0.0001790991,0.0004102973],"domain_scores_gemma":[0.9991217,0.00031179056,0.000089216854,0.00029728527,0.000040612573,0.00013938047],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012710805,0.00018746061,0.00027055608,0.00004499363,0.0001850036,0.0000788619,0.00025446742,0.00013765042,0.0024043133],"category_scores_gemma":[0.0009761274,0.00017423298,0.000116410854,0.0001929541,0.00024506604,0.00021689858,0.00020841119,0.0005310037,0.00014262216],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000036197067,0.00008980944,0.0075139455,0.000021247957,0.000009302272,0.0045098737,0.001173169,0.0000026769358,0.98338276,0.0004978553,0.0004088905,0.0023542424],"study_design_scores_gemma":[0.0009137201,0.00010349057,0.011159364,0.000014560092,0.000021536309,0.0014934982,0.0007149149,0.00043766646,0.98189896,0.00025452097,0.0026516553,0.00033611327],"about_ca_topic_score_codex":0.00003144173,"about_ca_topic_score_gemma":0.00018226572,"teacher_disagreement_score":0.004909328,"about_ca_system_score_codex":0.000027757607,"about_ca_system_score_gemma":0.00010433652,"threshold_uncertainty_score":0.9985076},"labels":[],"label_agreement":null},{"id":"W3204789684","doi":"10.1093/cercor/bhab281","title":"Time Course of Homeostatic Structural Plasticity in Response to Optogenetic Stimulation in Mouse Anterior Cingulate Cortex","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Photoreceptor and optogenetics research","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université Laval","funders":"Centre National de la Recherche Scientifique; Deutsche Forschungsgemeinschaft","keywords":"Optogenetics; Neuroscience; Neuroplasticity; Anterior cingulate cortex; Plasticity; Stimulation; Homeostatic plasticity; Cortex (anatomy); Synaptic plasticity; Biology; Stimulus (psychology); Premovement neuronal activity; Visual cortex; Psychology; Metaplasticity; Cognition; Physics","score_opus":0.022577094910407887,"score_gpt":0.31613722708427133,"score_spread":0.29356013217386345,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3204789684","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9990978,0.000036510795,0.000035654793,0.00005632473,0.00012152137,0.00044130324,0.00013986409,0.000021684322,0.000049339444],"genre_scores_gemma":[0.999166,0.000012991827,0.0002444069,0.000111215595,0.000017117394,0.000012758143,0.000009795705,0.000029624378,0.0003961052],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9974906,0.00046364366,0.0005243751,0.00056418095,0.00045562186,0.0005016095],"domain_scores_gemma":[0.99880296,0.00048686087,0.00009464492,0.0003111412,0.00010687686,0.00019752195],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021865666,0.00020409812,0.0003793403,0.0003256859,0.00005391816,0.00004838624,0.00030274008,0.00008762272,0.0005838248],"category_scores_gemma":[0.0011171758,0.00020743608,0.0000641659,0.0009275608,0.00015069712,0.00010642137,0.00020613972,0.00022384863,0.00006717419],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011593451,0.00008252472,0.028015275,0.000027102871,0.0000030601389,0.00008522369,0.000607919,0.0029409714,0.96624184,0.0000054773423,0.000007892296,0.00082337944],"study_design_scores_gemma":[0.0007813618,0.00017470884,0.50854677,0.000049551287,0.0000029457033,0.000010979834,0.000040504943,0.026905464,0.4632875,0.00005737164,0.000004866571,0.0001379382],"about_ca_topic_score_codex":0.000044856046,"about_ca_topic_score_gemma":0.00019187908,"teacher_disagreement_score":0.5029543,"about_ca_system_score_codex":0.00013842867,"about_ca_system_score_gemma":0.00029368117,"threshold_uncertainty_score":0.8458998},"labels":[],"label_agreement":null},{"id":"W3206856114","doi":"10.1093/cercor/bhab345","title":"Brain-Generated 17β-Estradiol Modulates Long-Term Synaptic Plasticity in the Primary Auditory Cortex of Adult Male Rats","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Guelph; Queen's University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Auditory cortex; Neuroscience; Neuroplasticity; Synaptic plasticity; Psychology; Plasticity; Biology; Medicine; Internal medicine; Receptor","score_opus":0.03516474414619733,"score_gpt":0.29743628385455984,"score_spread":0.2622715397083625,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3206856114","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997179,0.000037983922,0.000016423272,0.0007289699,0.00086715096,0.0004454786,0.000046266145,0.0000477232,0.0006310137],"genre_scores_gemma":[0.99418175,0.00011143339,0.0000067207757,0.0044110557,0.00017161756,0.000035046316,0.0000075049725,0.000027798756,0.0010470834],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9963717,0.0008531451,0.0004829576,0.0009022503,0.00068692974,0.0007030202],"domain_scores_gemma":[0.99789315,0.0011929229,0.00016343311,0.00044981125,0.00014373026,0.00015692858],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018676695,0.00026989073,0.0003840591,0.00016546402,0.00025247238,0.00008840903,0.0009183616,0.00011936341,0.00037102777],"category_scores_gemma":[0.0010121729,0.00021408165,0.00012066974,0.0011655814,0.00078714505,0.00030277812,0.00023209603,0.0007099768,0.00009320313],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000097237025,0.00034770588,0.016815308,0.00007221714,0.000007024108,0.0029805114,0.0001045397,0.000055619235,0.9777359,0.00016650451,0.0013169615,0.0003004832],"study_design_scores_gemma":[0.00067873363,0.00024792188,0.39811763,0.000030988536,0.000016847596,0.000748893,0.000020976271,0.0020373764,0.59784275,0.00004274144,0.000024129657,0.00019098405],"about_ca_topic_score_codex":0.000009604746,"about_ca_topic_score_gemma":0.000025927167,"teacher_disagreement_score":0.38130233,"about_ca_system_score_codex":0.000055181623,"about_ca_system_score_gemma":0.00042805556,"threshold_uncertainty_score":0.8729996},"labels":[],"label_agreement":null},{"id":"W3210156102","doi":"10.1093/cercor/bhab389","title":"Neuronal Electrical Ongoing Activity as Cortical Areas Signature: An Insight from MNI Intracerebral Recording Atlas","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Neuroscience; Cytoarchitecture; Somatosensory system; Premovement neuronal activity; Psychology; Biology","score_opus":0.02861010473015469,"score_gpt":0.26652032654866187,"score_spread":0.23791022181850718,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3210156102","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98826945,0.000115341965,0.00046573833,0.004288536,0.0016306384,0.00025713464,0.000051474908,0.00036196446,0.004559738],"genre_scores_gemma":[0.99151534,0.000028121462,0.00031058808,0.0064005456,0.00096892315,0.000029915442,0.000035873578,0.00007436865,0.00063635263],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99508804,0.0008854706,0.0004072889,0.001847205,0.00090771576,0.0008642927],"domain_scores_gemma":[0.99223524,0.0063267024,0.00017452372,0.0006538528,0.00017307945,0.00043659005],"candidate_categories":["metaresearch","metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00019322998,0.00049018883,0.00057888654,0.00013895615,0.0007970611,0.00030120535,0.0004296803,0.0002820032,0.0012509306],"category_scores_gemma":[0.014433507,0.0004963421,0.00024815853,0.000964368,0.0002637844,0.0010140778,0.00045000916,0.0016426804,0.00035612204],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00059845345,0.0007533671,0.0172016,0.000014248126,0.00007423559,0.0007164495,0.00025833363,0.000033770004,0.9463093,0.011110746,0.004469488,0.018459998],"study_design_scores_gemma":[0.0015668028,0.0008997604,0.39701605,0.00005135737,0.000108256754,0.00039347683,0.00009472922,0.0108665,0.5697699,0.008770094,0.009318864,0.0011441471],"about_ca_topic_score_codex":0.00022698232,"about_ca_topic_score_gemma":0.00039372843,"teacher_disagreement_score":0.37981448,"about_ca_system_score_codex":0.00026925156,"about_ca_system_score_gemma":0.00044163436,"threshold_uncertainty_score":0.9997488},"labels":[],"label_agreement":null},{"id":"W3216637022","doi":"10.1093/cercor/bhab405","title":"Abnormal network properties and fiber connections of DMN across major mental disorders: a probability tracing and graph theory study","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Natural Science Foundation of China; Natural Science Foundation of Jilin Province","keywords":"Default mode network; Bipolar disorder; Psychology; Fractional anisotropy; Diffusion MRI; Neuroscience; Psychopathology; Schizophrenia (object-oriented programming); Superior frontal gyrus; Functional magnetic resonance imaging; Medicine; Psychiatry; Magnetic resonance imaging; Cognition","score_opus":0.037592268125221304,"score_gpt":0.2585656680457531,"score_spread":0.22097339992053178,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W3216637022","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972915,0.0004861726,0.000030221956,0.00065433746,0.00024877882,0.0006660845,0.00003555106,0.00005830539,0.00052907126],"genre_scores_gemma":[0.9990232,0.00002445446,0.000060328584,0.00024886607,0.0000537414,0.00007124161,0.0000013828419,0.0000147212495,0.00050208543],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998311,0.00033757574,0.00024575336,0.0006000573,0.00020665787,0.00029898563],"domain_scores_gemma":[0.99850184,0.0010727069,0.000082254366,0.00021888975,0.00006363036,0.000060685896],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00038447816,0.00017801765,0.0002652382,0.000027201097,0.00069885515,0.00007173776,0.00007543519,0.00004214387,0.00006786851],"category_scores_gemma":[0.0014438658,0.00015113922,0.000060562048,0.00030794428,0.00056132226,0.0003052209,0.00030880334,0.0001678305,0.0000027223255],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014335996,0.0030020666,0.881929,0.0005848415,0.00043077415,0.00003912574,0.031969775,0.00029640034,0.04862173,0.0098319445,0.0010197901,0.020840997],"study_design_scores_gemma":[0.0024922914,0.0010678425,0.9413954,0.000096691765,0.00010219702,0.00015484045,0.01645841,0.00028459626,0.012909346,0.023995033,0.00050138775,0.0005419453],"about_ca_topic_score_codex":0.00005761891,"about_ca_topic_score_gemma":0.001162623,"teacher_disagreement_score":0.05946646,"about_ca_system_score_codex":0.000023538336,"about_ca_system_score_gemma":0.00003808844,"threshold_uncertainty_score":0.6163279},"labels":[],"label_agreement":null},{"id":"W4200057907","doi":"10.1093/cercor/bhab410","title":"Influence of gonadal steroids on cortical surface area in infancy","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sexual Differentiation and Disorders","field":"Biochemistry, Genetics and Molecular Biology","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Artificial Intelligence in Medicine (Canada)","funders":"National Institutes of Health; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; John and Polly Sparks Foundation; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Brain and Behavior Research Foundation","keywords":"Testosterone (patch); Digit ratio; Endocrinology; Internal medicine; Hormone; Gestation; Biology; Physiology; Medicine; Pregnancy","score_opus":0.011497320964320186,"score_gpt":0.25681994448655504,"score_spread":0.24532262352223486,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200057907","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9979924,0.00012773673,0.000051482737,0.0000535855,0.000058539208,0.00005761231,0.000016480475,0.000005181158,0.0016369887],"genre_scores_gemma":[0.9987457,0.00001800646,0.00004167746,0.00052768487,0.000013263998,0.0000021792116,0.00019789899,0.000008006521,0.00044561102],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9993013,0.000046088287,0.00018313846,0.00022046425,0.0001072929,0.0001417309],"domain_scores_gemma":[0.9996163,0.000013331598,0.000040398234,0.0002125547,0.000065092776,0.000052315452],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000034992652,0.000089395966,0.000115128925,0.000018322768,0.000017562594,0.000008115436,0.00008173852,0.00008722612,0.00009703185],"category_scores_gemma":[0.0001222717,0.00008928588,0.000038664628,0.0000987253,0.000045524208,0.000003109758,0.0000557322,0.00008152715,0.000010135705],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000110581925,0.00019931358,0.40134987,0.000020082942,0.00001966118,0.0000068689137,0.00005867084,0.0011641055,0.5955644,0.00062315864,0.00037550228,0.00050772406],"study_design_scores_gemma":[0.00071634323,0.00015898413,0.91856337,0.000014455438,0.0000045747674,0.0000028535724,0.00011302525,0.000109310095,0.079452515,0.00008299414,0.0006637141,0.00011788378],"about_ca_topic_score_codex":0.000020417976,"about_ca_topic_score_gemma":0.00021203414,"teacher_disagreement_score":0.51721346,"about_ca_system_score_codex":0.000005640717,"about_ca_system_score_gemma":0.000080085214,"threshold_uncertainty_score":0.36409727},"labels":[],"label_agreement":null},{"id":"W4200181848","doi":"10.1093/cercor/bhab411","title":"Cross-task adaptation effects of bilingual language control on cognitive control: a dual-brain eeg examination of simultaneous production and comprehension","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"","keywords":"Cognitive psychology; Cognition; Psychology; Context (archaeology); Active listening; Comprehension; Language production; Neuroscience of multilingualism; Control (management); Synchronization (alternating current); Computer science; Communication; Artificial intelligence; Neuroscience","score_opus":0.012878881083914757,"score_gpt":0.2753856661858639,"score_spread":0.26250678510194914,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200181848","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9982705,0.00026431138,0.00019400197,0.00008785609,0.00036472053,0.00058773166,0.00007748277,0.000052438456,0.0001009177],"genre_scores_gemma":[0.9987811,0.0000137848,0.000032285654,0.0007491837,0.0000841286,0.000007854896,0.000032054424,0.000018645887,0.00028098575],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980618,0.0005907995,0.00034867047,0.00055829436,0.00024227094,0.00019819858],"domain_scores_gemma":[0.9960603,0.0031227586,0.0003007639,0.0001940574,0.00026876194,0.00005333623],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020744912,0.0001813226,0.00035108207,0.00011110132,0.00009312736,0.000020708718,0.000063012405,0.0001162854,0.000020661357],"category_scores_gemma":[0.00766842,0.00016196852,0.00007048396,0.0002118232,0.00032739723,0.000113526796,0.00003095245,0.00017991204,0.00000492534],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003915156,0.00020224878,0.0002578326,0.00017946279,0.000016316313,0.0006761851,0.0029133009,0.00016549259,0.98284805,0.00007191741,0.000004535798,0.012273152],"study_design_scores_gemma":[0.003567358,0.0010823375,0.014548267,0.00024309274,0.000079120924,0.00031982525,0.00093638804,0.0037435177,0.9752347,0.000046446792,0.000007292097,0.00019169573],"about_ca_topic_score_codex":0.000021135607,"about_ca_topic_score_gemma":0.00003234976,"teacher_disagreement_score":0.014290434,"about_ca_system_score_codex":0.000014804412,"about_ca_system_score_gemma":0.000065668646,"threshold_uncertainty_score":0.91803694},"labels":[],"label_agreement":null},{"id":"W4200321350","doi":"10.1093/cercor/bhab439","title":"Spatial probability maps of the segments of the postcentral sulcus in the human brain","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Postcentral gyrus; Somatosensory system; Sulcus; Central sulcus; Anatomy; Functional magnetic resonance imaging; Magnetic resonance imaging; Parietal lobe; Cortex (anatomy); Neuroscience; Psychology; Biology; Medicine; Motor cortex; Radiology","score_opus":0.04755524965718038,"score_gpt":0.32514418009237955,"score_spread":0.27758893043519917,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200321350","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98912233,0.000020649506,0.00012318601,0.008810664,0.000042345124,0.00069102267,0.00003910934,0.00001544107,0.0011352778],"genre_scores_gemma":[0.9983532,0.000002084719,0.00032290345,0.0010031242,0.00002720203,0.00002073956,0.000014579276,0.000007780166,0.0002484024],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99915767,0.0001045533,0.00024008527,0.0001655159,0.00020185497,0.00013032336],"domain_scores_gemma":[0.99904644,0.00004622461,0.00011283982,0.0007114418,0.0000635444,0.000019483829],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012778208,0.00007554643,0.00013859729,0.00001056996,0.000069656155,0.0000045409834,0.0002627921,0.000030617713,0.000038260187],"category_scores_gemma":[0.00010603551,0.000037780992,0.00010863762,0.00025388968,0.00017954902,0.000020548967,0.00013110603,0.00021635537,5.9919836e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000031400934,0.00070561876,0.7596566,0.0001260376,0.000017210117,0.0000057285865,0.00058584614,0.00000567248,0.21610478,0.016783422,0.003424426,0.0025532588],"study_design_scores_gemma":[0.00043241563,0.000040876243,0.9398127,0.00006598996,0.000023758475,0.000021330912,0.000067765075,0.000029913177,0.044739865,0.01353045,0.0011931665,0.0000417349],"about_ca_topic_score_codex":0.00010001563,"about_ca_topic_score_gemma":0.0001062166,"teacher_disagreement_score":0.18015613,"about_ca_system_score_codex":0.00002964601,"about_ca_system_score_gemma":0.00007574609,"threshold_uncertainty_score":0.15406641},"labels":[],"label_agreement":null},{"id":"W4200330267","doi":"10.1093/cercor/bhab424","title":"Human variation in error-based and reinforcement motor learning is associated with entorhinal volume","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Kingston Health Sciences Centre; Queen's University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Reinforcement learning; Motor learning; Psychology; Cognitive psychology; Cognition; Neuroscience; Adaptation (eye); Reinforcement; Computer science; Artificial intelligence; Social psychology","score_opus":0.023701285260622776,"score_gpt":0.2447738463292027,"score_spread":0.22107256106857992,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200330267","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99741715,0.000010317171,0.0011473318,0.00026414308,0.000052955613,0.00016175615,0.0000041467315,0.000043917258,0.0008982554],"genre_scores_gemma":[0.99283814,9.4632605e-7,0.000042817835,0.0006127903,0.00002522771,0.000014771023,0.000018319426,0.000010619847,0.0064363577],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9989714,0.000119024575,0.00017701523,0.00029903924,0.00024553802,0.00018797253],"domain_scores_gemma":[0.99964035,0.000039513456,0.00012221288,0.00009301912,0.000049445818,0.000055433855],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011323686,0.00010161245,0.00012836192,0.000059925456,0.000144886,0.000077129094,0.000053054267,0.000047269023,0.0003438209],"category_scores_gemma":[0.000229855,0.0000963567,0.000024996347,0.00018892357,0.000027846409,0.00016981854,0.000020219562,0.00015574596,0.000012372785],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000107916334,0.00012988759,0.051168773,0.00002723543,0.0000138353935,0.00011016445,0.00116566,0.0027289537,0.94165313,0.0018960881,0.0000552103,0.0009431391],"study_design_scores_gemma":[0.0019337202,0.0003111691,0.8045751,0.000051509756,0.00001576327,0.0000032835458,0.00004755735,0.18961865,0.0028002448,0.00008935613,0.00038977186,0.00016386437],"about_ca_topic_score_codex":0.00008063377,"about_ca_topic_score_gemma":0.00010153319,"teacher_disagreement_score":0.9388529,"about_ca_system_score_codex":0.000078011406,"about_ca_system_score_gemma":0.000066605215,"threshold_uncertainty_score":0.39293122},"labels":[],"label_agreement":null},{"id":"W4200450249","doi":"10.1093/cercor/bhab406","title":"Developmental age and biological sex influence muscarinic receptor function and neuron morphology within layer VI of the medial prefrontal cortex","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Receptor Mechanisms and Signaling","field":"Biochemistry, Genetics and Molecular Biology","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Guelph","funders":"Natural Sciences and Engineering Research Council of Canada; Canada Foundation for Innovation","keywords":"Neuroscience; Muscarinic acetylcholine receptor; Prefrontal cortex; Dendrite (mathematics); Neuron; Nicotinic agonist; Acetylcholine; Electrophysiology; Biology; Apical dendrite; Nicotinic acetylcholine receptor; Psychology; Endocrinology; Receptor; Cerebral cortex; Cognition","score_opus":0.014888642257030793,"score_gpt":0.22068919556564492,"score_spread":0.20580055330861413,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200450249","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99898523,0.00027624407,0.000087125576,0.000030137202,0.00034575447,0.00013203993,0.000015522764,0.00001096622,0.00011696136],"genre_scores_gemma":[0.998662,0.000087181215,0.00054400513,0.00031777166,0.00009209695,0.0000086332275,0.000057355952,0.000015477866,0.00021546948],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99897987,0.00010848735,0.00023486397,0.00040303095,0.000101200574,0.00017255082],"domain_scores_gemma":[0.9996345,0.000014647746,0.00010206783,0.00013028277,0.000047064408,0.000071452014],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011272756,0.00014751079,0.00017615648,0.000015192173,0.00009276347,0.000018580473,0.00010345634,0.00019687208,0.00011377274],"category_scores_gemma":[0.0000740557,0.00010824888,0.000051234834,0.00006092599,0.0001831024,0.0000070263086,0.00028661787,0.00013663458,0.0000024125409],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007490861,0.000022586548,0.028527226,0.000008973831,0.00002478809,0.000005709802,0.000082825216,0.0000028765846,0.9702819,0.000106105756,0.000057692498,0.0008043973],"study_design_scores_gemma":[0.0005679669,0.00035288194,0.58397734,0.000012529154,0.000018999357,0.00009682143,0.00024656858,0.00001948036,0.41373175,0.00016528003,0.0006533098,0.0001570891],"about_ca_topic_score_codex":0.000018163428,"about_ca_topic_score_gemma":0.000055874243,"teacher_disagreement_score":0.55655015,"about_ca_system_score_codex":0.0000102249105,"about_ca_system_score_gemma":0.0000812026,"threshold_uncertainty_score":0.44142613},"labels":[],"label_agreement":null},{"id":"W4200572908","doi":"10.1093/cercor/bhab425","title":"It’s in the timing: reduced temporal precision in neural activity of schizophrenia","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":35,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"National Key Research and Development Program of China; Canadian Institutes of Health Research","keywords":"Schizophrenia (object-oriented programming); Psychology; Neuroscience; Neural activity; Cognitive psychology; Time perception; Audiology; Cognition; Medicine; Psychiatry","score_opus":0.07895039617522578,"score_gpt":0.32025159243547807,"score_spread":0.2413011962602523,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4200572908","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9962541,0.000004225875,0.000009322598,0.0013886519,0.0003863093,0.00018970094,0.0000047259628,0.000014969246,0.0017479897],"genre_scores_gemma":[0.9983876,0.000010189621,0.0000328777,0.0013325973,0.000043755972,0.000010048131,0.0000018560902,0.000007597864,0.00017348593],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983341,0.0003313572,0.00024519506,0.00046383412,0.00036887696,0.00025664968],"domain_scores_gemma":[0.9993444,0.00014153871,0.000090597096,0.00036383606,0.000020594587,0.000039001217],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027003887,0.00011495186,0.00016949278,0.00011443552,0.00007043703,0.000048747093,0.00035116277,0.000055655226,0.00008664973],"category_scores_gemma":[0.00050896994,0.00008754141,0.00006215696,0.00089045154,0.00012849434,0.00038419082,0.00011117969,0.00029355672,0.000014958561],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000080772654,0.00014798454,0.0018653251,0.0000065324516,1.497918e-7,0.00006192253,0.00067174056,0.000014334033,0.98706865,0.00007893043,0.0002288917,0.0097747445],"study_design_scores_gemma":[0.0007386058,0.00011813272,0.7324915,0.000044055138,0.000003294467,0.00007222153,0.00020791672,0.0040536807,0.26152,0.00031980165,0.00028376072,0.0001470023],"about_ca_topic_score_codex":0.00006382456,"about_ca_topic_score_gemma":0.00026991498,"teacher_disagreement_score":0.73062617,"about_ca_system_score_codex":0.000031856514,"about_ca_system_score_gemma":0.000113911185,"threshold_uncertainty_score":0.3569835},"labels":[],"label_agreement":null},{"id":"W4205165687","doi":"10.1093/cercor/bhab395","title":"Regional differences in BDNF expression and behavior as a function of sex and enrichment type: oxytocin matters","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroendocrine regulation and behavior","field":"Psychology","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Oxytocin; Hippocampus; Brain-derived neurotrophic factor; Stimulation; Neurotrophic factors; Prefrontal cortex; Endocrinology; Environmental enrichment; Hippocampal formation; Internal medicine; Psychology; Oxytocin receptor; Neuroscience; Tropomyosin receptor kinase B; Cognition; Biology; Receptor; Medicine","score_opus":0.03408425086101433,"score_gpt":0.30687688874324487,"score_spread":0.2727926378822305,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205165687","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985702,0.00023809746,0.000005446924,0.00057100644,0.00023238338,0.00013699643,0.000003076824,0.000014658698,0.00022812678],"genre_scores_gemma":[0.993988,0.00001223298,0.000036344936,0.00034158002,0.000024817327,0.000024864376,0.000015706877,0.000008210159,0.005548264],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9992532,0.00007806024,0.00017679836,0.00025768805,0.00011290242,0.00012136485],"domain_scores_gemma":[0.9996959,0.000029378623,0.00006106341,0.00012939291,0.000029451985,0.000054810676],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000026144604,0.000092384624,0.00015054895,0.0000665241,0.000027982882,0.000013420367,0.000033102144,0.000038977287,0.0011801496],"category_scores_gemma":[0.0000039653837,0.000082354854,0.000021825777,0.000102628735,0.00005621664,0.000049565686,0.00004391313,0.00008726584,0.000011399973],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001153814,0.0003055094,0.8563129,0.000023386914,0.000009022298,0.00008497736,0.00050751265,6.948969e-8,0.12394994,0.00053974194,0.0029544474,0.015197141],"study_design_scores_gemma":[0.0007642,0.0001458814,0.995275,0.000022482238,0.000031156495,0.00008633639,0.0005886373,0.0000029170392,0.0017803411,0.000084525615,0.0011368152,0.00008170809],"about_ca_topic_score_codex":0.000042178774,"about_ca_topic_score_gemma":0.000017710576,"teacher_disagreement_score":0.13896212,"about_ca_system_score_codex":0.000009992258,"about_ca_system_score_gemma":0.000016032798,"threshold_uncertainty_score":0.9997329},"labels":[],"label_agreement":null},{"id":"W4205224624","doi":"10.1093/cercor/bhab501","title":"Distinct roles for the anterior temporal lobe and angular gyrus in the spatiotemporal cortical semantic network","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":42,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Medical Research Council; Medical Research Council Canada; Cambridge Trust; University of Cambridge","keywords":"Angular gyrus; Temporal lobe; Superior temporal gyrus; Neuroscience; Limbic lobe; Lobe; Psychology; Anatomy; Biology; Functional magnetic resonance imaging; Epilepsy","score_opus":0.02515226216128286,"score_gpt":0.2800839231612757,"score_spread":0.25493166099999287,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205224624","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99555844,0.0009041577,0.00015030967,0.0024957685,0.00034463478,0.00039269184,0.000032222026,0.000031335185,0.000090418835],"genre_scores_gemma":[0.9952882,0.00003150017,0.00008871561,0.004033877,0.00034140528,0.000023909864,0.000015755028,0.000014606487,0.00016201603],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9984915,0.00030699317,0.00026970854,0.0004281403,0.00013734533,0.00036627866],"domain_scores_gemma":[0.9986381,0.0008764695,0.000081663435,0.0003328117,0.000025574198,0.00004540352],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032333776,0.00016010962,0.00021467413,0.000019032002,0.00032305636,0.00010939992,0.0002932574,0.00007320211,0.000046167024],"category_scores_gemma":[0.0005241954,0.00008973346,0.00008894879,0.00020582325,0.00032117416,0.00007070997,0.00009443002,0.0002614166,0.0000065056743],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010013117,0.00088602945,0.6156634,0.00033093544,0.000087813874,0.0148196565,0.00877433,0.000034504257,0.29743493,0.009361948,0.012513815,0.039091356],"study_design_scores_gemma":[0.0028153951,0.00073538994,0.94079417,0.00017124352,0.00017916391,0.0028126256,0.002201843,0.0057882387,0.023200512,0.006010723,0.014447747,0.0008429433],"about_ca_topic_score_codex":0.000056123434,"about_ca_topic_score_gemma":0.0010349042,"teacher_disagreement_score":0.3251308,"about_ca_system_score_codex":0.000007966334,"about_ca_system_score_gemma":0.00005242738,"threshold_uncertainty_score":0.36592245},"labels":[],"label_agreement":null},{"id":"W4205348340","doi":"10.1093/cercor/bhab502","title":"Shared and distinct patterns of atypical cortical morphometry in children with autism and anxiety","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Centre Azrieli de recherche sur l'autisme, Institut et Hôpital Neurologiques de Montréal; National Institute of Mental Health; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Hospital for Sick Children","keywords":"Typically developing; Autism; Autism spectrum disorder; Anxiety; Pathological; Psychology; Neurodevelopmental disorder; Neuroscience; Audiology; Developmental psychology; Medicine; Pathology; Psychiatry","score_opus":0.016075670143490362,"score_gpt":0.2595222168292281,"score_spread":0.24344654668573773,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205348340","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985763,0.00010417921,0.00012433482,0.00066095183,0.000018110724,0.00021137095,0.00007903,0.000025315527,0.00020042888],"genre_scores_gemma":[0.99961805,0.000072608695,0.00008580474,0.00009613036,0.0000096900385,0.000008592707,0.000013286434,0.000019252677,0.0000766013],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9984467,0.00012454079,0.00020819106,0.0005680239,0.0003170594,0.00033546533],"domain_scores_gemma":[0.9994327,0.00010561889,0.00004595787,0.0002520207,0.0000078821095,0.00015581113],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000077073375,0.0001418066,0.00024597847,0.00008470607,0.000070893,0.000055510744,0.00013959454,0.000071886374,0.00032699868],"category_scores_gemma":[0.00020142425,0.00012159278,0.00002514922,0.00040114755,0.0002812702,0.00013341596,0.00030198746,0.00036241618,0.0000059576464],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006427737,0.00011612323,0.983308,0.00002307266,0.0000062761796,0.000047573714,0.00006811718,2.2701784e-7,0.006969492,0.008227739,0.0000071420795,0.0011619423],"study_design_scores_gemma":[0.0010003058,0.00014535195,0.9900036,0.00003241407,0.000009096405,0.0003275531,0.000025761394,0.00041188157,0.0069055734,0.0009842261,0.000008845951,0.00014537649],"about_ca_topic_score_codex":0.00011352702,"about_ca_topic_score_gemma":0.0003088661,"teacher_disagreement_score":0.007243512,"about_ca_system_score_codex":0.00002328748,"about_ca_system_score_gemma":0.00007242056,"threshold_uncertainty_score":0.49584094},"labels":[],"label_agreement":null},{"id":"W4205466936","doi":"10.1093/cercor/bhab515","title":"miRNA-126a-3p participates in hippocampal memory via alzheimer’s disease-related proteins","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"MicroRNA in disease regulation","field":"Biochemistry, Genetics and Molecular Biology","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Royal Ottawa Mental Health Centre; University of Ottawa","funders":"Natural Science Foundation of Shandong Province; National Natural Science Foundation of China","keywords":"microRNA; Hippocampal formation; Memory consolidation; Hippocampus; Neuroscience; Neuroinflammation; Dentate gyrus; Biology; Downregulation and upregulation; Psychology; Disease; Gene; Medicine; Genetics; Pathology","score_opus":0.015944429547452885,"score_gpt":0.2569133518238176,"score_spread":0.24096892227636468,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205466936","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99358326,0.0048493464,0.00011863831,0.0002899781,0.00019315,0.00040146225,0.000029548202,0.00003228029,0.0005023088],"genre_scores_gemma":[0.99817604,0.000029336676,0.00021572968,0.00018906292,0.00013523782,0.000083019004,0.000670833,0.00003937335,0.00046136673],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984341,0.00014332695,0.0003458199,0.0005315459,0.00016487607,0.00038031134],"domain_scores_gemma":[0.9990411,0.000008388063,0.00009789023,0.00051018514,0.0000999779,0.00024246902],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010553733,0.00021160486,0.00018459922,0.000045934325,0.00006474096,0.000031435015,0.00015715606,0.00016347533,0.00047278422],"category_scores_gemma":[0.0000894584,0.00022353315,0.00014086317,0.0001992519,0.00009085547,0.000010015324,0.00014078435,0.00011953105,0.000087725035],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018929549,0.00032465483,0.049470052,0.00004730777,0.00016814764,0.00014611696,0.000082435225,0.000263064,0.94331104,0.00009239923,0.0012740932,0.004631376],"study_design_scores_gemma":[0.0014311953,0.000094226816,0.61376,0.00006337084,0.0001557199,0.000027224167,0.00006509433,0.0016020358,0.37936017,0.0013524503,0.0015685975,0.0005199309],"about_ca_topic_score_codex":0.000027316646,"about_ca_topic_score_gemma":0.00010738916,"teacher_disagreement_score":0.5642899,"about_ca_system_score_codex":0.000030023426,"about_ca_system_score_gemma":0.00023502491,"threshold_uncertainty_score":0.91154176},"labels":[],"label_agreement":null},{"id":"W4205522868","doi":"10.1093/cercor/bhab476","title":"Predicting children’s math skills from task-based and resting-state functional brain connectivity","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Science Foundation of Sri Lanka; National Institutes of Health","keywords":"Resting state fMRI; Functional connectivity; Task (project management); Psychology; Neuroscience; Cognitive psychology","score_opus":0.018357120788656464,"score_gpt":0.23378587550132388,"score_spread":0.21542875471266743,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205522868","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99094874,0.00010775826,0.0010661958,0.0054715904,0.0007255386,0.00024219758,0.00042034255,0.0003019262,0.0007157356],"genre_scores_gemma":[0.98996866,0.000006162199,0.0002848391,0.008604436,0.0003049472,0.000031961365,0.00005899991,0.000039309132,0.0007006668],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9972701,0.00032565184,0.0002901948,0.0011987364,0.00049097853,0.00042431356],"domain_scores_gemma":[0.98987323,0.009307653,0.00016639078,0.0003744423,0.00012274718,0.00015553046],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025859708,0.00029764653,0.00032642545,0.000083595,0.0006363941,0.00015123661,0.0001316535,0.00008715066,0.00017532779],"category_scores_gemma":[0.01687892,0.00030302396,0.00010599522,0.0003654629,0.00026348146,0.0003106825,0.00026553043,0.00039024354,0.00006224123],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014241425,0.00031672468,0.83172613,0.000026870424,0.00007099055,0.00011655807,0.00024062349,0.00039660823,0.15651542,0.0015637806,0.005929185,0.002954726],"study_design_scores_gemma":[0.0012613739,0.0001056432,0.95519286,0.00005313542,0.000026469444,0.00009283075,0.00004205917,0.0054887626,0.033718564,0.003155581,0.00052538834,0.0003373311],"about_ca_topic_score_codex":0.00021918063,"about_ca_topic_score_gemma":0.0004194606,"teacher_disagreement_score":0.12346676,"about_ca_system_score_codex":0.000099956625,"about_ca_system_score_gemma":0.00021111612,"threshold_uncertainty_score":0.9999422},"labels":[],"label_agreement":null},{"id":"W4205539745","doi":"10.1093/cercor/bhab459","title":"Perceptual coupling and decoupling are associated with individual differences in working memory encoding and maintenance","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Kingston Health Sciences Centre; Queen's University","funders":"European Research Council","keywords":"Distraction; Working memory; Retrosplenial cortex; Psychology; Perception; Neuroscience; Encoding (memory); Default mode network; Salience (neuroscience); Cognitive psychology; Visual cortex; Cognition; Cortex (anatomy)","score_opus":0.13359069483941333,"score_gpt":0.29978331871540104,"score_spread":0.1661926238759877,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205539745","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9990138,0.00016625941,0.000001954864,0.00024430323,0.00018537413,0.00017003177,0.000017083943,0.00005878871,0.00014244583],"genre_scores_gemma":[0.99923015,0.000037691796,0.000014167797,0.0004761753,0.000023564804,0.000032999735,0.000002426566,0.000014342784,0.00016846837],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985574,0.00005971753,0.00019128335,0.0005653876,0.00025387408,0.00037234311],"domain_scores_gemma":[0.999487,0.00021471072,0.00013938159,0.0000867429,0.000012158949,0.000060019243],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00020008485,0.00017867614,0.0002686354,0.00010203619,0.0006583594,0.000064892854,0.00017064219,0.000039644012,0.000041791565],"category_scores_gemma":[0.00009793223,0.00014320109,0.000020337031,0.00030281313,0.0003075765,0.00012171986,0.0003341349,0.00046861707,8.221985e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000049844173,0.0000561093,0.98228854,0.0000047998433,0.0000057072634,0.00012891677,0.0011982286,0.000019093144,0.01472625,0.000028914925,0.000025111962,0.0014684612],"study_design_scores_gemma":[0.0007791609,0.00020039218,0.99101734,0.00007408241,0.00002149725,0.000064691674,0.006143458,0.00070184906,0.00063883024,0.00010447367,0.000007933577,0.0002463101],"about_ca_topic_score_codex":0.00002171595,"about_ca_topic_score_gemma":0.00016616765,"teacher_disagreement_score":0.01408742,"about_ca_system_score_codex":0.000045145945,"about_ca_system_score_gemma":0.000012377583,"threshold_uncertainty_score":0.5839571},"labels":[],"label_agreement":null},{"id":"W4205546873","doi":"10.1093/cercor/bhab484","title":"Effective connectivity and criminal sentencing decisions: dynamic causal models in laypersons and legal experts","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Deception detection and forensic psychology","field":"Psychology","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Japan Society for the Promotion of Science; University of Tokyo; Institut national de la recherche scientifique","keywords":"Psychology; Criminology; Criminal law; Social psychology; Political science; Cognitive psychology","score_opus":0.02887084717306129,"score_gpt":0.3231713771199847,"score_spread":0.29430052994692346,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205546873","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98625463,0.0006700706,0.003957919,0.0002773203,0.001131372,0.00021097013,0.000012220173,0.000056072586,0.007429403],"genre_scores_gemma":[0.99774355,0.000043426422,0.00021942568,0.0006632591,0.000047912417,0.000048009377,0.0000078540725,0.000019242543,0.0012072943],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9984812,0.0002654151,0.00021769023,0.00061747746,0.00010893909,0.00030925652],"domain_scores_gemma":[0.99920166,0.00029196512,0.000055806275,0.00024744618,0.000064228465,0.00013887252],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018020163,0.00017735953,0.0002868618,0.0001673985,0.000119187214,0.000044500666,0.000052942203,0.00017197819,0.00047347182],"category_scores_gemma":[0.00011862281,0.00017827016,0.000051926476,0.00020671044,0.00019555718,0.00018826613,0.000075653974,0.00027090596,0.000031148855],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018056533,0.0011547591,0.046581917,0.000061504485,0.00040651488,0.0037918682,0.0245776,0.000056339934,0.030448109,0.048370473,0.0056094117,0.83713585],"study_design_scores_gemma":[0.0039612046,0.00037674117,0.952249,0.00007532837,0.000053752243,0.0045107594,0.024854492,0.0075623887,0.0001230958,0.0050345277,0.0007436816,0.00045505416],"about_ca_topic_score_codex":0.00032100972,"about_ca_topic_score_gemma":0.0021808161,"teacher_disagreement_score":0.90566707,"about_ca_system_score_codex":0.000064081956,"about_ca_system_score_gemma":0.000028751681,"threshold_uncertainty_score":0.7269646},"labels":[],"label_agreement":null},{"id":"W4205632005","doi":"10.1093/cercor/bhab520","title":"Brain functional network abnormalities in parkinson’s disease with mild cognitive impairment","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"West China Hospital, Sichuan University; Medical Research Council; Sichuan University; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Default mode network; Montreal Cognitive Assessment; Dementia; Cognition; Neuropsychology; Functional magnetic resonance imaging; Neuroscience; Parkinson's disease; Psychology; Resting state fMRI; Disease; Cognitive impairment; Internal medicine; Medicine","score_opus":0.030235287275348896,"score_gpt":0.24527936029532893,"score_spread":0.21504407301998002,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4205632005","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98470473,0.00034154116,0.00022616508,0.009758257,0.00064626755,0.00036901937,0.00010314868,0.000118508106,0.0037323376],"genre_scores_gemma":[0.97905105,0.000020790698,0.000047512032,0.016839996,0.0003553068,0.00014399544,0.000035024463,0.000026465248,0.0034798458],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99776155,0.00026382785,0.00022714176,0.0007577776,0.00048387054,0.00050584343],"domain_scores_gemma":[0.99638885,0.0030446234,0.00007750697,0.00020969036,0.00010980415,0.00016950008],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017789964,0.00024284524,0.00023955561,0.000074063406,0.00030558076,0.00007404459,0.0000977375,0.000043512875,0.0005926725],"category_scores_gemma":[0.0016723274,0.00022056278,0.00008959092,0.0005730107,0.0002319155,0.0002978731,0.00016296489,0.00025296616,0.00007669891],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0032975783,0.00077296305,0.89630115,0.00011948326,0.000101196856,0.0015203932,0.0007006565,0.0020107278,0.0006128078,0.014213243,0.07939501,0.0009547821],"study_design_scores_gemma":[0.0016236219,0.00018301197,0.98257,0.00013348626,0.000023559318,0.00005826958,0.0005399876,0.0003776447,0.0010452154,0.0022834209,0.010821762,0.00034003184],"about_ca_topic_score_codex":0.000034148536,"about_ca_topic_score_gemma":0.0005796494,"teacher_disagreement_score":0.086268835,"about_ca_system_score_codex":0.00013858598,"about_ca_system_score_gemma":0.0003174196,"threshold_uncertainty_score":0.8994289},"labels":[],"label_agreement":null},{"id":"W4206102897","doi":"10.1093/cercor/bhab452","title":"Representational similarity scores of digits in the sensorimotor cortex are associated with behavioral performance","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre for Movement Disorders","funders":"Fonds Wetenschappelijk Onderzoek","keywords":"Numerical digit; Psychology; Similarity (geometry); Functional magnetic resonance imaging; Cognitive psychology; Neuroscience; Computer science; Artificial intelligence; Arithmetic","score_opus":0.06705452001138384,"score_gpt":0.2997051918421953,"score_spread":0.23265067183081145,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4206102897","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9978493,0.000025883932,0.00001551833,0.00029866394,0.00011449257,0.00026549786,0.0000910766,0.000034456116,0.0013051461],"genre_scores_gemma":[0.99934435,0.000010334649,0.00005331218,0.00029478874,0.00002918373,0.000018071929,0.00001536756,0.000012166915,0.000222453],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998357,0.0001737696,0.00030180765,0.00036592307,0.00057591946,0.0002255873],"domain_scores_gemma":[0.99889785,0.00046009358,0.00016847541,0.0002629688,0.00017499836,0.000035622827],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000995494,0.00014333351,0.0002330284,0.000051330437,0.00013460487,0.000043364103,0.00019312729,0.000051058778,0.00012366935],"category_scores_gemma":[0.0004429925,0.00010609545,0.000055219665,0.0006225668,0.00025305958,0.00017735733,0.00004460211,0.00018948944,0.000006895834],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00011608861,0.00034042372,0.96578217,0.000019221718,0.0000075077287,0.00008622251,0.0006507765,0.00019154484,0.032111388,0.000260699,0.00009453603,0.00033939857],"study_design_scores_gemma":[0.0010874944,0.00016151184,0.9923377,0.00005412214,0.000026113737,0.000018424329,0.00027181892,0.0006464795,0.0051622624,0.00008104132,0.000026419144,0.00012658793],"about_ca_topic_score_codex":0.00003822913,"about_ca_topic_score_gemma":0.00027475497,"teacher_disagreement_score":0.026949124,"about_ca_system_score_codex":0.000027771512,"about_ca_system_score_gemma":0.00008078569,"threshold_uncertainty_score":0.4326447},"labels":[],"label_agreement":null},{"id":"W4206611890","doi":"10.1093/cercor/bhab528","title":"Propofol anesthesia concentration rather than abrupt behavioral unresponsiveness linearly degrades responses in the rat primary auditory cortex","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Azrieli Foundation; Israel Science Foundation","keywords":"Propofol; Auditory cortex; Anesthesia; Neuroscience; Medicine; Cortex (anatomy); Psychology","score_opus":0.03598184008955218,"score_gpt":0.2825772585316492,"score_spread":0.24659541844209704,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4206611890","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9961343,0.00010190799,0.000050125964,0.0019949174,0.0007998807,0.0005893591,0.000014116304,0.00008501398,0.00023042316],"genre_scores_gemma":[0.9938668,0.000039273626,0.000046362376,0.0027359552,0.0002546082,0.000063158426,0.000047215693,0.000035741385,0.002910871],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99681723,0.0011996941,0.0003762884,0.000659163,0.00052226125,0.00042534943],"domain_scores_gemma":[0.9986592,0.0004982003,0.00016600647,0.0004793816,0.0001143911,0.00008284333],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00036406645,0.00026819474,0.0002633703,0.00008002288,0.0002951026,0.00026862926,0.0003607394,0.0001397841,0.00009071911],"category_scores_gemma":[0.00026407512,0.00020009704,0.00012740916,0.0006176758,0.00024277682,0.00042868094,0.000055924243,0.00039630645,0.00005216122],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006517601,0.0003487986,0.018176576,0.00002353219,0.0000033633974,0.0013484783,0.0005158681,0.00001163539,0.97460717,0.0014255061,0.00069964025,0.0021876607],"study_design_scores_gemma":[0.001228736,0.00057407195,0.8929809,0.00007155375,0.000045068413,0.0008887395,0.0005499696,0.0010019814,0.09569714,0.00049305253,0.005957106,0.0005116851],"about_ca_topic_score_codex":0.00003228202,"about_ca_topic_score_gemma":0.00011053849,"teacher_disagreement_score":0.87891006,"about_ca_system_score_codex":0.00011789989,"about_ca_system_score_gemma":0.00040991552,"threshold_uncertainty_score":0.8159721},"labels":[],"label_agreement":null},{"id":"W4207065370","doi":"10.1093/cercor/bhac027","title":"Developmental course of the repetition effect and change detection responses from infancy through childhood: a longitudinal study","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal; Centre Hospitalier Universitaire Sainte-Justine; École de Technologie Supérieure; Université de Montréal; Cégep Marie-Victorin","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Repetition (rhetorical device); Psychology; Electroencephalography; Oddball paradigm; Audiology; Developmental psychology; Brain activity and meditation; Early childhood; Cognition; Neuroscience; Event-related potential; Medicine","score_opus":0.049320257420175685,"score_gpt":0.2963179132115268,"score_spread":0.2469976557913511,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4207065370","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99837995,0.000013550837,0.000009896827,0.00007807638,0.0005698007,0.0007616334,0.000056517878,0.000040581243,0.000089981746],"genre_scores_gemma":[0.99922353,0.00000894832,0.000008099638,0.00048241243,0.00006411891,0.00014751639,0.000002070537,0.000010032083,0.000053265892],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99842906,0.0004313148,0.00016875604,0.00044449503,0.0003650086,0.00016134387],"domain_scores_gemma":[0.9995487,0.00011030741,0.00012355637,0.00017652004,0.000011245221,0.000029706378],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019468578,0.00012121301,0.00013264864,0.00004447601,0.00065400155,0.000029654606,0.00019610814,0.000020573498,0.00014043978],"category_scores_gemma":[0.0001413015,0.00009128019,0.000046294,0.00042389825,0.0001382446,0.00031394185,0.00030888396,0.00019548839,0.0000042886313],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019813892,0.00031223337,0.17212453,0.0000052337928,0.000003905952,0.000012406576,0.006535438,5.851447e-7,0.81252843,0.000016063976,0.000025576124,0.00823743],"study_design_scores_gemma":[0.0005357715,0.00069011777,0.9442833,0.0000097784305,0.000019083596,0.00007534767,0.00072049996,0.000018154253,0.053323757,0.00011340435,0.00011410669,0.000096676806],"about_ca_topic_score_codex":0.00029529812,"about_ca_topic_score_gemma":0.00016954682,"teacher_disagreement_score":0.7721588,"about_ca_system_score_codex":0.000044121436,"about_ca_system_score_gemma":0.000043791057,"threshold_uncertainty_score":0.50301176},"labels":[],"label_agreement":null},{"id":"W4210300760","doi":"10.1093/cercor/bhab517","title":"Hyperexcitable and immature-like neuronal activity in the auditory cortex of adult rats lacking the language-linked <i>CNTNAP2</i> gene","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neural Engineering","field":"Neuroscience","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Luonnontieteiden ja Tekniikan Tutkimuksen Toimikunta; Simons Foundation Autism Research Initiative","keywords":"Neuroscience; Auditory cortex; Psychology; Biology","score_opus":0.016774125299773353,"score_gpt":0.23793991099642947,"score_spread":0.22116578569665613,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210300760","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99757266,0.00006847074,0.000010378302,0.0005613512,0.0009987664,0.00032616814,0.00003346877,0.00004702449,0.00038168905],"genre_scores_gemma":[0.99613756,0.00003447815,0.000008229494,0.0033386243,0.0001199477,0.000044042416,0.0000017381972,0.000022221675,0.0002931477],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9980509,0.00030551717,0.0002197563,0.00047620566,0.0005489946,0.00039857504],"domain_scores_gemma":[0.9989715,0.00041343793,0.00013290346,0.0004112901,0.000016924114,0.000053911677],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026432527,0.00019028201,0.00020304088,0.00008387353,0.00046215625,0.000066516724,0.000715532,0.000035177218,0.0000386035],"category_scores_gemma":[0.0001651142,0.00012713167,0.00007367904,0.0006613182,0.00021314029,0.00026948703,0.00033931783,0.0007130009,0.0000037630748],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000062312894,0.000053379354,0.0003482173,0.000014768287,0.0000013468742,0.00006194038,0.00062401034,0.00017090056,0.9972284,0.00024005357,0.00036145555,0.00083321985],"study_design_scores_gemma":[0.0014680804,0.00059842155,0.31778115,0.000028853483,0.000040049585,0.0006790521,0.0017591893,0.019766958,0.6530648,0.00022774137,0.0038906066,0.0006950933],"about_ca_topic_score_codex":0.00006292638,"about_ca_topic_score_gemma":0.000018104545,"teacher_disagreement_score":0.3441636,"about_ca_system_score_codex":0.000027231565,"about_ca_system_score_gemma":0.000058071546,"threshold_uncertainty_score":0.5184279},"labels":[],"label_agreement":null},{"id":"W4210329175","doi":"10.1093/cercor/bhac056","title":"Age differences in the functional architecture of the human brain","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":93,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; York University; Public Health Ontario; Mila - Quebec Artificial Intelligence Institute; Montreal Neurological Institute and Hospital; University of Toronto; Douglas Mental Health University Institute; McGill University; McGill Genome Centre","funders":"National Center for Research Resources; National Institute of Neurological Disorders and Stroke; Canadian Institutes of Health Research; National Institute on Aging; National Institutes of Health","keywords":"Human Connectome Project; Connectome; Modularity (biology); Neuroscience; Functional connectivity; Somatosensory system; Human brain; Default mode network; Psychology; Resting state fMRI; Nerve net; Brain mapping; Functional magnetic resonance imaging; Biology; Evolutionary biology","score_opus":0.05134414931747194,"score_gpt":0.25420315794074644,"score_spread":0.2028590086232745,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210329175","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97867584,0.00002079018,0.000016397782,0.016314317,0.00045534674,0.0002436698,0.000034318127,0.000020392996,0.004218896],"genre_scores_gemma":[0.98968035,3.5162068e-7,0.0000032585142,0.008715871,0.00007531337,0.000074802796,0.0000022201502,0.0000073516057,0.001440471],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99820626,0.0005653431,0.00016025474,0.00030375636,0.00058703136,0.0001773326],"domain_scores_gemma":[0.9969043,0.0026842416,0.0000899736,0.0002963255,0.000010996598,0.0000141692135],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028846855,0.00010874771,0.0001367516,0.00006478146,0.00074478134,0.000020797657,0.0005618458,0.000018211931,0.00039557976],"category_scores_gemma":[0.001315631,0.00006231348,0.00010126429,0.000517762,0.000285405,0.00004050462,0.0003775589,0.0004527906,0.0000039836655],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015672871,0.0007606431,0.31615624,0.00005062457,0.00003805472,0.00005933344,0.0081357835,0.0009087265,0.44695908,0.15563582,0.06916208,0.0019768984],"study_design_scores_gemma":[0.00028827778,0.0001184527,0.97486705,0.000004464584,0.0000046411624,0.00003267928,0.0006226448,0.0000349274,0.0010114642,0.01737712,0.005548646,0.000089659006],"about_ca_topic_score_codex":0.00006191455,"about_ca_topic_score_gemma":0.0002639561,"teacher_disagreement_score":0.6587108,"about_ca_system_score_codex":0.00004149578,"about_ca_system_score_gemma":0.000037335325,"threshold_uncertainty_score":0.5728331},"labels":[],"label_agreement":null},{"id":"W4210478741","doi":"10.1093/cercor/bhab504","title":"Intrinsic dynamics and topography of sensory input systems","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Royal Ottawa Mental Health Centre; University of Ottawa","funders":"National Key Research and Development Program of China; Canadian Institutes of Health Research","keywords":"Sample entropy; Sensory system; Functional magnetic resonance imaging; Dynamics (music); Computer science; Neuroscience; Artificial intelligence; Biological system; Psychology; Pattern recognition (psychology); Biology","score_opus":0.017517625896669293,"score_gpt":0.22305470260335555,"score_spread":0.20553707670668625,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210478741","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99675477,0.00005539106,0.00008485549,0.00016901844,0.00086882175,0.00019689945,0.000089128625,0.000050170715,0.0017309284],"genre_scores_gemma":[0.9983348,0.000018753402,0.0000107463575,0.00040227748,0.00003425298,0.000013208365,0.00000918584,0.00001304204,0.0011637232],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9990126,0.00011621193,0.00019263338,0.00028756558,0.00023069655,0.00016030793],"domain_scores_gemma":[0.9995367,0.00008874306,0.000114874,0.00018458145,0.000022331262,0.000052782474],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009781706,0.000096516844,0.00015130447,0.00013558187,0.00019476427,0.000027932178,0.00012870166,0.000025670588,0.00004792477],"category_scores_gemma":[0.000046074445,0.000093778115,0.000052761818,0.00035245987,0.00009607791,0.00007958905,0.00018626648,0.00018585354,0.0000026538341],"study_design_candidate":"simulation_or_modeling","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00028442737,0.00031292372,0.049451917,0.00031246466,0.000034117205,0.0001264109,0.00031311653,0.0011958276,0.49167582,0.42267728,0.0012655949,0.03235009],"study_design_scores_gemma":[0.003553679,0.0034643854,0.20480315,0.00006901651,0.00012942005,0.0015178593,0.0018503298,0.7375327,0.017921202,0.01033036,0.01707874,0.0017492109],"about_ca_topic_score_codex":0.00005423832,"about_ca_topic_score_gemma":0.000009409977,"teacher_disagreement_score":0.7363368,"about_ca_system_score_codex":0.000040350536,"about_ca_system_score_gemma":0.00001661339,"threshold_uncertainty_score":0.38241604},"labels":[],"label_agreement":null},{"id":"W4210674328","doi":"10.1093/cercor/bhac049","title":"Continuous theta burst stimulation over left and right supramarginal gyri demonstrates their involvement in auditory feedback control of vocal production","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"Fundamental Research Funds for the Central Universities; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Auditory feedback; Psychology; Audiology; Stimulation; Supramarginal gyrus; Speech production; Neuroscience; Medicine; Functional magnetic resonance imaging; Speech recognition","score_opus":0.017838295105217963,"score_gpt":0.24082338741054407,"score_spread":0.2229850923053261,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210674328","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.997615,0.000018661309,0.00008334388,0.00031400373,0.0010700475,0.00052581914,0.000037246966,0.000035928075,0.00029996774],"genre_scores_gemma":[0.99906105,0.000014176344,0.000007623118,0.00039346673,0.00013837905,0.000023908624,0.0000085209085,0.000011692068,0.00034121276],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99831146,0.0002277628,0.00029603316,0.00053409336,0.00036617075,0.0002645058],"domain_scores_gemma":[0.9994649,0.00007919372,0.00016321786,0.00020524552,0.000029463816,0.000057977923],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00030935832,0.00015268193,0.00020907701,0.00014283124,0.00025592162,0.00003990351,0.00017122303,0.000037749418,0.0004474519],"category_scores_gemma":[0.00008577393,0.00013419043,0.00004713401,0.00023829177,0.00030533256,0.00037854796,0.000092617454,0.00024059227,0.000004496222],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013734655,0.00019716145,0.030201938,0.00001568444,0.0000020565858,0.000007641169,0.00048432936,0.00051720766,0.9663359,0.00038879464,0.00033591295,0.0013760184],"study_design_scores_gemma":[0.001944548,0.0007145234,0.92789584,0.000026413914,0.000021993947,0.0000780747,0.0007256699,0.01349609,0.051355243,0.0014637499,0.001975557,0.00030228344],"about_ca_topic_score_codex":0.000055065484,"about_ca_topic_score_gemma":0.00006091243,"teacher_disagreement_score":0.91498065,"about_ca_system_score_codex":0.000086884815,"about_ca_system_score_gemma":0.0000755082,"threshold_uncertainty_score":0.54721266},"labels":[],"label_agreement":null},{"id":"W4210706489","doi":"10.1093/cercor/bhac058","title":"Context free and context-dependent conceptual representation in the brain","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":28,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Kingston Health Sciences Centre; Queen's University","funders":"European Research Council","keywords":"Cognitive psychology; Psychology; Supramarginal gyrus; Angular gyrus; Context (archaeology); Association (psychology); Cognition; Similarity (geometry); Semantic memory; Prefrontal cortex; Representation (politics); Cognitive neuroscience; Functional magnetic resonance imaging; Neuroscience; Computer science; Artificial intelligence","score_opus":0.0449421974487575,"score_gpt":0.2905009796042287,"score_spread":0.24555878215547122,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210706489","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9935957,0.00034652808,0.000004388728,0.004167997,0.00029808824,0.00036258582,0.000053409793,0.000037170357,0.0011340855],"genre_scores_gemma":[0.9748051,0.00000802244,0.000003219191,0.024322545,0.00006197704,0.000044356475,0.0000088076695,0.000009169674,0.0007367881],"study_design_codex":"bench_or_experimental","study_design_gemma":"qualitative","domain_scores_codex":[0.99819607,0.00069222413,0.00020548131,0.00043660012,0.00024855847,0.00022109425],"domain_scores_gemma":[0.99881387,0.00068752444,0.00007778724,0.00037597233,0.000010111498,0.00003471346],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00034139238,0.00010890847,0.00015041613,0.000056338977,0.00027013232,0.00003908652,0.00047839485,0.00003272838,0.0004448006],"category_scores_gemma":[0.00061249675,0.00008279734,0.00004906832,0.0001733014,0.0002999819,0.00010104109,0.00029233863,0.0003526346,0.000013280522],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006249545,0.0006013819,0.021321623,0.000023045355,0.000030332962,0.0065509747,0.09018308,0.000037281556,0.6936469,0.05220168,0.045864895,0.088913865],"study_design_scores_gemma":[0.030429266,0.0053335098,0.088088445,0.00005064801,0.000140836,0.015559008,0.42022973,0.0010040329,0.21116222,0.035157926,0.19010448,0.0027398716],"about_ca_topic_score_codex":0.00029996078,"about_ca_topic_score_gemma":0.00030956924,"teacher_disagreement_score":0.48248467,"about_ca_system_score_codex":0.000021861762,"about_ca_system_score_gemma":0.00002825274,"threshold_uncertainty_score":0.48702544},"labels":[],"label_agreement":null},{"id":"W4210877527","doi":"10.1093/cercor/bhac081","title":"A fronto-insular-parietal network for the sense of body ownership","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Psychosomatic Disorders and Their Treatments","field":"Medicine","cited_by":43,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research","funders":"Ernest Oppenheimer Memorial Trust; Ministero dell’Istruzione, dell’Università e della Ricerca; British Psychological Society; Fondation pour la Recherche Médicale; British Neuropsychological Society","keywords":"Psychology; Disconnection; Neuropsychology; Salience (neuroscience); Cognitive psychology; Neurocognitive; Cognition; Neuroscience","score_opus":0.020913555032486722,"score_gpt":0.26603914538132517,"score_spread":0.24512559034883846,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4210877527","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9791894,0.002597419,0.0013421034,0.0021209423,0.0011630269,0.0019089176,0.0001633572,0.00007184287,0.011442995],"genre_scores_gemma":[0.99512863,0.000012095867,0.0005095617,0.0007611857,0.00014991482,0.00016789288,0.000109192624,0.00002368844,0.0031378616],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99909186,0.000039438306,0.0002157856,0.00017986253,0.00022146151,0.00025156152],"domain_scores_gemma":[0.9993022,0.00012033257,0.00011417595,0.00036334657,0.00003360186,0.000066316934],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016349176,0.0001215284,0.00025342425,0.000022266137,0.00022750633,0.00000837782,0.00010134307,0.000029736051,0.0006117706],"category_scores_gemma":[0.000029510085,0.00007629211,0.00019396526,0.00013702248,0.00005826633,0.000024240546,0.000055965636,0.00011261504,0.000008976111],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.01337733,0.0065247226,0.43724346,0.0010050737,0.008557744,0.0003691632,0.008950515,0.00059910526,0.003625043,0.05843632,0.41041058,0.050900955],"study_design_scores_gemma":[0.031986345,0.0071108346,0.57535297,0.0003649603,0.0024645932,0.0006296332,0.008871478,0.037028234,0.0003094829,0.03827883,0.29667434,0.00092832436],"about_ca_topic_score_codex":0.00007685172,"about_ca_topic_score_gemma":0.000013993957,"teacher_disagreement_score":0.13810949,"about_ca_system_score_codex":0.000036362773,"about_ca_system_score_gemma":0.000061282975,"threshold_uncertainty_score":0.6698459},"labels":[],"label_agreement":null},{"id":"W4212869175","doi":"10.1093/cercor/bhab480","title":"Cognitive effort exertion enhances electrophysiological responses to rewarding outcomes","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":56,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Natural Sciences and Engineering Research Council of Canada; Deutsche Forschungsgemeinschaft; Deutscher Akademischer Austauschdienst","keywords":"Cognition; Psychology; Affect (linguistics); Cognitive psychology; Discounting; Task (project management); Electroencephalography; Exertion; Effects of sleep deprivation on cognitive performance; Neural correlates of consciousness; Delay discounting; Neuroscience; Developmental psychology; Impulsivity; Medicine","score_opus":0.12152377739818766,"score_gpt":0.3909704059560303,"score_spread":0.2694466285578426,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4212869175","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99654305,0.0000407826,0.000029803605,0.0014227994,0.00050529913,0.00018665275,0.000014698108,0.0001345295,0.0011223844],"genre_scores_gemma":[0.9904919,0.00003221933,0.000059862956,0.0050008427,0.00007623206,0.00004303314,0.000004412291,0.000011186153,0.0042802617],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9983703,0.00014716109,0.00021221804,0.00067784893,0.00020060508,0.0003919049],"domain_scores_gemma":[0.9993746,0.00023829922,0.000056041987,0.0001592756,0.000074008734,0.000097774515],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000060808154,0.0001881577,0.00029560446,0.00005457204,0.00028402326,0.00004154218,0.0001469783,0.00006746163,0.00017622687],"category_scores_gemma":[0.00064268016,0.00013616473,0.00012444996,0.00035576482,0.00014073848,0.00013081527,0.00015183204,0.00019508327,0.00035658886],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029890848,0.000088559544,0.01990316,0.0000032813712,0.0000059692507,0.00015247552,0.000053765536,1.8572398e-7,0.9761449,0.00009758264,0.00040503195,0.0028461916],"study_design_scores_gemma":[0.00018433962,0.00033423354,0.3895541,0.000014552071,0.00001627348,0.000027925948,0.00008655266,7.237024e-7,0.6090432,0.000377789,0.00021565703,0.00014464612],"about_ca_topic_score_codex":0.0000049762875,"about_ca_topic_score_gemma":0.000007912356,"teacher_disagreement_score":0.36965096,"about_ca_system_score_codex":0.000024289355,"about_ca_system_score_gemma":0.000023350587,"threshold_uncertainty_score":0.55526364},"labels":[],"label_agreement":null},{"id":"W4212877785","doi":"10.1093/cercor/bhac099","title":"Voxel-based morphometry and a deep learning model for the diagnosis of early Alzheimer’s disease based on cerebral gray matter changes","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Dementia and Cognitive Impairment Research","field":"Medicine","cited_by":57,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Toronto Western Hospital; University of Toronto; University Health Network","funders":"National Natural Science Foundation of China; Li Ka Shing Foundation","keywords":"Voxel-based morphometry; Voxel; Gray (unit); Neuroscience; Neuroimaging; Alzheimer's disease; Disease; Artificial intelligence; Medicine; Pathology; Magnetic resonance imaging; Psychology; White matter; Computer science; Radiology","score_opus":0.0350495939762636,"score_gpt":0.29891063708950066,"score_spread":0.26386104311323705,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4212877785","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9890698,0.00081878627,0.0033101805,0.0047524464,0.00007616201,0.0015331524,0.00014513262,0.000040194307,0.00025412903],"genre_scores_gemma":[0.99406964,0.00001171541,0.00018012874,0.0034746798,0.000058952155,0.0013348139,0.00013283815,0.00004586826,0.000691375],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99828976,0.00012455245,0.00019292641,0.00038230448,0.000605355,0.00040512282],"domain_scores_gemma":[0.9988925,0.000377949,0.00010157887,0.00028193864,0.000115106435,0.00023091739],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00034057986,0.0001977028,0.00026651847,0.00025286293,0.00037654108,0.000037500093,0.00015976142,0.00003440746,0.0022768262],"category_scores_gemma":[0.00008472536,0.00014707523,0.00016720255,0.00027817284,0.00014460861,0.000046118606,0.00011857346,0.00032824182,0.000013259922],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018874456,0.00041543294,0.9837186,0.0001380461,0.00013304118,0.000015527989,0.00013948951,0.00080845517,0.0001244738,0.000034466688,0.0010368122,0.011548227],"study_design_scores_gemma":[0.0027112484,0.001526438,0.6545618,0.0000431045,0.00046736602,0.0000015544782,0.00019269831,0.33939484,0.00045793483,0.000059860315,0.0004403293,0.0001428398],"about_ca_topic_score_codex":0.000045935554,"about_ca_topic_score_gemma":0.000012536188,"teacher_disagreement_score":0.3385864,"about_ca_system_score_codex":0.000043934924,"about_ca_system_score_gemma":0.00012265317,"threshold_uncertainty_score":0.99863523},"labels":[],"label_agreement":null},{"id":"W4213243556","doi":"10.1093/cercor/bhac042","title":"From temporal to spatial topography: hierarchy of neural dynamics in higher- and lower-order networks shapes their complexity","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Royal Ottawa Mental Health Centre; University of Ottawa","funders":"Horizon 2020 Framework Programme; Canadian Institutes of Health Research; Ministry of Science and Technology","keywords":"Hierarchy; Computer science; Artificial neural network; Artificial intelligence","score_opus":0.04582616531748227,"score_gpt":0.2528336687569512,"score_spread":0.20700750343946892,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4213243556","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9924808,0.00006733278,0.00035270475,0.0049445406,0.00095387007,0.00032315182,0.0003382926,0.000057343546,0.0004819597],"genre_scores_gemma":[0.9966521,0.0000031654743,0.00014993903,0.0028719606,0.00014866985,0.00004123719,0.000027803608,0.000020919832,0.000084204024],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9982825,0.00023571275,0.0002710718,0.0006031722,0.00029954806,0.0003080218],"domain_scores_gemma":[0.99845254,0.0011199877,0.000099642486,0.00020931156,0.00003437673,0.00008415154],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013157654,0.00020201929,0.00032589023,0.00016357572,0.00027391565,0.000029820845,0.00028153203,0.00003977459,0.0004017408],"category_scores_gemma":[0.00024852832,0.00019813725,0.000078414305,0.0006945996,0.000278387,0.00012114297,0.0007058583,0.00036174693,0.0000015976217],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0024480512,0.0010176264,0.9257823,0.00005003439,0.0000967801,0.00018344089,0.0019512469,0.011612915,0.010016563,0.019681815,0.0036793263,0.023479875],"study_design_scores_gemma":[0.00083196606,0.0007323423,0.8116231,0.0000109801695,0.0000097523025,0.0000072834664,0.0004500048,0.17609346,0.0001497881,0.008286409,0.0014545983,0.00035034088],"about_ca_topic_score_codex":0.0028545407,"about_ca_topic_score_gemma":0.0046975897,"teacher_disagreement_score":0.16448054,"about_ca_system_score_codex":0.00011241264,"about_ca_system_score_gemma":0.000028287794,"threshold_uncertainty_score":0.80798024},"labels":[],"label_agreement":null},{"id":"W4214806936","doi":"10.1093/cercor/bhac068","title":"A secondary motor area contributing to interlimb coordination during visually guided locomotion in the cat","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Muscle activation and electromyography studies","field":"Engineering","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Japan Society for the Promotion of Science; Canadian Institutes of Health Research","keywords":"Forelimb; Hindlimb; Neuroscience; Anatomy; Biology; Treadmill; Psychology","score_opus":0.011011531745291922,"score_gpt":0.22625900583962308,"score_spread":0.21524747409433115,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4214806936","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99582076,0.000043091575,0.0007736624,0.00069203845,0.00021271668,0.00040545862,0.000014042957,0.00014951847,0.0018887273],"genre_scores_gemma":[0.99923974,0.0000028678933,0.000036015696,0.00034024956,0.00004773686,0.00019707534,0.000032877942,0.000016444776,0.00008697425],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99904907,0.000064686035,0.00022948123,0.00015618454,0.00017550304,0.00032510192],"domain_scores_gemma":[0.99971336,0.00004525263,0.000036585658,0.00013522898,0.000036504716,0.000033048113],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028368845,0.00011927317,0.00013244191,0.000205306,0.0002969498,0.000040226867,0.00017382814,0.000022267042,0.00017502106],"category_scores_gemma":[0.000040230323,0.00011178723,0.000056860757,0.00050328317,0.000010108233,0.00011109817,0.00008825823,0.00021198622,0.0000027035355],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00040417502,0.0006117944,0.10713947,0.0005374865,0.000601339,0.00010992628,0.03414749,0.018024733,0.6157957,0.0034459913,0.056965854,0.16221605],"study_design_scores_gemma":[0.0009060326,0.00019479543,0.98165214,0.000022974049,0.000010789545,0.000025297093,0.0027576,0.00888911,0.0019655412,0.00014897723,0.003166265,0.00026047105],"about_ca_topic_score_codex":0.000036677095,"about_ca_topic_score_gemma":0.00008682777,"teacher_disagreement_score":0.8745127,"about_ca_system_score_codex":0.0002286505,"about_ca_system_score_gemma":0.000012301354,"threshold_uncertainty_score":0.4558551},"labels":[],"label_agreement":null},{"id":"W4220873592","doi":"10.1093/cercor/bhac131","title":"Interhemispheric functional brain connectivity predicts new language learning success in adults","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University; McGill University; Centre for Research on Brain Language and Music; University of Ottawa; Montreal Neurological Institute and Hospital","funders":"Canada First Research Excellence Fund; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; McGill University","keywords":"Lateralization of brain function; Psychology; Inferior frontal gyrus; Planum temporale; Inferior parietal lobule; Neuroscience; Cognitive psychology; Context (archaeology); Functional connectivity; Superior temporal gyrus; Cognition; Functional magnetic resonance imaging; Biology","score_opus":0.016378579035006866,"score_gpt":0.2533214234204092,"score_spread":0.23694284438540233,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4220873592","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99639016,0.00008374642,0.00004086146,0.00058482744,0.000611528,0.0001947295,0.000016542905,0.00016725066,0.0019103367],"genre_scores_gemma":[0.9926204,0.0000018363856,0.000015426944,0.00278588,0.00018188896,0.000022818189,0.00003048682,0.000021010652,0.004320224],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9982307,0.00038401855,0.00021523224,0.000588376,0.00023540323,0.00034630398],"domain_scores_gemma":[0.999197,0.00039731283,0.00010836172,0.00019156448,0.0000108742315,0.00009490578],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00020598555,0.00015990957,0.00018690136,0.00008831512,0.000203023,0.000028043725,0.0003151576,0.000051082654,0.0033341234],"category_scores_gemma":[0.00069469813,0.00016037565,0.00007235924,0.00035781847,0.000079378384,0.00015149852,0.00033574188,0.00069911155,0.000050068164],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00088449265,0.00032362592,0.04550054,0.000049921942,0.00001068815,0.0029516243,0.008754467,0.00066415744,0.91089934,0.00034198622,0.006662253,0.022956884],"study_design_scores_gemma":[0.030022042,0.00565447,0.33143875,0.00035991214,0.000083968225,0.010832838,0.023364667,0.017991267,0.53797406,0.002924214,0.034643345,0.0047104475],"about_ca_topic_score_codex":0.00037341693,"about_ca_topic_score_gemma":0.00016590847,"teacher_disagreement_score":0.37292528,"about_ca_system_score_codex":0.00007452767,"about_ca_system_score_gemma":0.00010454417,"threshold_uncertainty_score":0.99757695},"labels":[],"label_agreement":null},{"id":"W4221125686","doi":"10.1093/cercor/bhac107","title":"Altered excitatory and decreased inhibitory transmission in the prefrontal cortex of male mice with early developmental disruption to the ventral hippocampus","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute; Douglas College","funders":"Canadian Institutes of Health Research","keywords":"Excitatory postsynaptic potential; Neuroscience; Inhibitory postsynaptic potential; Prefrontal cortex; Hippocampus; Hippocampal formation; Neurotransmission; Pyramidal cell; Biology; Receptor; Cognition","score_opus":0.02615187886748372,"score_gpt":0.2771342363298686,"score_spread":0.2509823574623849,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4221125686","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983636,0.000037332382,0.000013680236,0.00041480034,0.0001869811,0.0008038162,0.000023753148,0.000015328696,0.00014066794],"genre_scores_gemma":[0.9980508,0.000013605108,0.000018991755,0.0015928283,0.000029828043,0.0001241107,0.0000016523835,0.000015096422,0.00015306372],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977132,0.0006152572,0.00021866182,0.0004731647,0.0006005896,0.0003791348],"domain_scores_gemma":[0.99943197,0.00020385631,0.00007122102,0.0001558304,0.000014074337,0.0001230209],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032757822,0.0001437651,0.00013660046,0.00011569987,0.0004989951,0.000039593717,0.0005478475,0.000023282853,0.00012984172],"category_scores_gemma":[0.000037042668,0.00009040048,0.000036011752,0.00052819826,0.00033766907,0.00018618388,0.00016702116,0.000433324,0.000008234431],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006651293,0.000166211,0.010756278,0.000012438268,0.0000020506175,0.00011882706,0.002668178,0.000012115296,0.9831005,0.000022789425,0.0002089964,0.0022665348],"study_design_scores_gemma":[0.0015232791,0.0014647718,0.90092343,0.000019604382,0.000015500698,0.00061267667,0.0011410866,0.0003576588,0.09270817,0.000052335254,0.0009835641,0.00019791877],"about_ca_topic_score_codex":0.000045215136,"about_ca_topic_score_gemma":0.000028191653,"teacher_disagreement_score":0.8903923,"about_ca_system_score_codex":0.00006093299,"about_ca_system_score_gemma":0.00017022812,"threshold_uncertainty_score":0.38379177},"labels":[],"label_agreement":null},{"id":"W4224235766","doi":"10.1093/cercor/bhac152","title":"Aging differentially affects LTCC function in hippocampal CA1 and piriform cortex pyramidal neurons","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Memorial University of Newfoundland","funders":"Natural Sciences and Engineering Research Council of Canada; National Institutes of Health","keywords":"Piriform cortex; Hippocampus; Neuroscience; Hippocampal formation; Afterhyperpolarization; Associative learning; Psychology","score_opus":0.030997272389769553,"score_gpt":0.2932841638451303,"score_spread":0.2622868914553607,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4224235766","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963236,0.0000307979,0.00001761499,0.0005467754,0.0015605802,0.00054836395,0.000024604142,0.00013366202,0.0008140027],"genre_scores_gemma":[0.9949839,0.000037375474,0.0000016987268,0.0035995038,0.000088703986,0.00009457307,0.0000030456667,0.00004031607,0.0011508692],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9966615,0.0005354006,0.00026261935,0.0010204858,0.0006803263,0.0008397109],"domain_scores_gemma":[0.99904245,0.00029979815,0.00010453898,0.0002976047,0.00001692639,0.00023865722],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00027434528,0.0002582477,0.00026608532,0.0004031047,0.00085988495,0.00015821434,0.0005160857,0.000049845356,0.00064577867],"category_scores_gemma":[0.00017123338,0.00026213517,0.000074470496,0.00092753634,0.00039640235,0.00038186926,0.00080279855,0.0010676864,0.000041048534],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020742352,0.00017782426,0.029204292,0.000020271129,0.0000020498508,0.00047457297,0.00010853617,0.000035829606,0.9649627,0.00065919186,0.00031367262,0.0038336108],"study_design_scores_gemma":[0.003102961,0.0021285035,0.87456435,0.000013460551,0.000036623213,0.0005893634,0.00015193148,0.009702718,0.10433422,0.00091934134,0.003785124,0.0006714262],"about_ca_topic_score_codex":0.000024213852,"about_ca_topic_score_gemma":0.000024577032,"teacher_disagreement_score":0.8606285,"about_ca_system_score_codex":0.00009004349,"about_ca_system_score_gemma":0.0001404523,"threshold_uncertainty_score":0.9999831},"labels":[],"label_agreement":null},{"id":"W4225657792","doi":"10.1093/cercor/bhac132","title":"Morphological patterns and spatial probability maps of the superior parietal sulcus in the human brain","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":20,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Sulcus; Superior parietal lobule; Central sulcus; Parietal lobe; Anatomy; Magnetic resonance imaging; Human brain; Biology; Intraparietal sulcus; Brain mapping; Superior temporal sulcus; Neuroscience; Posterior parietal cortex; Functional magnetic resonance imaging; Medicine; Motor cortex; Radiology","score_opus":0.05620476894711453,"score_gpt":0.3182109479310378,"score_spread":0.2620061789839233,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4225657792","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99248505,0.000012066158,0.00020553083,0.0062810155,0.00001777018,0.00069040415,0.000072718656,0.000029796316,0.0002056517],"genre_scores_gemma":[0.99835724,0.0000013397225,0.00014188637,0.0012312816,0.000022890466,0.00014396186,0.00002996698,0.000007277604,0.00006414414],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9992342,0.000106005355,0.00017534688,0.00020499599,0.00015974019,0.000119738084],"domain_scores_gemma":[0.99949384,0.000050890852,0.000051596653,0.0003667691,0.000013341715,0.000023551249],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018354933,0.000074690244,0.00013334645,0.00001660944,0.00016218856,0.0000064984997,0.00018185347,0.00002124749,0.00013476306],"category_scores_gemma":[0.00004166467,0.000043021246,0.000053638956,0.00012286486,0.00017434491,0.00001747583,0.00022048235,0.00033547083,3.4851888e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000035939836,0.00032376085,0.9688438,0.00003221823,0.000004190286,0.0000249983,0.00037511977,0.000002786896,0.022433499,0.004771901,0.0010148315,0.0021369196],"study_design_scores_gemma":[0.00040543996,0.00020498915,0.98779017,0.000006692244,0.000012644916,0.00015612123,0.00014401886,0.00007682271,0.0005437026,0.008259891,0.0023454886,0.000054008877],"about_ca_topic_score_codex":0.00023791219,"about_ca_topic_score_gemma":0.000062530424,"teacher_disagreement_score":0.021889796,"about_ca_system_score_codex":0.00002513942,"about_ca_system_score_gemma":0.000019542915,"threshold_uncertainty_score":0.17543554},"labels":[],"label_agreement":null},{"id":"W4226048348","doi":"10.1093/cercor/bhab426","title":"Mice lacking the cAMP effector protein POPDC1 show enhanced hippocampal synaptic plasticity","year":2021,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Institute of Mental Health; Medical Research Council; National Institutes of Health; Medical Research Council Canada; British Heart Foundation","keywords":"Effector; Synaptic plasticity; Hippocampal formation; Neuroscience; Metaplasticity; Neuroplasticity; Chemistry; Synaptic fatigue; Synaptic scaling; Cell biology; Biology; Biochemistry","score_opus":0.03748168020742058,"score_gpt":0.3069245622338252,"score_spread":0.2694428820264046,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4226048348","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99615294,0.000029897019,0.00019083943,0.0011399117,0.0008019703,0.0007170034,0.000021905485,0.00013899608,0.00080655894],"genre_scores_gemma":[0.99458516,0.000016112122,0.000015786545,0.0031197963,0.0001964783,0.00010637988,0.0000011056635,0.000035101737,0.0019240805],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99628913,0.0009147249,0.0002737017,0.0009914679,0.0006495867,0.0008814062],"domain_scores_gemma":[0.998068,0.001114263,0.0001073737,0.00039557295,0.00009280134,0.00022199909],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00024729656,0.0002666248,0.0002715546,0.00007895349,0.00072987593,0.00021612395,0.00084557466,0.00009034595,0.0006955551],"category_scores_gemma":[0.0023822165,0.00019468885,0.00012942613,0.00090501993,0.00060225563,0.00027781486,0.00043372164,0.0008370136,0.0008561071],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008562142,0.00009796956,0.0002470913,0.000031128613,0.000005627046,0.0004432706,0.00009182475,0.000013791519,0.9976194,0.00028633472,0.00032949887,0.00074844493],"study_design_scores_gemma":[0.00052854716,0.0002146633,0.0029617192,0.000025806798,0.000015624371,0.00015577333,0.00003610455,0.0015583872,0.99365276,0.00015067076,0.0004792097,0.00022071792],"about_ca_topic_score_codex":0.00000726058,"about_ca_topic_score_gemma":0.000017892846,"teacher_disagreement_score":0.003966621,"about_ca_system_score_codex":0.000058871225,"about_ca_system_score_gemma":0.00027826862,"threshold_uncertainty_score":0.99992186},"labels":[],"label_agreement":null},{"id":"W4226139645","doi":"10.1093/cercor/bhac178","title":"Complex forelimb movements and cortical topography evoked by intracortical microstimulation in male and female mice","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neural Engineering","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hotchkiss Brain Institute; Ontario Brain Institute; University of Calgary","funders":"National Center for Advancing Translational Sciences; National Institute of Neurological Disorders and Stroke; Natural Sciences and Engineering Research Council of Canada; National Institutes of Health","keywords":"Forelimb; Neuroscience; Microstimulation; Motor cortex; Anatomy; Biology; Primary motor cortex; Cortex (anatomy); Stimulation","score_opus":0.025038962376689577,"score_gpt":0.2597417102557121,"score_spread":0.2347027478790225,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4226139645","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9989747,0.00004188613,0.00006149752,0.00016307113,0.00015172537,0.0002646694,0.00003404192,0.00004203971,0.0002663934],"genre_scores_gemma":[0.99824977,0.000022438982,0.000053593347,0.0013984597,0.000013582778,0.000024447125,0.0000074868976,0.0000149860425,0.00021521297],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99857265,0.00007557063,0.00024267555,0.0005036572,0.00025476798,0.00035069315],"domain_scores_gemma":[0.9995621,0.00013992282,0.000042675012,0.000120281475,0.000006949104,0.00012808356],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009375047,0.00014263832,0.00015909829,0.0001193984,0.0002783359,0.00006366989,0.00014805658,0.000029340415,0.00015014644],"category_scores_gemma":[0.00009068538,0.00014929546,0.000029022327,0.00039400536,0.00017593216,0.00020704122,0.00024602006,0.00029472256,0.000003195572],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048451457,0.00007270383,0.034267183,0.000010945691,8.175411e-7,0.000033090266,0.000077267476,0.000046821347,0.96428037,0.0005291847,0.00012226347,0.00051089295],"study_design_scores_gemma":[0.0025141689,0.00096337043,0.73089087,0.000017372211,0.000017531029,0.0003588367,0.00023859563,0.13402814,0.12702315,0.0006474696,0.002630651,0.00066987594],"about_ca_topic_score_codex":0.000021036672,"about_ca_topic_score_gemma":0.0000039748334,"teacher_disagreement_score":0.8372572,"about_ca_system_score_codex":0.000027778453,"about_ca_system_score_gemma":0.00000916498,"threshold_uncertainty_score":0.6088092},"labels":[],"label_agreement":null},{"id":"W4226175441","doi":"10.1093/cercor/bhac175","title":"Training allows switching from limited-capacity manipulations to large-capacity perceptual processing","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; Université Laval","funders":"European Research Council; Canadian Institutes of Health Research; Canada First Research Excellence Fund; Azrieli Foundation; Israel Science Foundation; International Development Research Centre; McGill University","keywords":"Task (project management); Perception; Functional magnetic resonance imaging; Working memory; Psychology; Tone (literature); Cognition; Limiting; Cognitive psychology; Auditory perception; Audiology; Neuroscience; Medicine","score_opus":0.3055819825210748,"score_gpt":0.35594952855700573,"score_spread":0.05036754603593091,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4226175441","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9951364,0.000015788331,0.0003554375,0.0011036823,0.000779423,0.0003370339,0.00017478301,0.00028969944,0.0018077708],"genre_scores_gemma":[0.9934198,0.000001228652,0.0005065362,0.0053411103,0.0001880623,0.0000859373,0.000015303061,0.00003316142,0.0004088204],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99749887,0.00021538377,0.00034696178,0.0008801806,0.00045309032,0.0006055325],"domain_scores_gemma":[0.9992672,0.00010567459,0.00012897304,0.00028835196,0.00003417918,0.00017559103],"candidate_categories":["metaepi_narrow","sts","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017623407,0.00026665835,0.0003015827,0.00012650211,0.0020030602,0.000093930204,0.00045900032,0.00005869577,0.0010199712],"category_scores_gemma":[0.00014024362,0.00025557255,0.00012673013,0.0005328036,0.00009218083,0.00034715695,0.00043603938,0.0007244731,0.00012349909],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0000712855,0.00033790342,0.029712163,0.000007319452,0.000009620389,0.000048632355,0.0144444285,0.0000813849,0.935814,0.0003642227,0.001105633,0.01800337],"study_design_scores_gemma":[0.0018425826,0.0008105194,0.9359837,0.0000612479,0.00015240998,0.00016817874,0.014155185,0.0039039615,0.014750172,0.005171471,0.021292524,0.001708053],"about_ca_topic_score_codex":0.00009947421,"about_ca_topic_score_gemma":0.00014229948,"teacher_disagreement_score":0.92106384,"about_ca_system_score_codex":0.00009482501,"about_ca_system_score_gemma":0.00002699224,"threshold_uncertainty_score":0.9999896},"labels":[],"label_agreement":null},{"id":"W4226203945","doi":"10.1093/cercor/bhac150","title":"Metabolic and functional connectivity provide unique and complementary insights into cognition-connectome relationships","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":41,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"National Health and Medical Research Council; Centre of Excellence for Integrative Brain Function, Australian Research Council; Australian Research Council; Medical Research Council; Siemens Healthineers","keywords":"Connectome; Functional connectivity; Cognition; Connectomics; Neuroscience; Cognitive science; Psychology; Computer science","score_opus":0.05557089780457067,"score_gpt":0.25769189418841393,"score_spread":0.20212099638384326,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4226203945","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9915592,0.00050959556,0.00030652314,0.0048524532,0.00042830937,0.0006049203,0.0000867965,0.00015811136,0.0014941052],"genre_scores_gemma":[0.9946007,0.000035135,0.00011804346,0.004543791,0.00010304553,0.0002704638,0.000052052532,0.000024297473,0.0002524372],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.99762434,0.000669426,0.00025599502,0.00078567705,0.00041153413,0.00025300516],"domain_scores_gemma":[0.99465626,0.0048234053,0.00012723976,0.00020054275,0.00006747156,0.00012509554],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.00036529423,0.00022804235,0.00027201418,0.00022797525,0.0024431031,0.00006747778,0.0001016805,0.000039776332,0.00049432635],"category_scores_gemma":[0.0022874833,0.00023759498,0.000051453477,0.00045843553,0.00033248722,0.0004910358,0.00055471354,0.0005357928,0.000013586955],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010285429,0.0008308209,0.21801151,0.00016464553,0.00032766876,0.00010710769,0.006109842,0.00021569822,0.240236,0.50746214,0.018657828,0.0068482184],"study_design_scores_gemma":[0.00246309,0.00048743648,0.7988987,0.000013696328,0.0001185381,0.00032335208,0.0023053533,0.0021138687,0.012403784,0.12862557,0.051554374,0.0006922618],"about_ca_topic_score_codex":0.00014719201,"about_ca_topic_score_gemma":0.0004829761,"teacher_disagreement_score":0.58088714,"about_ca_system_score_codex":0.000091665235,"about_ca_system_score_gemma":0.00009248399,"threshold_uncertainty_score":0.9988556},"labels":[],"label_agreement":null},{"id":"W4226389553","doi":"10.1093/cercor/bhac171","title":"Neural evidence for age-related deficits in the representation of state spaces","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University","funders":"Natural Sciences and Engineering Research Council of Canada; Deutsche Forschungsgemeinschaft","keywords":"Representation (politics); Cognition; Task (project management); Cognitive psychology; Psychology; State space; Computer science; Neuroscience; Mathematics","score_opus":0.26844009845115085,"score_gpt":0.41739708196489445,"score_spread":0.1489569835137436,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4226389553","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99656785,0.00010698597,0.0000027385931,0.002172627,0.00038524,0.00053127814,0.000024275952,0.000024296998,0.0001847231],"genre_scores_gemma":[0.9985491,0.000015906067,0.000009996282,0.000671164,0.00001048117,0.00011456819,0.00000320871,0.0000071332047,0.00061846216],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99872315,0.00027106664,0.00024886988,0.0003283208,0.00022930071,0.00019928711],"domain_scores_gemma":[0.99918276,0.00045431821,0.000138787,0.00018967131,0.000018486959,0.000015972757],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015307833,0.000092053095,0.00014870205,0.00006349743,0.00022503146,0.000018946808,0.0003341277,0.000015602618,0.000047569443],"category_scores_gemma":[0.00020430349,0.00006435308,0.00007300052,0.00052435615,0.00016957638,0.0001479454,0.0001136898,0.00018823934,0.0000038848416],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00046850197,0.00024491674,0.066856526,0.000026159187,0.00000543329,0.00012940112,0.0035448119,0.00046350172,0.9165495,0.000695406,0.0028396656,0.008176184],"study_design_scores_gemma":[0.0019967344,0.0019628683,0.8728073,0.00003541612,0.000067129375,0.0001403751,0.0032408144,0.0011535205,0.10661292,0.010957629,0.00060435175,0.00042091962],"about_ca_topic_score_codex":0.000085623054,"about_ca_topic_score_gemma":0.00005233817,"teacher_disagreement_score":0.8099366,"about_ca_system_score_codex":0.000015999009,"about_ca_system_score_gemma":0.000009329803,"threshold_uncertainty_score":0.26242426},"labels":[],"label_agreement":null},{"id":"W4229018528","doi":"10.1093/cercor/bhac177","title":"Temporal irreversibility of neural dynamics as a signature of consciousness","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":37,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Artificial Intelligence in Medicine (Canada)","funders":"Fondo Nacional de Desarrollo Científico, Tecnológico y de Innovación Tecnológica; Consejo Nacional de Investigaciones Científicas y Técnicas","keywords":"Wakefulness; Electrocorticography; Psychology; Electroencephalography; Consciousness; Neuroscience; Neural correlates of consciousness; Arrow of time; Neurophysiology; Perception; Cognitive psychology; Artificial intelligence; Computer science; Cognition; Physics","score_opus":0.015657462817920586,"score_gpt":0.24440045659404086,"score_spread":0.22874299377612028,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4229018528","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967925,0.000018159177,0.0000388519,0.00030639308,0.0008565352,0.0002886796,0.00027006204,0.000043280594,0.0013855404],"genre_scores_gemma":[0.9985602,0.0000015712453,0.000024920242,0.0004542076,0.000019114526,0.000008886163,0.000036652997,0.000015533798,0.0008789083],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.99840194,0.00019814874,0.00033747882,0.0004139969,0.00043438774,0.00021406848],"domain_scores_gemma":[0.9990889,0.00015511453,0.00028951312,0.0003418185,0.000060076203,0.000064613836],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017851724,0.00014115367,0.00026551745,0.00009657462,0.00017797388,0.000010658021,0.00036926667,0.000052692987,0.0005334483],"category_scores_gemma":[0.00018659918,0.00013560207,0.00015099424,0.00051701366,0.00022139876,0.00012591804,0.00029546345,0.00035829563,0.00000390464],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010504231,0.0008244355,0.079066806,0.0002436875,0.000025237208,0.000100781304,0.0004962237,0.0016574156,0.8660049,0.041930716,0.0014729988,0.007126402],"study_design_scores_gemma":[0.0057221227,0.0060554924,0.17820986,0.00005911749,0.00017928238,0.00061976066,0.0032696167,0.6248512,0.1320832,0.044610642,0.0025068203,0.001832831],"about_ca_topic_score_codex":0.00017052516,"about_ca_topic_score_gemma":0.000053159092,"teacher_disagreement_score":0.73392165,"about_ca_system_score_codex":0.000089758534,"about_ca_system_score_gemma":0.00008974723,"threshold_uncertainty_score":0.58408844},"labels":[],"label_agreement":null},{"id":"W4235841871","doi":"10.1093/cercor/bhq260","title":"Cortical Connections of Functional Zones in Posterior Parietal Cortex and Frontal Cortex Motor Regions in New World Monkeys","year":2011,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":128,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Neurological Disorders and Stroke; National Eye Institute; Canadian Institutes of Health Research","keywords":"Forelimb; Posterior parietal cortex; Neuroscience; Somatosensory system; Premotor cortex; Cortex (anatomy); Motor cortex; Anatomy; Intraparietal sulcus; Biology; Dorsum; Stimulation","score_opus":0.0545978980456052,"score_gpt":0.24182255721302445,"score_spread":0.18722465916741926,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4235841871","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99534994,0.000063487816,0.0011655303,0.00021682541,0.0005349574,0.00049889047,0.000040359926,0.000053661308,0.0020763474],"genre_scores_gemma":[0.9966871,0.000014813951,0.000253658,0.00028283524,0.00008478605,0.000029786506,0.0000124700555,0.000022546319,0.0026120152],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99811196,0.0001272238,0.00058654766,0.000548423,0.00026313707,0.0003627129],"domain_scores_gemma":[0.9991344,0.00020501704,0.00017728978,0.00022891237,0.00004147177,0.00021288528],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008642197,0.00022509214,0.0003709127,0.00033357725,0.00010937215,0.00003199737,0.00014931454,0.00010197582,0.0006769355],"category_scores_gemma":[0.00024312353,0.00021986282,0.0000972578,0.0004390381,0.0002602093,0.00038585693,0.00007907847,0.00032536627,0.000034190718],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0022290808,0.0010216931,0.23697661,0.000052865787,0.000032651184,0.00018888108,0.0019310903,0.00001239542,0.6654237,0.0862609,0.00041158716,0.005458575],"study_design_scores_gemma":[0.0019456472,0.00030455456,0.98985964,0.000042581134,0.000023963603,0.00006486639,0.0002384903,0.0038953049,0.000778916,0.0024431671,0.00017207768,0.00023079319],"about_ca_topic_score_codex":0.0016091485,"about_ca_topic_score_gemma":0.00851304,"teacher_disagreement_score":0.752883,"about_ca_system_score_codex":0.000056060104,"about_ca_system_score_gemma":0.0001743095,"threshold_uncertainty_score":0.89657456},"labels":[],"label_agreement":null},{"id":"W4238816956","doi":"10.1093/cercor/bhaa113","title":"Corrigendum: Dissociable Neural Information Dynamics of Perceptual Integration and Differentiation during Bistable Perception","year":2020,"lang":"en","type":"erratum","venue":"Cerebral Cortex","topic":"Neural Networks and Applications","field":"Computer Science","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Bistability; Perception; Dynamics (music); Cognitive psychology; Psychology; Neuroscience; Cognitive science; Neural correlates of consciousness; Computer science; Cognition; Physics","score_opus":0.011652474083612183,"score_gpt":0.2155413982888059,"score_spread":0.20388892420519372,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4238816956","genre_codex":"methods","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":null,"domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.33358854,0.00045983243,0.59643346,0.0055818027,0.04215445,0.0033205927,0.00065797486,0.001281416,0.016521923],"genre_scores_gemma":[0.9781929,0.0002830826,0.0012147699,0.00017246281,0.0005623737,0.0000499326,0.004350447,0.00002947085,0.01514452],"study_design_codex":"not_applicable","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9984213,0.00005184229,0.00052366685,0.0003866193,0.00034961195,0.00026693914],"domain_scores_gemma":[0.9988308,0.000015801448,0.00050850725,0.00035594727,0.00017130868,0.00011761183],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00005822832,0.00028850534,0.00035855145,0.00013454522,0.00026129247,0.00031789183,0.00046405118,0.00029742313,0.000070722235],"category_scores_gemma":[0.00002242854,0.0002760383,0.000107751606,0.00040692714,0.000064979715,0.001489479,0.00027393564,0.0006090493,0.000020382413],"study_design_candidate":"simulation_or_modeling","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009788486,0.0002613062,0.0048715305,0.0015265768,0.00016842401,0.000004276375,0.009246132,0.00033270012,0.004725888,0.069042265,0.64709103,0.26263198],"study_design_scores_gemma":[0.0003040629,0.00011512927,0.110307015,0.000099148514,0.000050015213,0.000009933726,0.00042318535,0.8834443,0.000025834259,0.00084599556,0.003972843,0.00040252175],"about_ca_topic_score_codex":0.00011733895,"about_ca_topic_score_gemma":0.00012991624,"teacher_disagreement_score":0.8831116,"about_ca_system_score_codex":0.00017115989,"about_ca_system_score_gemma":0.00006996811,"threshold_uncertainty_score":0.9999692},"labels":[],"label_agreement":null},{"id":"W4280552461","doi":"10.1093/cercor/bhac156","title":"A convergent structure–function substrate of cognitive imbalances in autism","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal; Université de Montréal; Centre Intégré Universitaire de Santé et de Services Sociaux du Centre-Sud-de-l'Île-de-Montréal; McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Mental Health; National Institute of Environmental Health Sciences; Canadian Institutes of Health Research; National Institutes of Health; Institute for Basic Science; National Research Foundation of Korea; Brain and Behavior Research Foundation","keywords":"Autism; Cognition; Psychology; Neuroscience; Cognitive psychology; Developmental psychology","score_opus":0.023775356827413552,"score_gpt":0.2765015040108148,"score_spread":0.25272614718340125,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4280552461","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99644107,0.00008897842,0.000045318928,0.00045736125,0.00036752832,0.00039050417,0.000139794,0.0000399627,0.0020294974],"genre_scores_gemma":[0.9993798,0.0000148482695,0.0000044015105,0.00018840283,0.000010620471,0.000044875203,0.00001767974,0.00001645461,0.00032288308],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981793,0.00025106987,0.00026151375,0.00042411956,0.00052558316,0.00035836952],"domain_scores_gemma":[0.99951416,0.00012835588,0.00012711967,0.00016200748,0.000007420659,0.000060957136],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012308158,0.0001246294,0.0001891532,0.00018330402,0.00015784893,0.000017836945,0.000270989,0.00003259027,0.004654304],"category_scores_gemma":[0.000090686866,0.00012856374,0.000052511354,0.00070389797,0.00015862429,0.00013809155,0.00020820594,0.00039994452,0.000026337813],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0016787234,0.00078185817,0.2813129,0.000114452974,0.000040758998,0.00026197848,0.0035491576,0.00034309746,0.44696894,0.259695,0.0003315025,0.0049216137],"study_design_scores_gemma":[0.001593696,0.00062046637,0.87900245,0.00001762804,0.000010928326,0.000032674376,0.00057109527,0.0019650008,0.073242165,0.042545725,0.0001615304,0.00023666187],"about_ca_topic_score_codex":0.0001981963,"about_ca_topic_score_gemma":0.00024105451,"teacher_disagreement_score":0.5976895,"about_ca_system_score_codex":0.00008468875,"about_ca_system_score_gemma":0.00013068368,"threshold_uncertainty_score":0.9962556},"labels":[],"label_agreement":null},{"id":"W4280563409","doi":"10.1093/cercor/bhac180","title":"White matter microstructural variability linked to differential attentional skills and impulsive behavior in a pediatric population","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre Intégré Universitaire de Santé et de Services Sociaux du Saguenay–Lac-Saint-Jean; Cégep de Sherbrooke; Centre Intégré Universitaire de Santé et de Services Sociaux du Centre-Sud-de-l'Île-de-Montréal; Centre Hospitalier Universitaire de Sherbrooke; Université de Sherbrooke","funders":"National Institute of Environmental Health Sciences","keywords":"White matter; Impulsivity; Population; Psychology; Neuroscience; Functional magnetic resonance imaging; Neuroimaging; Magnetic resonance imaging; Cognitive psychology; Developmental psychology; Medicine; Radiology","score_opus":0.014650175285967577,"score_gpt":0.30153995045083176,"score_spread":0.2868897751648642,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4280563409","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973487,0.000004760778,0.00054816913,0.0010287211,0.00008911569,0.0008050895,0.00008725692,0.00005613876,0.00003203055],"genre_scores_gemma":[0.9954129,0.0000017604042,0.0030149925,0.00064862,0.00009116901,0.00026647397,0.00026243136,0.000017542516,0.00028413694],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99905396,0.00003920492,0.00023152327,0.0003567196,0.00014767401,0.0001709371],"domain_scores_gemma":[0.9995962,0.00002016416,0.00006321564,0.00020290361,0.000031410535,0.00008615269],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005199955,0.00011178857,0.00016320712,0.00012650022,0.00012221147,0.000014854667,0.00006708312,0.000029909563,0.0006743969],"category_scores_gemma":[0.000012787848,0.00011191573,0.000051207793,0.0002272983,0.000020967034,0.000053031596,0.0001852199,0.00024429202,0.0000066434295],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000034021225,0.00013103869,0.9957867,0.000014301764,0.0000016571137,0.0000054704583,0.000041856096,0.000003426497,0.0030740395,0.00008497438,0.00028247756,0.00054000696],"study_design_scores_gemma":[0.00049924414,0.000090224705,0.998125,0.0000032736757,0.0000477604,0.00008659846,0.000008979829,0.00007818454,0.000017480297,0.00087986834,0.00005204369,0.00011133497],"about_ca_topic_score_codex":0.000029594581,"about_ca_topic_score_gemma":0.0000041628364,"teacher_disagreement_score":0.0030565592,"about_ca_system_score_codex":0.00010315609,"about_ca_system_score_gemma":0.000016244068,"threshold_uncertainty_score":0.7384173},"labels":[],"label_agreement":null},{"id":"W4281722012","doi":"10.1093/cercor/bhac218","title":"Robust sex differences in functional brain connectivity are present in utero","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Birth, Development, and Health","field":"Medicine","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Child Health and Human Development; Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Heart, Lung, and Blood Institute; Canadian Institutes of Health Research; National Institutes of Health","keywords":"Functional connectivity; Neuroscience; In utero; Psychology; Biology; Genetics; Pregnancy; Fetus","score_opus":0.06754607760698826,"score_gpt":0.2770812598728826,"score_spread":0.20953518226589435,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4281722012","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9906648,0.00009730414,0.00007346777,0.0063342536,0.0003990669,0.00041175965,0.000022787865,0.000040559895,0.0019559984],"genre_scores_gemma":[0.996402,0.00011823256,0.000077123885,0.0022823394,0.00014199209,0.00010108869,0.0000668874,0.000013904242,0.0007963791],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99850434,0.00015319906,0.000281706,0.00037025256,0.0003565282,0.00033399052],"domain_scores_gemma":[0.9994862,0.00010414181,0.00008870529,0.00017596324,0.000024330218,0.00012064335],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00034656838,0.00013604172,0.0003411937,0.00019655825,0.0001296203,0.000012093957,0.00008758146,0.000059508016,0.0020017],"category_scores_gemma":[0.000054931417,0.00012818833,0.0000411768,0.0003064384,0.000042490323,0.000064504755,0.00012557743,0.0005377826,0.000015595459],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018678754,0.000336027,0.9871199,0.00008310526,0.000015284753,0.00013787506,0.00053286256,0.000037474794,0.00007819749,0.0035301514,0.0065543875,0.0013879436],"study_design_scores_gemma":[0.001995903,0.00019485528,0.99157715,0.00003800532,0.000004664295,0.000054013126,0.0011425787,0.00092926965,0.000028217764,0.0033452772,0.000556123,0.00013392027],"about_ca_topic_score_codex":0.00082851003,"about_ca_topic_score_gemma":0.0024288055,"teacher_disagreement_score":0.0059982645,"about_ca_system_score_codex":0.00033399,"about_ca_system_score_gemma":0.00032017924,"threshold_uncertainty_score":0.9989106},"labels":[],"label_agreement":null},{"id":"W4281825172","doi":"10.1093/cercor/bhac220","title":"Identification of a novel fatty acid binding protein-5-CB2 receptor-dependent mechanism regulating anxiety behaviors in the prefrontal cortex","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cannabis and Cannabinoid Research","field":"Medicine","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Institute on Drug Abuse; National Institutes of Health","keywords":"Cannabinoid receptor; Endocannabinoid system; Neuroscience; Cannabinoid; Anxiolytic; Chemistry; Anandamide; Pharmacology; Biology; Receptor; Antagonist; Biochemistry","score_opus":0.02138271059958292,"score_gpt":0.2845900962079671,"score_spread":0.2632073856083842,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4281825172","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99607235,0.000060580373,0.00017767116,0.0010594183,0.00021258481,0.001999248,0.00012395873,0.000038531787,0.00025563416],"genre_scores_gemma":[0.9947061,0.000004719441,0.00018002419,0.000064661115,0.000074644835,0.0006527457,0.00015147367,0.000038411323,0.004127199],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9970584,0.00016200157,0.00064705,0.00048157215,0.0012345393,0.00041643486],"domain_scores_gemma":[0.9988943,0.000007884782,0.00030576414,0.00056324544,0.00012769907,0.000101114245],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0012905922,0.00018923581,0.00030917206,0.00022251428,0.00031686455,0.000046327823,0.000377979,0.00008747699,0.0006798086],"category_scores_gemma":[0.000081513084,0.00015650445,0.00016730271,0.00060855877,0.00008964267,0.00012002732,0.00027134427,0.0006837873,0.0000085332895],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018037039,0.0004754231,0.0049296394,0.000082799175,0.000019458004,0.000008787976,0.0012340534,0.0000057120833,0.98916715,0.0011142741,0.00048302964,0.0022992832],"study_design_scores_gemma":[0.005583294,0.0014494249,0.42932653,0.00016614911,0.00014125113,0.0003726134,0.018450698,0.0023448337,0.5403995,0.00022697257,0.0009813535,0.00055737206],"about_ca_topic_score_codex":0.0002816042,"about_ca_topic_score_gemma":0.00008355686,"teacher_disagreement_score":0.44876766,"about_ca_system_score_codex":0.00042691833,"about_ca_system_score_gemma":0.00024659163,"threshold_uncertainty_score":0.74434274},"labels":[],"label_agreement":null},{"id":"W4282923581","doi":"10.1093/cercor/bhac195","title":"Differential effects of group III metabotropic glutamate receptors on spontaneous inhibitory synaptic currents in spine-innervating double bouquet and parvalbumin-expressing dendrite-targeting GABAergic interneurons in human neocortex","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Dulverton Trust; Medical Research Council Canada; University of Oxford; European Research Council; Newcastle University; National Institute for Health and Care Research; NIHR Biomedical Research Centre, Royal Marsden NHS Foundation Trust/Institute of Cancer Research; Medical Research Council; Aarhus Universitet","keywords":"Parvalbumin; Metabotropic glutamate receptor; Inhibitory postsynaptic potential; Neuroscience; GABAergic; Neocortex; Dendrite (mathematics); Glutamate receptor; Metabotropic receptor; Interneuron; Metabotropic glutamate receptor 5; Chemistry; Biology; Receptor; Biochemistry","score_opus":0.022424435918784357,"score_gpt":0.297413900629673,"score_spread":0.27498946471088864,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4282923581","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9970629,0.00007616882,0.00000483595,0.000034328295,0.001842011,0.00083428936,0.000006655187,0.00006788766,0.00007087709],"genre_scores_gemma":[0.99928087,0.000048535185,0.000008296042,0.00024187173,0.000078538025,0.00013619437,0.000004466849,0.000054808275,0.0001463942],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9954773,0.0010208838,0.00074874295,0.0011511013,0.0006951386,0.0009067938],"domain_scores_gemma":[0.9987665,0.00042279428,0.0003209015,0.00029704845,0.000019573217,0.00017319643],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00026755146,0.00037192926,0.0005779177,0.0006789166,0.0005563719,0.00009167067,0.0006582334,0.0000709977,0.00013780087],"category_scores_gemma":[0.00025775644,0.00038163524,0.00010781842,0.0008897543,0.00040599905,0.0003345614,0.0009992041,0.0013679571,0.0000049586693],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035482657,0.0004359867,0.009440163,0.00014643396,0.000004662815,0.002594136,0.00032659573,0.00014011722,0.9857154,0.00023729593,0.00002893604,0.0005754842],"study_design_scores_gemma":[0.006899815,0.0023646588,0.032609705,0.00033421582,0.0000385745,0.00032900248,0.00016392369,0.0070847096,0.9492867,0.00013420891,0.00010288347,0.0006516291],"about_ca_topic_score_codex":0.00011337426,"about_ca_topic_score_gemma":0.000031809494,"teacher_disagreement_score":0.036428686,"about_ca_system_score_codex":0.00017432083,"about_ca_system_score_gemma":0.00006327812,"threshold_uncertainty_score":0.99986356},"labels":[],"label_agreement":null},{"id":"W4282925453","doi":"10.1093/cercor/bhac209","title":"Gestational age-related changes in the fetal functional connectome: in utero evidence for the global signal","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Heart, Lung, and Blood Institute; National Institutes of Health; Canadian Institutes of Health Research; Canadian Institute of Mining, Metallurgy and Petroleum","keywords":"Connectome; Fetus; In utero; Functional magnetic resonance imaging; Neuroscience; Resting state fMRI; Connectomics; Gestational age; Similarity (geometry); Biology; Psychology; Pregnancy; Functional connectivity; Computer science; Genetics; Artificial intelligence","score_opus":0.10883914305913504,"score_gpt":0.31253958528786757,"score_spread":0.20370044222873251,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4282925453","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9295822,0.00046162633,0.00040205425,0.065345146,0.0016347187,0.0015169646,0.00028375804,0.00007457522,0.000698971],"genre_scores_gemma":[0.98914874,0.000011346468,0.000020336409,0.009415438,0.00013699704,0.00091806555,0.000019421052,0.000012092212,0.0003175923],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.997618,0.00046203873,0.00025792234,0.00056162535,0.00073182996,0.0003685815],"domain_scores_gemma":[0.9850102,0.01458683,0.00011007732,0.00022025114,0.000042871532,0.000029776766],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0009190067,0.00018115352,0.00017060894,0.00009639459,0.00077346276,0.000074392876,0.0005110657,0.00003871529,0.0006476933],"category_scores_gemma":[0.0032383264,0.00012788232,0.00009725063,0.00096865563,0.00027159287,0.00021273544,0.00025240154,0.00040221575,0.000021078615],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.006658351,0.0021431954,0.25554976,0.00019886102,0.00027066073,0.0013378579,0.00950785,0.046122372,0.025992613,0.52064556,0.10402475,0.027548175],"study_design_scores_gemma":[0.002125261,0.00063267414,0.93973935,0.000028943934,0.000029833953,0.00036770507,0.0018428089,0.015722306,0.00026827358,0.029137159,0.009741571,0.0003641451],"about_ca_topic_score_codex":0.00011717284,"about_ca_topic_score_gemma":0.0015814604,"teacher_disagreement_score":0.68418956,"about_ca_system_score_codex":0.00034800853,"about_ca_system_score_gemma":0.000141191,"threshold_uncertainty_score":0.70917875},"labels":[],"label_agreement":null},{"id":"W4282929196","doi":"10.1093/cercor/bhac172","title":"Long-range functional connections mirror and link microarchitectural and cognitive hierarchies in the human brain","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":51,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Institute for Basic Science; Centre Azrieli de recherche sur l'autisme, Institut et Hôpital Neurologiques de Montréal; National Research Foundation of Korea","keywords":"Neuroscience; Cognition; Human brain; Functional magnetic resonance imaging; Neocortex; Microarchitecture; Episodic memory; Computer science; Psychology","score_opus":0.04221350385617983,"score_gpt":0.27392620203890783,"score_spread":0.231712698182728,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4282929196","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9732788,0.00023076202,0.000029769339,0.02496092,0.0002530221,0.00044684013,0.00010804726,0.0000548823,0.00063695863],"genre_scores_gemma":[0.98952127,0.0000049903892,0.0000090989,0.009387495,0.00009433718,0.00020692138,0.000016827891,0.000016300553,0.00074275665],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99816656,0.000510224,0.00017547658,0.0005627559,0.00030778802,0.00027721093],"domain_scores_gemma":[0.9947174,0.005012702,0.00006183549,0.00013282857,0.000026171101,0.000049027432],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.00032299547,0.00017977081,0.0001718105,0.00020321712,0.0016753139,0.00008203821,0.00013930474,0.000029058227,0.0002060917],"category_scores_gemma":[0.0015182563,0.00014966255,0.000053094584,0.0004109053,0.00061228726,0.00013756713,0.0003238431,0.00056274765,0.0000070210194],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011770339,0.0007944518,0.7607188,0.00016464753,0.00016265946,0.00037542213,0.032302424,0.00004270482,0.14183098,0.032397762,0.013768872,0.016264243],"study_design_scores_gemma":[0.0012770193,0.00038487717,0.9873797,0.000011006214,0.000021474014,0.0005603128,0.002150288,0.00015322874,0.00027635533,0.0047336575,0.0028205065,0.00023155838],"about_ca_topic_score_codex":0.00017075002,"about_ca_topic_score_gemma":0.0010005985,"teacher_disagreement_score":0.22666092,"about_ca_system_score_codex":0.000041150735,"about_ca_system_score_gemma":0.000032600452,"threshold_uncertainty_score":0.9996244},"labels":[],"label_agreement":null},{"id":"W4282946392","doi":"10.1093/cercor/bhac194","title":"Saccades and presaccadic stimulus repetition alter cortical network topology and dynamics: evidence from EEG and graph theoretical analysis","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"The Scarborough Hospital; University of Toronto; York University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund","keywords":"Saccade; Neuroscience; Psychology; Stimulus (psychology); Fixation (population genetics); Frontal eye fields; Electroencephalography; Eye movement; Posterior parietal cortex; Parietal lobe; Supramarginal gyrus; Prefrontal cortex; Cognitive psychology; Cognition; Functional magnetic resonance imaging; Biology","score_opus":0.01439120277222162,"score_gpt":0.25213934015471495,"score_spread":0.23774813738249334,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4282946392","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9955276,0.00034064372,0.0019089361,0.0014891187,0.00026477614,0.00020606336,0.000070742775,0.000054515163,0.00013756774],"genre_scores_gemma":[0.9981997,0.0002841801,0.00012909614,0.0011462402,0.00006787965,0.000024265915,0.00002914136,0.000014342128,0.000105170664],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.99798155,0.00042659836,0.00026398912,0.00077090797,0.00023907106,0.00031790673],"domain_scores_gemma":[0.99854845,0.00094228133,0.00009432462,0.0002379303,0.000018785277,0.00015820813],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025044143,0.00017292071,0.00028409387,0.00012047059,0.0005768106,0.0001150594,0.00013199622,0.00007308781,0.0005919495],"category_scores_gemma":[0.00028990288,0.00015702345,0.00006473963,0.00044813787,0.0007520888,0.0001923775,0.00038799082,0.0004000109,0.0000019943257],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011732267,0.00015542851,0.44010204,0.00005302581,0.00023746918,0.00021082707,0.0004513441,0.0014999604,0.06675215,0.47548777,0.0005789771,0.013297771],"study_design_scores_gemma":[0.00039908328,0.00054060883,0.48127255,0.000016653477,0.00041321316,0.00010802803,0.000094738876,0.4354754,0.0001933129,0.081153326,0.0000448447,0.0002882275],"about_ca_topic_score_codex":0.00010100691,"about_ca_topic_score_gemma":0.000105976455,"teacher_disagreement_score":0.43397546,"about_ca_system_score_codex":0.000040058545,"about_ca_system_score_gemma":0.00001468689,"threshold_uncertainty_score":0.6481432},"labels":[],"label_agreement":null},{"id":"W4282961344","doi":"10.1093/cercor/bhac231","title":"Sensory experience selectively reorganizes the late component of evoked responses","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Krembil Foundation; University of Lethbridge","funders":"Canadian Institutes of Health Research; Alberta Innovates; Natural Sciences and Engineering Research Council of Canada; Alzheimer Society","keywords":"Neuroscience; Sensory system; Component (thermodynamics); Psychology","score_opus":0.034303740468608894,"score_gpt":0.26012663023608984,"score_spread":0.22582288976748094,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4282961344","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99754393,0.000019312769,0.000018553432,0.0007440839,0.0004929114,0.00022736633,0.000043080847,0.00006482161,0.00084593805],"genre_scores_gemma":[0.99313223,0.000008555883,0.000012377982,0.0009294141,0.000027030714,0.000027773198,0.000002426148,0.00001656354,0.0058436287],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984859,0.00043015694,0.00020899801,0.0002899456,0.00037352095,0.00021145352],"domain_scores_gemma":[0.9991255,0.00037427552,0.00014806211,0.00027405928,0.00003803627,0.000040095238],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017422027,0.00011368612,0.00013675519,0.00006213874,0.00057333306,0.000025280518,0.0003441581,0.000018986855,0.000368498],"category_scores_gemma":[0.00026942964,0.000084714484,0.00006516855,0.00045347173,0.00018640872,0.00009156975,0.00025103395,0.0002377844,0.00001385539],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025833535,0.000050389262,0.0014773444,0.0000038971234,0.000003044414,0.000010849538,0.0008676707,0.00008353412,0.9943009,0.0023391817,0.00025585887,0.00034899998],"study_design_scores_gemma":[0.0007550867,0.0007906344,0.22027683,0.000009405714,0.000020205569,0.00020777354,0.0018030418,0.010129568,0.7565897,0.002668005,0.0063567325,0.0003930029],"about_ca_topic_score_codex":0.00004281405,"about_ca_topic_score_gemma":0.000004095922,"teacher_disagreement_score":0.23771118,"about_ca_system_score_codex":0.00005863089,"about_ca_system_score_gemma":0.000045258937,"threshold_uncertainty_score":0.44096723},"labels":[],"label_agreement":null},{"id":"W4282969193","doi":"10.1093/cercor/bhac232","title":"Changes in working memory brain activity and task-based connectivity after long-duration spaceflight","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spaceflight effects on biology","field":"Medicine","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; National Institute of Neurological Disorders and Stroke; National Aeronautics and Space Administration; National Institute on Aging; National Science Foundation","keywords":"Spaceflight; Neuroscience; Psychology; Working memory; Task (project management); Parahippocampal gyrus; Cognition; Temporal lobe","score_opus":0.013903383912748398,"score_gpt":0.2581192837356306,"score_spread":0.2442158998228822,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4282969193","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9819927,0.00025184723,0.00013167878,0.015886122,0.00033105953,0.00081185333,0.000010918522,0.00009515108,0.0004886454],"genre_scores_gemma":[0.9960875,0.000004825883,0.00007688285,0.0029279965,0.00015008482,0.00026166654,0.00003656594,0.000031043124,0.0004234531],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983144,0.00040843,0.00015316582,0.0005216666,0.00023353464,0.0003688048],"domain_scores_gemma":[0.9990797,0.00033436914,0.000121120254,0.0003130345,0.000026885069,0.0001248815],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005530077,0.00021907374,0.00040407092,0.00028297649,0.0001292495,0.000020482412,0.000070726746,0.0001211053,0.0006626207],"category_scores_gemma":[0.00017272851,0.00020821916,0.00005813198,0.00037113417,0.00010451279,0.000075558695,0.00013758459,0.0004835267,0.000010315179],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0024393015,0.00030645836,0.82058865,0.00011704849,0.000047296933,0.00049733074,0.00055689237,0.000010261067,0.15825304,0.000051398467,0.0006889149,0.016443424],"study_design_scores_gemma":[0.0025816984,0.000837257,0.97856367,0.000051626976,0.000037046742,0.00009872853,0.00011062742,0.0015998376,0.014368329,0.000035385976,0.0014671808,0.00024864095],"about_ca_topic_score_codex":0.00017090971,"about_ca_topic_score_gemma":0.00514283,"teacher_disagreement_score":0.157975,"about_ca_system_score_codex":0.00028351985,"about_ca_system_score_gemma":0.00010360164,"threshold_uncertainty_score":0.8490931},"labels":[],"label_agreement":null},{"id":"W4283708460","doi":"10.1093/cercor/bhac258","title":"A role of prefrontal cortico-hypothalamic projections in wake promotion","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and Wakefulness Research","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Royal Ottawa Mental Health Centre; University of Ottawa","funders":"Canadian Institutes of Health Research; Qingdao University; Natural Science Foundation of Shandong Province; Tsinghua University; National Natural Science Foundation of China","keywords":"Non-rapid eye movement sleep; Neuroscience; Ventromedial prefrontal cortex; Wakefulness; Psychology; Prefrontal cortex; Arousal; Lateral hypothalamus; Hypothalamus; Eye movement; Electroencephalography; Cognition","score_opus":0.03531676459781039,"score_gpt":0.2783233430111221,"score_spread":0.24300657841331172,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4283708460","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.992819,0.000023159837,0.00001995342,0.00008055363,0.00016608271,0.0005769086,0.000042465228,0.000047009966,0.006224836],"genre_scores_gemma":[0.9988095,0.0000028679246,0.000016040798,0.000030213834,0.000025339383,0.00028315323,0.000008250207,0.000016704993,0.0008079342],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9984208,0.00021371279,0.00024651532,0.0003526017,0.00046301025,0.0003033954],"domain_scores_gemma":[0.9995641,0.000053516793,0.00007957063,0.00022997419,0.000022947659,0.00004986025],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001402321,0.00009486465,0.0001457419,0.00022885072,0.00019245734,0.000018742778,0.0002701522,0.000030893636,0.00091320445],"category_scores_gemma":[0.00014436599,0.00009501939,0.00005831933,0.0006949434,0.00009131597,0.00014341704,0.00021749947,0.00032081697,0.00002356174],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000065867695,0.00076516945,0.054540064,0.000019679333,0.0000041623884,0.000019583624,0.0006641191,0.00009036762,0.92986214,0.0020202482,0.000055915145,0.011892685],"study_design_scores_gemma":[0.0014644086,0.0008888076,0.5885435,0.00001772557,0.000012623018,0.00014758941,0.0013069038,0.013643103,0.38898104,0.0037803026,0.0009215922,0.00029241497],"about_ca_topic_score_codex":0.00020005059,"about_ca_topic_score_gemma":0.00011597598,"teacher_disagreement_score":0.5408811,"about_ca_system_score_codex":0.00013284432,"about_ca_system_score_gemma":0.0001193339,"threshold_uncertainty_score":0.99989486},"labels":[],"label_agreement":null},{"id":"W4283789043","doi":"10.1093/cercor/bhac236","title":"Optimal blocking of the cerebral cortex for cytoarchitectonic examination: a neuronavigation-based approach","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Human Frontier Science Program","keywords":"Cytoarchitecture; Sulcus; Cortex (anatomy); Central sulcus; Anatomy; Cerebral cortex; Neuroscience; Coronal plane; Somatosensory system; Neuroanatomy; Biology; Motor cortex","score_opus":0.05106301895722977,"score_gpt":0.3133843964435513,"score_spread":0.26232137748632156,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4283789043","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9211842,0.0000513022,0.07272926,0.0018812098,0.00013013043,0.002292403,0.00014974014,0.0002371268,0.0013446708],"genre_scores_gemma":[0.97596073,7.809972e-7,0.021802783,0.00074964436,0.00007466954,0.00070605084,0.00015973157,0.00004718237,0.0004984028],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99858207,0.0000721316,0.00032771422,0.0004076279,0.00035593714,0.00025450275],"domain_scores_gemma":[0.9988748,0.00011689972,0.00023564929,0.0005986773,0.00010683615,0.00006715034],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017621809,0.00016373234,0.00023767579,0.00008652767,0.00043115998,0.000012568097,0.00032661928,0.00003359359,0.00009678518],"category_scores_gemma":[0.00005543161,0.00013968625,0.00021011678,0.0004818034,0.00015950517,0.000042468673,0.00017031579,0.00037101452,8.431148e-7],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0025682861,0.008519986,0.21750842,0.002883002,0.00048264704,0.000049789858,0.0031857623,0.10550748,0.3498756,0.126572,0.012307571,0.17053945],"study_design_scores_gemma":[0.0050451807,0.0015295334,0.52855366,0.00009916873,0.00035874665,0.00033428177,0.00044777675,0.4259741,0.019753745,0.0018409229,0.015446271,0.0006166165],"about_ca_topic_score_codex":0.000009980512,"about_ca_topic_score_gemma":7.264355e-7,"teacher_disagreement_score":0.33012185,"about_ca_system_score_codex":0.000098392535,"about_ca_system_score_gemma":0.0001773865,"threshold_uncertainty_score":0.56962395},"labels":[],"label_agreement":null},{"id":"W4285987717","doi":"10.1093/cercor/bhac274","title":"Local neurodynamics as a signature of cortical areas: new insights from sleep","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":16,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"International Science and Technology Center","keywords":"Wakefulness; Sleep (system call); Neuroscience; Psychology; Somatosensory system; Rapid eye movement sleep; Stereoelectroencephalography; Electroencephalography; Computer science","score_opus":0.01256404249674817,"score_gpt":0.2235880190498207,"score_spread":0.21102397655307253,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4285987717","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99454176,0.00005255279,0.0017279065,0.00043410523,0.0012802276,0.00023311749,0.000087262844,0.00009994632,0.0015430925],"genre_scores_gemma":[0.99585,0.0000060782677,0.000038046925,0.0029561068,0.00009811298,0.000009827285,0.000059078877,0.000033290642,0.000949409],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.998003,0.00020598734,0.00032699897,0.0006099902,0.0005790699,0.00027493766],"domain_scores_gemma":[0.9989702,0.0002685218,0.00015774115,0.0003770477,0.000030376863,0.0001960754],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000039059436,0.00020217647,0.00025854804,0.000096626194,0.00026960735,0.00003529597,0.00042282345,0.00008158091,0.00092506775],"category_scores_gemma":[0.00021563971,0.00018857492,0.00013992158,0.00049527467,0.00013853615,0.00014698418,0.00034369744,0.00073306676,0.00005122054],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006251355,0.00036026322,0.001039343,0.000015293814,0.000020663889,0.00032323916,0.00034340884,0.003542332,0.9272499,0.053314287,0.0021244576,0.011041666],"study_design_scores_gemma":[0.003400334,0.0031288206,0.10666129,0.00003353486,0.00015690083,0.0003034867,0.0006610617,0.735796,0.048659287,0.085330114,0.014566734,0.0013024675],"about_ca_topic_score_codex":0.00024456438,"about_ca_topic_score_gemma":0.000047564645,"teacher_disagreement_score":0.87859064,"about_ca_system_score_codex":0.00007921906,"about_ca_system_score_gemma":0.000113045644,"threshold_uncertainty_score":0.9999882},"labels":[],"label_agreement":null},{"id":"W4286215679","doi":"10.1093/cercor/bhac268","title":"Convergent and divergent oscillatory aberrations during visuospatial processing in HIV-related cognitive impairment and Alzheimer’s disease","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; National Institute of General Medical Sciences; National Institute on Drug Abuse; National Institute on Aging; National Institutes of Health","keywords":"Neurocognitive; Magnetoencephalography; Neuropsychology; Psychology; Cognition; Disease; Audiology; Neuroscience; Neurophysiology; Alzheimer's disease; Cognitive psychology; Electroencephalography; Medicine; Pathology","score_opus":0.019191517358498618,"score_gpt":0.2853881501532326,"score_spread":0.266196632794734,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4286215679","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98439574,0.013777386,0.0000021506098,0.000351502,0.00007104181,0.0010409588,0.00015508766,0.000047793183,0.00015836307],"genre_scores_gemma":[0.9991368,0.0001546161,0.0000145365375,0.00009543283,0.000028821074,0.00022020444,0.00024331379,0.000024175213,0.0000820706],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99846846,0.000091005335,0.0002512295,0.00042504858,0.0004134373,0.000350843],"domain_scores_gemma":[0.9991026,0.000017663544,0.00007159723,0.00011546285,0.00005841175,0.0006342584],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008559165,0.00018733513,0.00022549648,0.00015677782,0.00047763303,0.000028336262,0.00003970154,0.000029950863,0.00081610004],"category_scores_gemma":[0.000019201561,0.00017775936,0.000056029025,0.00019713936,0.00013660859,0.00013059514,0.00024269185,0.00022168898,0.000015809177],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013672156,0.0008740288,0.9928276,0.00010285077,0.0011877917,0.00074064493,0.00096091995,0.000009337555,0.00007457741,0.000047059304,0.00012580809,0.0016821562],"study_design_scores_gemma":[0.0053026928,0.00030692515,0.9898542,0.00008593319,0.00070466415,0.000042455435,0.00078779587,0.0025839885,0.00005123619,0.00007871871,0.0000234794,0.00017788123],"about_ca_topic_score_codex":0.00007008893,"about_ca_topic_score_gemma":0.000015060175,"teacher_disagreement_score":0.0147411125,"about_ca_system_score_codex":0.00015612328,"about_ca_system_score_gemma":0.00033050982,"threshold_uncertainty_score":0.8935723},"labels":[],"label_agreement":null},{"id":"W4291414600","doi":"10.1093/cercor/bhac282","title":"Enhanced left superior parietal activation during successful speech production in patients with left dorsal striatal damage and error-prone neurotypical participants","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Medical Research Council; Medical Research Council Canada; Stroke Association; Wellcome Trust","keywords":"Neurotypical; Functional magnetic resonance imaging; Stroke (engine); Neuroscience; Medicine; Psychology; Audiology; Developmental psychology","score_opus":0.018838101391411233,"score_gpt":0.25579632567393595,"score_spread":0.23695822428252472,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4291414600","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99862564,0.000003428749,0.0000024965868,0.0002328548,0.00035326256,0.0006480002,0.000026671623,0.000079180056,0.000028453567],"genre_scores_gemma":[0.9994482,0.000001179203,0.000017798786,0.00020681437,0.00007581414,0.000019284811,0.00004073084,0.000027053302,0.00016315623],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9978381,0.00028036296,0.00029299036,0.00079274207,0.00033030397,0.00046550992],"domain_scores_gemma":[0.99944884,0.000055446235,0.00012629092,0.0002645273,0.000027859818,0.00007704331],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013197784,0.00020745679,0.00023360501,0.00012114801,0.0003695168,0.00005006727,0.00019716736,0.000055833876,0.00024657106],"category_scores_gemma":[0.00028111954,0.00018371307,0.000029803292,0.00021145532,0.00019282018,0.0004696576,0.00025309648,0.0004929102,0.000005588854],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013884286,0.00030241144,0.24327567,0.000026961678,0.0000056039216,0.0001173951,0.0013979379,0.000048717346,0.75264174,0.0000074947634,0.0000072872936,0.00078036403],"study_design_scores_gemma":[0.0015557813,0.0004388215,0.58871776,0.000010100979,0.0000105208555,0.000053687854,0.00023643931,0.00004391005,0.40870556,0.000015991405,0.00001340758,0.00019803118],"about_ca_topic_score_codex":0.000040484018,"about_ca_topic_score_gemma":0.000090973954,"teacher_disagreement_score":0.3454421,"about_ca_system_score_codex":0.00005558213,"about_ca_system_score_gemma":0.00005270077,"threshold_uncertainty_score":0.7491602},"labels":[],"label_agreement":null},{"id":"W4292448945","doi":"10.1093/cercor/bhac289","title":"Delay-related activity in marmoset prefrontal cortex","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Canada First Research Excellence Fund","keywords":"Marmoset; Prefrontal cortex; Neuroscience; Ventrolateral prefrontal cortex; Psychology; Consumer neuroscience; Cognitive psychology; Biology; Cognition","score_opus":0.018865528001502485,"score_gpt":0.23803842594222135,"score_spread":0.21917289794071887,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4292448945","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9923359,0.000011996253,0.000019869316,0.00030876143,0.0011501003,0.00035533844,0.00009357736,0.000118599164,0.0056058345],"genre_scores_gemma":[0.9954913,0.0000055727296,0.00001007547,0.0007325832,0.00002756151,0.0000525293,0.000028143679,0.00002752367,0.0036246604],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99815327,0.0002464301,0.00024491327,0.00059439015,0.00037314414,0.00038785138],"domain_scores_gemma":[0.999402,0.000101110025,0.00012197218,0.00027670478,0.000010731571,0.00008748124],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00016602522,0.00017576742,0.00019128695,0.00013398124,0.0003163336,0.00004236908,0.00030265594,0.000056977686,0.0014695748],"category_scores_gemma":[0.000071471004,0.00018024404,0.00008997599,0.0005767749,0.00006992061,0.00024602286,0.00033023668,0.00060020917,0.00008723395],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00029009397,0.00035042022,0.008390687,0.000011220922,0.0000063554094,0.00028401607,0.00014151164,0.00030323706,0.9727318,0.0026098944,0.0011512091,0.013729531],"study_design_scores_gemma":[0.0018586551,0.00091497443,0.8732111,0.000011350249,0.0000200128,0.0004345833,0.00012166477,0.099089235,0.012927841,0.0047663264,0.005906272,0.0007380005],"about_ca_topic_score_codex":0.0001473036,"about_ca_topic_score_gemma":0.000112711554,"teacher_disagreement_score":0.959804,"about_ca_system_score_codex":0.00023409499,"about_ca_system_score_gemma":0.00005648545,"threshold_uncertainty_score":0.99944323},"labels":[],"label_agreement":null},{"id":"W4292679485","doi":"10.1093/cercor/bhac319","title":"Age-related changes of deep-brain neurophysiological activity","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":22,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute on Aging; Biotechnology and Biological Sciences Research Council; Canadian Institutes of Health Research; Medical Research Council; Directorate for Biological Sciences; Canada First Research Excellence Fund; Natural Sciences and Engineering Research Council of Canada; McGill University","keywords":"Neuroscience; Hippocampus; Brain activity and meditation; Magnetoencephalography; Neurophysiology; Psychology; Thalamus; Cognition; Cognitive decline; Striatum; Resting state fMRI; Electroencephalography; Medicine; Dementia; Dopamine; Internal medicine","score_opus":0.03963426023814049,"score_gpt":0.2590275788745545,"score_spread":0.21939331863641404,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4292679485","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9889068,0.000026304693,0.000021880705,0.0069710477,0.0007003639,0.00024090626,0.00004136302,0.00014404271,0.002947286],"genre_scores_gemma":[0.9946368,0.0000041382746,0.000015356598,0.004203096,0.00005300415,0.000060648887,0.0000038273206,0.000019527839,0.0010036147],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99804026,0.00050920673,0.00015662302,0.0005899336,0.00041015874,0.00029382482],"domain_scores_gemma":[0.9969322,0.0025391553,0.00015089608,0.00029799825,0.000021779977,0.000057964076],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016773405,0.00016912994,0.00028369902,0.000097065495,0.0004489207,0.0000122142155,0.00032383602,0.00004067765,0.0008932621],"category_scores_gemma":[0.0030564,0.00015769903,0.00011276482,0.000556793,0.00029024747,0.00008757499,0.0006744131,0.00039833417,0.00003251014],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015854908,0.00022089097,0.0003875709,0.000013931599,0.000014095615,0.00008125614,0.00021071851,0.00022512706,0.9870908,0.003548146,0.002882026,0.005166833],"study_design_scores_gemma":[0.0025882798,0.0057632606,0.70642954,0.000014308434,0.000060763276,0.00022586623,0.0006022088,0.0075992513,0.23087947,0.01817901,0.02643077,0.0012272504],"about_ca_topic_score_codex":0.000021331445,"about_ca_topic_score_gemma":0.000022428596,"teacher_disagreement_score":0.7562114,"about_ca_system_score_codex":0.000064004336,"about_ca_system_score_gemma":0.000023866613,"threshold_uncertainty_score":0.97805935},"labels":[],"label_agreement":null},{"id":"W4292682278","doi":"10.1093/cercor/bhac307","title":"Anxiety disrupts performance monitoring: integrating behavioral, event-related potential, EEG microstate, and sLORETA evidence","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Error-related negativity; Anterior cingulate cortex; Anxiety; Stroop effect; Psychology; Ministate; Electroencephalography; Prefrontal cortex; Cognitive psychology; Default mode network; Neural correlates of consciousness; Functional magnetic resonance imaging; Neuroscience; Cognition; Psychiatry","score_opus":0.08237877450800789,"score_gpt":0.3539801914845778,"score_spread":0.2716014169765699,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4292682278","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967481,0.00056304806,0.000002564773,0.00045295822,0.0015700123,0.00036145965,0.000036253638,0.00016167328,0.00010396802],"genre_scores_gemma":[0.9970778,0.00047677205,0.000037882823,0.00021900826,0.000044638553,0.00007858398,0.0000060700095,0.000030869378,0.002028373],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99768186,0.00014685222,0.0004213534,0.00085184973,0.00037497317,0.00052312086],"domain_scores_gemma":[0.9992558,0.000051483446,0.000202458,0.00031770207,0.000044105138,0.00012847314],"candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.00017899861,0.0003056208,0.0002805692,0.00008780365,0.001377633,0.00009966746,0.00042313605,0.00006335308,0.00021609344],"category_scores_gemma":[0.00003880219,0.00026589778,0.00010519587,0.00046837624,0.00036706025,0.00056972576,0.00067570555,0.00072745245,0.00003159453],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00006931377,0.00013743997,0.23810494,0.000013885422,0.000004310221,0.000071820956,0.00048355586,0.000010746897,0.7529884,0.000017130842,0.00038152243,0.0077169645],"study_design_scores_gemma":[0.0012698983,0.001978682,0.779685,0.00015008384,0.00015925712,0.0011891504,0.0024417748,0.00058128126,0.21025774,0.00020791778,0.001017843,0.0010613817],"about_ca_topic_score_codex":0.000057445966,"about_ca_topic_score_gemma":0.0000039875385,"teacher_disagreement_score":0.5427306,"about_ca_system_score_codex":0.00007497648,"about_ca_system_score_gemma":0.000024815372,"threshold_uncertainty_score":0.9999793},"labels":[],"label_agreement":null},{"id":"W4294783310","doi":"10.1093/cercor/bhac344","title":"Physical distance to sensory-motor landmarks predicts language function","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University; McGill University; McGill Genome Centre","funders":"Institute of Psychology, Chinese Academy of Sciences; National Key Research and Development Program of China; Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Sensory system; Psychology; Cognition; Neuroscience; Sensory cortex; Comprehension; Functional magnetic resonance imaging; Cognitive psychology; Computer science","score_opus":0.015625768321996865,"score_gpt":0.26372835915922455,"score_spread":0.2481025908372277,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4294783310","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952044,0.000029801826,0.00007462936,0.0003640493,0.00084194203,0.00029249146,0.00023271677,0.00020543244,0.002754551],"genre_scores_gemma":[0.98538977,8.906826e-7,0.00001869208,0.00541624,0.00042119544,0.00004688695,0.000023225186,0.000022134443,0.008660948],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9985453,0.00019240884,0.0001381319,0.0005343291,0.00026027326,0.00032955312],"domain_scores_gemma":[0.999362,0.00012248637,0.000060506067,0.0003216485,0.000013497414,0.0001198781],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008804357,0.00014928858,0.00016734123,0.0000659807,0.0003151526,0.00002743743,0.000282317,0.000030741845,0.00053056475],"category_scores_gemma":[0.00015939803,0.0001342869,0.000085711676,0.0002321173,0.0000639587,0.00007766558,0.0002250869,0.00031790865,0.00015854163],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023208752,0.0001169602,0.0004384173,0.0000084269595,0.000003912252,0.00058704725,0.0015853639,0.000017986493,0.9918902,0.0003827257,0.0023611807,0.002375681],"study_design_scores_gemma":[0.0054793204,0.008400798,0.034770247,0.0000501182,0.00019968275,0.0025872572,0.0062565366,0.0039034649,0.7091593,0.002283865,0.22408722,0.002822157],"about_ca_topic_score_codex":0.00002194461,"about_ca_topic_score_gemma":0.000017404273,"teacher_disagreement_score":0.28273088,"about_ca_system_score_codex":0.00004401847,"about_ca_system_score_gemma":0.000026968039,"threshold_uncertainty_score":0.5809312},"labels":[],"label_agreement":null},{"id":"W4295898206","doi":"10.1093/cercor/bhac322","title":"A 3D atlas of functional human brain energetic connectome based on neuropil distribution","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; Ministry of Education, India; State Key Laboratory of Medical Neurobiology; Fudan University; National Natural Science Foundation of China; National Center for Advancing Translational Sciences; Natural Science Foundation of Shanghai; National Institutes of Health; Yale University","keywords":"Neuropil; Neuroscience; Human brain; Connectome; Cortex (anatomy); Connectomics; Resting state fMRI; Voxel; Functional connectivity; Biology; Computer science; Central nervous system; Artificial intelligence","score_opus":0.03242062638751046,"score_gpt":0.24962386458036803,"score_spread":0.21720323819285758,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4295898206","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98883104,0.000012935026,0.00068266486,0.0055913012,0.0010815009,0.00028950325,0.0004837591,0.00015803907,0.0028692505],"genre_scores_gemma":[0.99233365,4.789708e-7,0.00000793799,0.006137409,0.00011918151,0.000096481206,0.00014156543,0.000026187468,0.0011370821],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9975049,0.00045603674,0.0002892516,0.0006599217,0.0007848628,0.0003050473],"domain_scores_gemma":[0.99635834,0.0029746592,0.00017665766,0.00035052208,0.000066050765,0.00007379509],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0002610662,0.00020590113,0.0002447771,0.00013789682,0.00083768927,0.000022086404,0.00023702388,0.000034375917,0.0016666045],"category_scores_gemma":[0.0031213686,0.00021455123,0.00014874543,0.0005957984,0.00020638078,0.00009501441,0.00022452592,0.00032598586,0.00004526633],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007552065,0.0010546709,0.008619022,0.000063555,0.000029084891,0.000066331784,0.00009155509,0.022876365,0.8144541,0.062184487,0.089122735,0.0006829383],"study_design_scores_gemma":[0.006401969,0.007162023,0.7052631,0.000049029462,0.00008772844,0.00012304362,0.00020333254,0.061333332,0.08970036,0.005262431,0.12300244,0.0014112066],"about_ca_topic_score_codex":0.000031804877,"about_ca_topic_score_gemma":0.0000133944695,"teacher_disagreement_score":0.7247537,"about_ca_system_score_codex":0.00019940655,"about_ca_system_score_gemma":0.00009610931,"threshold_uncertainty_score":0.999246},"labels":[],"label_agreement":null},{"id":"W4295906315","doi":"10.1093/cercor/bhac323","title":"Accurate machine learning prediction of sexual orientation based on brain morphology and intrinsic functional connectivity","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Mila - Quebec Artificial Intelligence Institute; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; National Institutes of Health; Health Canada; Canada First Research Excellence Fund; Fondation Brain Canada; RWTH Aachen University; National Institute on Aging; Deutsche Forschungsgemeinschaft; Canadian Institute for Advanced Research","keywords":"Precuneus; Sexual orientation; Psychology; Functional magnetic resonance imaging; Orientation (vector space); Cognitive psychology; Precentral gyrus; Brain morphometry; Trait; Brain mapping; Functional connectivity; Neuroimaging; Artificial intelligence; Neuroscience; Computer science; Magnetic resonance imaging; Medicine; Social psychology; Mathematics","score_opus":0.03856121198108719,"score_gpt":0.2548224064331341,"score_spread":0.2162611944520469,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4295906315","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99372333,0.000013009696,0.001298728,0.0031158398,0.00078353565,0.00026074136,0.00020056118,0.00011029226,0.0004939702],"genre_scores_gemma":[0.9963313,0.000001385183,0.00002175478,0.0030271227,0.00007862145,0.00007038792,0.000070403024,0.000017842316,0.00038121553],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99797165,0.0005656045,0.0002171992,0.0006245268,0.00042652484,0.00019447698],"domain_scores_gemma":[0.9945401,0.0050058966,0.00018889208,0.00016188163,0.00005377802,0.000049446655],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004263017,0.00015536006,0.00019843262,0.0002046641,0.0006529253,0.000016741986,0.00008160357,0.000039522358,0.0005712847],"category_scores_gemma":[0.0055339593,0.00016417295,0.00003513661,0.00041373345,0.00017610876,0.00017400342,0.00017366475,0.00043390263,0.000009329279],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0032686957,0.00075919233,0.29925305,0.00010127781,0.000058522284,0.000047758742,0.000555105,0.080028646,0.585942,0.010714611,0.010458383,0.008812771],"study_design_scores_gemma":[0.002876497,0.004208985,0.80593896,0.0000068884924,0.000036280635,0.00011857665,0.00041501794,0.17096436,0.010992711,0.0008034585,0.0033616757,0.0002765741],"about_ca_topic_score_codex":0.00006398267,"about_ca_topic_score_gemma":0.000018882722,"teacher_disagreement_score":0.57494926,"about_ca_system_score_codex":0.00012818715,"about_ca_system_score_gemma":0.000069568894,"threshold_uncertainty_score":0.6694779},"labels":[],"label_agreement":null},{"id":"W4296776320","doi":"10.1093/cercor/bhac348","title":"Age-dependent increased sag amplitude in human pyramidal neurons dampens baseline cortical activity","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University Health Network; Centre for Addiction and Mental Health","funders":"Natural Sciences and Engineering Research Council of Canada; Centre for Addiction and Mental Health","keywords":"Neuroscience; Human brain; Neuron; Extracellular; Premovement neuronal activity; Psychology; Biology; Cell biology","score_opus":0.03273147266628262,"score_gpt":0.27555717297900045,"score_spread":0.24282570031271783,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4296776320","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967386,0.000003043848,0.00018477453,0.000479068,0.00061351067,0.00042752395,0.00010849647,0.0001624383,0.0012825248],"genre_scores_gemma":[0.9968559,0.0000023828818,0.000013081321,0.001972471,0.00009441337,0.000068847716,0.000046689922,0.000041487066,0.00090473634],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9968977,0.0007491321,0.00035103905,0.00083928276,0.0006165511,0.00054630765],"domain_scores_gemma":[0.99884766,0.00034812637,0.00012464535,0.00046747617,0.000017837121,0.00019426564],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000437479,0.00024457663,0.00028914475,0.00017472934,0.0006602223,0.00010615852,0.00042111546,0.000056960576,0.0011695147],"category_scores_gemma":[0.00041986062,0.00025369963,0.000118644486,0.00047733716,0.00015160601,0.00019211216,0.00053352246,0.0009950625,0.000038789556],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018585745,0.0005933677,0.009941634,0.0000104856545,0.0000033931144,0.0005705972,0.000046355086,0.00031359197,0.98239636,0.004034666,0.00025686895,0.001646804],"study_design_scores_gemma":[0.0023915344,0.0008621884,0.9341439,0.00001029112,0.00003305938,0.00019572997,0.0000760243,0.036029477,0.021219634,0.0022888465,0.0020174657,0.00073186756],"about_ca_topic_score_codex":0.0005890699,"about_ca_topic_score_gemma":0.00056413555,"teacher_disagreement_score":0.96117675,"about_ca_system_score_codex":0.0002233777,"about_ca_system_score_gemma":0.00007115592,"threshold_uncertainty_score":0.99999154},"labels":[],"label_agreement":null},{"id":"W4297256586","doi":"10.1093/cercor/bhac351","title":"Social belonging: brain structure and function is linked to membership in sports teams, religious groups, and social clubs","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Mila - Quebec Artificial Intelligence Institute; McGill University Health Centre; Montreal Neurological Institute and Hospital","funders":"National Institute on Aging; Canadian Institutes of Health Research; National Institutes of Health; Canada First Research Excellence Fund; Fondation Brain Canada; Medical Research Council; Canadian Institute for Advanced Research","keywords":"Default mode network; Psychology; Ventromedial prefrontal cortex; Biobank; Prefrontal cortex; Social neuroscience; Developmental psychology; Social cognition; Cognitive psychology; Cognition; Neuroscience; Biology","score_opus":0.019565608208257902,"score_gpt":0.25454928691236195,"score_spread":0.23498367870410405,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4297256586","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9685573,0.0000668854,0.000008265903,0.030018615,0.0004854029,0.0003677155,0.00006342531,0.00009517612,0.00033722512],"genre_scores_gemma":[0.97808605,0.0000047604253,0.000015666546,0.021159109,0.00031060204,0.00004095567,0.000011720259,0.000030864452,0.00034028292],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99789506,0.00017816879,0.00023285695,0.0007911502,0.000524801,0.00037796187],"domain_scores_gemma":[0.99913657,0.00054127147,0.00010126554,0.0001179157,0.000027996713,0.000074990174],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00025771844,0.00022557702,0.00027810747,0.00020411785,0.0010892858,0.00006525298,0.00012905114,0.00009637848,0.0001872007],"category_scores_gemma":[0.0005313838,0.00025113768,0.000053981646,0.00051144377,0.000136084,0.00016778725,0.0004250161,0.00048928946,0.0000034663797],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0028689918,0.00036999988,0.40685612,0.00028036634,0.0001234098,0.00039119428,0.06622481,0.000089413006,0.09566188,0.035286333,0.3527545,0.03909295],"study_design_scores_gemma":[0.001516785,0.00043902342,0.9386693,0.000009129415,0.00003903414,0.00012463704,0.0025004756,0.00022358123,0.0004911305,0.02850339,0.026871862,0.00061165204],"about_ca_topic_score_codex":0.00008095332,"about_ca_topic_score_gemma":0.00023488197,"teacher_disagreement_score":0.53181314,"about_ca_system_score_codex":0.00019016312,"about_ca_system_score_gemma":0.000060177423,"threshold_uncertainty_score":0.9999941},"labels":[],"label_agreement":null},{"id":"W4303432678","doi":"10.1093/cercor/bhac329","title":"Difference in axon diameter and myelin thickness between excitatory and inhibitory callosally projecting axons in mice","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Medical Research Council; Canadian Institutes of Health Research; European Commission; Medical Research Council Canada; McGill University","keywords":"Excitatory postsynaptic potential; Inhibitory postsynaptic potential; Axon; Neuroscience; Myelin; Soma; Chemistry; Biophysics; Biology; Central nervous system","score_opus":0.058794826539761064,"score_gpt":0.3208896550543648,"score_spread":0.26209482851460375,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4303432678","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975715,0.00018507683,0.0005143074,0.000802814,0.000025832054,0.00055584236,0.000014919986,0.00007984343,0.00024980726],"genre_scores_gemma":[0.9963598,0.000030359275,0.0027705312,0.00044466852,0.000046441703,0.00018831028,0.0000146777165,0.00002200773,0.00012316405],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9989905,0.00006644229,0.00023853668,0.0003720407,0.00013058695,0.0002019346],"domain_scores_gemma":[0.9995527,0.00013621357,0.00006391402,0.00016045857,0.000017225453,0.00006944913],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00017908905,0.00012255905,0.00022690734,0.00016673881,0.00010015996,0.000011960388,0.00007221643,0.000041031202,0.00001048375],"category_scores_gemma":[0.000056505778,0.00012407976,0.000020308331,0.00023899964,0.00009289144,0.000061500985,0.00021557213,0.0005911406,6.004069e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003672975,0.00007669516,0.9600706,0.00008303203,0.0000044331405,0.000037963375,0.0006603637,0.0000012931902,0.024923237,0.0003015397,0.00007611294,0.013728007],"study_design_scores_gemma":[0.0007231602,0.00013512388,0.99559695,0.00008469762,0.000015994397,0.000056266214,0.00041718927,0.0003493984,0.00042857078,0.0013785082,0.000654637,0.00015948154],"about_ca_topic_score_codex":0.00013392615,"about_ca_topic_score_gemma":0.000066344786,"teacher_disagreement_score":0.03552638,"about_ca_system_score_codex":0.00007435556,"about_ca_system_score_gemma":0.000055130484,"threshold_uncertainty_score":0.5059826},"labels":[],"label_agreement":null},{"id":"W4304731445","doi":"10.1093/cercor/bhac405","title":"Creativity in verbal associations is linked to semantic control","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Creativity in Education and Neuroscience","field":"Psychology","cited_by":31,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Kingston Health Sciences Centre; Queen's University","funders":"European Research Council; Medical Research Council; Rosetrees Trust","keywords":"Creativity; Psychology; Control (management); Cognitive psychology; Linguistics; Cognitive science; Computer science; Artificial intelligence; Social psychology; Philosophy","score_opus":0.03622349319048658,"score_gpt":0.3499806080909358,"score_spread":0.3137571149004492,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4304731445","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9764014,0.000014957828,0.00014593512,0.0055549433,0.001381916,0.00037377968,0.00016882301,0.000056820765,0.015901413],"genre_scores_gemma":[0.98444194,5.309494e-7,0.000015282933,0.0066641467,0.00006210311,0.00016752128,0.000012598005,0.000011234349,0.008624671],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99858135,0.00030050328,0.00020424048,0.0003682311,0.0002442154,0.00030145585],"domain_scores_gemma":[0.9992422,0.00024379669,0.00008113808,0.00029936133,0.000028849863,0.00010469663],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00032014813,0.00010214851,0.00018208953,0.00015756398,0.00025818433,0.0000309304,0.00024498554,0.0000370628,0.007961378],"category_scores_gemma":[0.00015278588,0.00011734985,0.00006041031,0.0006927471,0.000040234652,0.000067821406,0.000077343786,0.00027847168,0.00041021785],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010093261,0.0014665646,0.9164187,0.0000037960608,0.000025935602,0.000025823774,0.019301467,0.00006162827,0.0043394715,0.007306405,0.04814342,0.0028058563],"study_design_scores_gemma":[0.0008024474,0.00015279013,0.9857341,0.0000019803463,0.000010034736,0.000007944706,0.0012578076,0.00023273416,0.000020997799,0.00031737363,0.011327966,0.00013378971],"about_ca_topic_score_codex":0.00050750904,"about_ca_topic_score_gemma":0.00017822756,"teacher_disagreement_score":0.06931543,"about_ca_system_score_codex":0.00019550356,"about_ca_system_score_gemma":0.000086572654,"threshold_uncertainty_score":0.9929455},"labels":[],"label_agreement":null},{"id":"W4306385908","doi":"10.1093/cercor/bhac378","title":"Whole-brain dynamics of human sensorimotor adaptation","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":32,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Queen's University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Canadian Foundation for Dietetic Research","keywords":"Cognition; Psychology; Adaptation (eye); Neuroscience; Sensorimotor cortex; Cognitive psychology; Prefrontal cortex; Hippocampus; Motor learning","score_opus":0.03260188992666588,"score_gpt":0.25845076446296783,"score_spread":0.22584887453630195,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4306385908","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99369955,0.000009175205,0.0014869951,0.0015617653,0.00035068084,0.00029639318,0.00013882277,0.00007564266,0.0023809988],"genre_scores_gemma":[0.9945982,3.136483e-7,0.0000751769,0.000552941,0.000057605015,0.00003124622,0.000058197827,0.000016697315,0.0046096253],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.99878484,0.00017082712,0.00024524875,0.00027248028,0.00035422892,0.00017234735],"domain_scores_gemma":[0.9994495,0.00009801483,0.00018133964,0.00019207905,0.000029216872,0.00004984441],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012927047,0.00009801367,0.00014010743,0.000090590445,0.00029405992,0.000018549894,0.00019358116,0.000024262543,0.0004276064],"category_scores_gemma":[0.00011678497,0.00010424808,0.00007441356,0.00022591888,0.0000523843,0.00012698343,0.00007613829,0.00015431977,0.000020002484],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000054583827,0.00009344295,0.00034423498,0.000015428875,0.00000397111,0.000012217892,0.0004926346,0.0009684956,0.9456671,0.04567383,0.00045957667,0.0062144673],"study_design_scores_gemma":[0.004706575,0.0022855282,0.11807521,0.00002390556,0.00006012886,0.000059997572,0.0033078145,0.81298596,0.019521184,0.017521616,0.020535357,0.00091673504],"about_ca_topic_score_codex":0.000075804186,"about_ca_topic_score_gemma":0.000048729362,"teacher_disagreement_score":0.9261459,"about_ca_system_score_codex":0.00008797586,"about_ca_system_score_gemma":0.000038731752,"threshold_uncertainty_score":0.468199},"labels":[],"label_agreement":null},{"id":"W4306730878","doi":"10.1093/cercor/bhac410","title":"Resting-state functional connectivity in adults with 47,XXX: a 7 Tesla MRI study","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University Health Network","funders":"","keywords":"Resting state fMRI; Functional connectivity; Neuroscience; Functional magnetic resonance imaging; Medicine; Psychology","score_opus":0.0288872318537108,"score_gpt":0.24481626356989222,"score_spread":0.2159290317161814,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4306730878","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9932323,0.000023728673,0.000058304446,0.0016194581,0.0005954548,0.0010484868,0.00006688001,0.0002116646,0.003143714],"genre_scores_gemma":[0.9959556,0.0000011860617,0.00003165954,0.0018829912,0.00008573094,0.000500565,0.0000054819066,0.000040669904,0.0014961136],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9965149,0.00058291695,0.00030650827,0.0011822861,0.00091224624,0.0005011084],"domain_scores_gemma":[0.9959356,0.003311208,0.00016721271,0.0004133993,0.00007892488,0.000093638686],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00054930453,0.00029185132,0.00033316182,0.0002557554,0.0008832487,0.00005028664,0.00028806,0.000026336385,0.00039146957],"category_scores_gemma":[0.0027939202,0.00027364586,0.00006654531,0.0012151846,0.00017754543,0.00021961673,0.0005362659,0.00068292493,0.00005338597],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.004719608,0.0029529647,0.9611544,0.00004983927,0.00006141297,0.00076192745,0.0038914853,0.009861131,0.0049585956,0.001348929,0.00855814,0.001681554],"study_design_scores_gemma":[0.0042791823,0.0028277263,0.98343664,0.00002834347,0.00001660356,0.00017377133,0.0028958197,0.0027758335,0.0005842225,0.0011706947,0.0013118881,0.0004992593],"about_ca_topic_score_codex":0.0004277142,"about_ca_topic_score_gemma":0.0018433799,"teacher_disagreement_score":0.022282243,"about_ca_system_score_codex":0.0003217817,"about_ca_system_score_gemma":0.00018470504,"threshold_uncertainty_score":0.99997157},"labels":[],"label_agreement":null},{"id":"W4307429742","doi":"10.1093/cercor/bhac416","title":"Monitoring the acute and subacute recovery of cognitive ocular motor changes after a sports-related concussion","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Traumatic Brain Injury Research","field":"Medicine","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Vancouver Island University","funders":"","keywords":"Concussion; Saccade; Stroop effect; Medicine; Physical medicine and rehabilitation; Cognition; Audiology; Poison control; Cognitive test; Physical therapy; Psychology; Eye movement; Injury prevention; Ophthalmology; Psychiatry","score_opus":0.02432539594704779,"score_gpt":0.29557027935277813,"score_spread":0.27124488340573033,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4307429742","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99602026,0.00095290854,0.000006701529,0.001186957,0.00027615816,0.0008280557,0.00010187678,0.0000388837,0.0005881941],"genre_scores_gemma":[0.99675214,0.00013668623,0.00006395407,0.00019462503,0.0000834613,0.0001851117,0.000026813252,0.000031529475,0.002525651],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99844646,0.00012463839,0.0002562132,0.0002807946,0.0006156881,0.00027622373],"domain_scores_gemma":[0.9991995,0.00019691557,0.000119320764,0.0002660404,0.000099857934,0.000118330354],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0004059465,0.00014709182,0.00030686593,0.00012305587,0.00016376686,0.000015737283,0.00010807895,0.00006378148,0.0011556138],"category_scores_gemma":[0.00009382143,0.00010132506,0.00008872555,0.0002727712,0.00018554888,0.00006696394,0.0002458853,0.00045551403,0.000007058523],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.014375221,0.00057724037,0.7025109,0.0005648462,0.0027967137,0.002038572,0.012191048,0.0000013664793,0.07493284,0.00017133795,0.0015517209,0.18828821],"study_design_scores_gemma":[0.0023068467,0.0015791532,0.9855109,0.0004086555,0.00042935496,0.0003595877,0.0029908533,0.00016100451,0.0054811956,0.0001892494,0.00040656741,0.0001766599],"about_ca_topic_score_codex":0.00002676601,"about_ca_topic_score_gemma":0.000001989181,"teacher_disagreement_score":0.283,"about_ca_system_score_codex":0.0000694016,"about_ca_system_score_gemma":0.0000880562,"threshold_uncertainty_score":0.99975747},"labels":[],"label_agreement":null},{"id":"W4307775055","doi":"10.1093/cercor/bhac422","title":"Neurovascular decoupling measured with quantitative susceptibility mapping is associated with cognitive decline in patients with type 2 diabetes","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"National Natural Science Foundation of China","keywords":"Cerebral blood flow; Quantitative susceptibility mapping; Neurovascular bundle; Internal medicine; Cardiology; Hippocampal formation; Cognitive decline; Cognition; Neuroscience; Neuroimaging; Medicine; Magnetic resonance imaging; Psychology; Pathology; Dementia; Radiology","score_opus":0.03488083788993257,"score_gpt":0.24516640112088967,"score_spread":0.2102855632309571,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4307775055","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99832684,0.000031213698,0.00006844263,0.0003431138,0.00012371397,0.0007608484,0.00008757665,0.00009850806,0.00015972053],"genre_scores_gemma":[0.9969582,0.0000012563044,0.00009116693,0.0027223353,0.000011299711,0.00008229289,0.0000406177,0.000048118567,0.00004471042],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9969522,0.00038061893,0.00024649902,0.00096200773,0.0009920731,0.00046664622],"domain_scores_gemma":[0.99643886,0.0025680312,0.00023230031,0.0002539583,0.0004323825,0.00007443845],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00045919343,0.00029292857,0.00041278798,0.0001684128,0.0005616969,0.00004812015,0.00020125906,0.000035495654,0.00011969163],"category_scores_gemma":[0.004743406,0.00023174012,0.00005149787,0.001574169,0.0002631865,0.0002810398,0.00023887544,0.0004722544,0.000009151617],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011415803,0.00043298164,0.99601626,0.000014460539,0.000109705376,0.000023734294,0.00069162634,0.000494728,0.0008796724,0.000026001933,0.00004717649,0.00012206473],"study_design_scores_gemma":[0.003532899,0.0031136032,0.9894448,0.000083581304,0.000053850876,0.0000018996616,0.0007393893,0.0013728199,0.001152015,0.00009276179,0.00004021716,0.00037215766],"about_ca_topic_score_codex":0.000051830124,"about_ca_topic_score_gemma":0.00083173235,"teacher_disagreement_score":0.006571463,"about_ca_system_score_codex":0.00024496048,"about_ca_system_score_gemma":0.00015130152,"threshold_uncertainty_score":0.9450088},"labels":[],"label_agreement":null},{"id":"W4308298462","doi":"10.1093/cercor/bhac428","title":"Brain activations time locked to slow wave-coupled sleep spindles correlates with intellectual abilities","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Sleep and Wakefulness Research","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University; Royal Ottawa Mental Health Centre; University of Ottawa","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Sleep spindle; Neuroscience; Psychology; Cognition; Electroencephalography; Functional magnetic resonance imaging; Thalamus; Hippocampal formation; Putamen; Slow-wave sleep","score_opus":0.02875421247044867,"score_gpt":0.25434664009608293,"score_spread":0.22559242762563425,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4308298462","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9927272,0.000012464511,0.000694343,0.0023864743,0.00022326995,0.00068664114,0.000054997876,0.0001942684,0.0030202933],"genre_scores_gemma":[0.9838298,9.673267e-7,0.00007402102,0.0015435242,0.0000750142,0.00028433715,0.000024962143,0.00004966748,0.014117719],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99744684,0.0002498952,0.00025739154,0.00067711214,0.0007669805,0.0006017726],"domain_scores_gemma":[0.997719,0.001448562,0.00006500027,0.00046904225,0.000079329366,0.0002190591],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00022597646,0.00023653026,0.0002605416,0.0003029744,0.0008961475,0.00013028183,0.00051015476,0.000050287417,0.008967175],"category_scores_gemma":[0.0018190894,0.00020589549,0.00008175972,0.0012033567,0.00021902827,0.00022824848,0.0004437131,0.00055633194,0.0006367873],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0031929037,0.00140857,0.0058257305,0.00008090133,0.00014130923,0.00026698108,0.018237049,0.0062029418,0.8588272,0.0077522635,0.065094866,0.032969307],"study_design_scores_gemma":[0.0070494195,0.009270769,0.030981995,0.00012372702,0.00011258118,0.0007434942,0.013462725,0.3302345,0.54117596,0.0052657058,0.058039565,0.0035395417],"about_ca_topic_score_codex":0.000058649563,"about_ca_topic_score_gemma":0.000015810938,"teacher_disagreement_score":0.32403156,"about_ca_system_score_codex":0.00018663416,"about_ca_system_score_gemma":0.00016177857,"threshold_uncertainty_score":0.99193877},"labels":[],"label_agreement":null},{"id":"W4309097500","doi":"10.1093/cercor/bhac447","title":"The left inferior frontal gyrus is causally linked to vocal feedback control: evidence from high-definition transcranial alternating current stimulation","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Wilfrid Laurier University","funders":"Fundamental Research Funds for the Central Universities; China Postdoctoral Science Foundation; National Natural Science Foundation of China","keywords":"Inferior frontal gyrus; Transcranial alternating current stimulation; Auditory feedback; Audiology; Speech production; Psychology; Transcranial direct-current stimulation; Stimulation; Neuroscience; Medicine; Transcranial magnetic stimulation; Speech recognition; Cognition; Computer science","score_opus":0.047243189501085144,"score_gpt":0.29511106740753307,"score_spread":0.24786787790644793,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4309097500","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99365914,0.00021670517,0.00063084334,0.0019625665,0.002395453,0.00059630146,0.00035672527,0.00012766698,0.00005460778],"genre_scores_gemma":[0.9951758,0.000025169267,0.00009426865,0.0039999965,0.000508632,0.000033889315,0.000039456874,0.000027932329,0.000094852156],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99751115,0.0004607354,0.00044681528,0.00068001053,0.00048464356,0.00041664945],"domain_scores_gemma":[0.998354,0.0009584795,0.00017990672,0.00033630827,0.00005077006,0.00012051771],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026188814,0.00023466807,0.0002510982,0.00006231924,0.00091642776,0.0001352,0.00055881817,0.00005881195,0.0007113303],"category_scores_gemma":[0.0004570587,0.00019122945,0.00013093905,0.00014663016,0.00011847137,0.00023046906,0.00016926054,0.0005580737,0.00012474762],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009488968,0.00011875219,0.007428434,0.00000935042,0.000018098946,0.00020855266,0.0038377508,0.0004669502,0.96843576,0.0002148863,0.00047026444,0.017842282],"study_design_scores_gemma":[0.014664339,0.0051432233,0.8569391,0.0003476506,0.0004433495,0.00062086957,0.0013181374,0.025123978,0.07505491,0.0076148994,0.009972512,0.0027570704],"about_ca_topic_score_codex":0.00060982635,"about_ca_topic_score_gemma":0.00035460427,"teacher_disagreement_score":0.8933809,"about_ca_system_score_codex":0.00010221874,"about_ca_system_score_gemma":0.00012220391,"threshold_uncertainty_score":0.7798111},"labels":[],"label_agreement":null},{"id":"W4310944070","doi":"10.1093/cercor/bhac463","title":"The gradient in gray matter thickness across auditory cortex and differential cortical thickness changes following perinatal deafness","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neonatal and fetal brain pathology","field":"Medicine","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; McGill University Health Centre; Western University; McGill University","funders":"Canadian Institutes of Health Research; Canada Foundation for Innovation","keywords":"Auditory cortex; Gray (unit); Neuroscience; Cortex (anatomy); Audiology; Psychology; Anatomy; Medicine; Radiology","score_opus":0.011134810159879192,"score_gpt":0.2619028553957441,"score_spread":0.2507680452358649,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4310944070","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9925356,0.0006426018,0.00006254295,0.0027278753,0.0030560798,0.0005497149,0.00005171724,0.000066879846,0.00030699396],"genre_scores_gemma":[0.99620694,0.000023797462,0.00001993259,0.0013146963,0.000324103,0.00023265234,0.00006877328,0.00004879912,0.0017603098],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99742335,0.00025514656,0.0003743323,0.0006433036,0.000525324,0.0007785276],"domain_scores_gemma":[0.99898446,0.00025665443,0.00010417283,0.00041274942,0.00003424533,0.00020770745],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00046181816,0.00031693556,0.0005159377,0.00008657758,0.0010557728,0.000068851965,0.00029716975,0.00013539493,0.0003122551],"category_scores_gemma":[0.00007185205,0.00023055582,0.00016259463,0.00025895197,0.00048794883,0.00009342722,0.0007902333,0.0010847799,0.000036152735],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.004419795,0.0010680591,0.8150947,0.000676415,0.00046161335,0.00761862,0.0140569685,0.000003882814,0.08763605,0.0041378755,0.0021357823,0.062690206],"study_design_scores_gemma":[0.0023276927,0.00041192825,0.98636687,0.000042314474,0.00006905432,0.0017771071,0.0025369527,0.0002307385,0.000107927524,0.00033225227,0.005480014,0.00031712392],"about_ca_topic_score_codex":0.00008176567,"about_ca_topic_score_gemma":0.0002733647,"teacher_disagreement_score":0.17127216,"about_ca_system_score_codex":0.00012693083,"about_ca_system_score_gemma":0.00006548491,"threshold_uncertainty_score":0.94017935},"labels":[],"label_agreement":null},{"id":"W4311566813","doi":"10.1093/cercor/bhac481","title":"Development of the neural correlates of recollection","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory Processes and Influences","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Mental Health; Canadian Institutes of Health Research; McGovern Institute for Brain Research, Massachusetts Institute of Technology; Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital; Health Canada; Canada First Research Excellence Fund; Canada Research Chairs; National Institutes of Health; Government of Canada; Natural Sciences and Engineering Research Council of Canada; Fondation Brain Canada; McGill University","keywords":"Precuneus; Recall; Psychology; Angular gyrus; Episodic memory; Prefrontal cortex; Temporal lobe; Neuroscience; Hippocampus; Cognitive psychology; Parahippocampal gyrus; Functional magnetic resonance imaging; Cognition","score_opus":0.03760063317729773,"score_gpt":0.2552926809679595,"score_spread":0.21769204779066176,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4311566813","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9964939,0.00002341814,0.0000059604768,0.000050670973,0.0005797515,0.00011287811,0.0000042958536,0.000011536655,0.0027175876],"genre_scores_gemma":[0.9985916,0.0000018949925,0.00006732177,0.00014952253,0.000007858195,0.000013027374,4.3746624e-7,0.0000042188203,0.0011641025],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9992551,0.00005445135,0.00022242224,0.00014085605,0.00023373682,0.000093385526],"domain_scores_gemma":[0.9996149,0.00004014965,0.00018280653,0.00012455758,0.000021586353,0.000016025182],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000095012336,0.00005157149,0.00008438234,0.000031592404,0.0003067309,0.00000565699,0.00026713684,0.00001214677,0.00069102773],"category_scores_gemma":[0.00009921077,0.000036230045,0.000038811526,0.00041772032,0.000062960724,0.0000656185,0.00015609096,0.000104506486,0.0000030213369],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000106693995,0.00015325248,0.049050383,0.00009118487,0.000007888593,0.0000014368734,0.0029346386,0.0009397808,0.9291355,0.0018317709,0.0009371008,0.014810395],"study_design_scores_gemma":[0.00027733343,0.0001606186,0.13155816,0.0000130813105,0.000008759568,0.000026393913,0.00072627387,0.0028562841,0.85775346,0.00067212404,0.0058232755,0.00012421621],"about_ca_topic_score_codex":0.000006860688,"about_ca_topic_score_gemma":0.000006189205,"teacher_disagreement_score":0.082507774,"about_ca_system_score_codex":0.00002093656,"about_ca_system_score_gemma":0.00010072229,"threshold_uncertainty_score":0.7566269},"labels":[],"label_agreement":null},{"id":"W4312211240","doi":"10.1093/cercor/bhac480","title":"Single voxel autocorrelation uncovers gradients of temporal dynamics in the hippocampus and entorhinal cortex during rest and navigation","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":23,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; York University; University of Toronto","funders":"National Institute of Mental Health; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; McDonnell Center for Systems Neuroscience; National Institutes of Health; University of Toronto; NIH Blueprint for Neuroscience Research; Canada Research Chairs","keywords":"Voxel; Entorhinal cortex; Hippocampus; Neuroscience; Hippocampal formation; Autocorrelation; Prefrontal cortex; Dynamics (music); Psychology; Computer science; Artificial intelligence; Mathematics; Cognition","score_opus":0.030453912014785266,"score_gpt":0.2605774292744161,"score_spread":0.23012351725963082,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4312211240","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99891835,0.000014758384,0.0000114529985,0.00010238037,0.0003374427,0.0003964155,0.000027922304,0.000021706357,0.00016954135],"genre_scores_gemma":[0.9996938,0.0000034425027,0.00002534376,0.00011925119,0.000016158441,0.000022476714,0.000025352361,0.000010220983,0.00008396998],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99870926,0.00024663928,0.00023880623,0.00031980613,0.00030815112,0.00017735978],"domain_scores_gemma":[0.9995087,0.00010662045,0.00017360866,0.00015500965,0.000010530853,0.00004552479],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022049608,0.00011447896,0.00012679292,0.00008443791,0.00030459565,0.000034170407,0.00015303487,0.000033944485,0.000027314472],"category_scores_gemma":[0.00007525267,0.00010013967,0.000026212922,0.00028882208,0.00009087073,0.00023462746,0.000118894866,0.00025483925,0.0000011304633],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00038451835,0.00024907783,0.13911535,0.00011238648,0.0000042503584,0.0001255251,0.0021035955,0.00013782822,0.8432479,0.009005376,0.000020606922,0.0054935887],"study_design_scores_gemma":[0.003522336,0.0019747033,0.7902055,0.00012258423,0.00004972228,0.00092128257,0.003517003,0.05652705,0.09135597,0.051141083,0.000058152946,0.0006046415],"about_ca_topic_score_codex":0.000047174814,"about_ca_topic_score_gemma":0.0000625827,"teacher_disagreement_score":0.7518919,"about_ca_system_score_codex":0.00011535104,"about_ca_system_score_gemma":0.000018457566,"threshold_uncertainty_score":0.4083577},"labels":[],"label_agreement":null},{"id":"W4312211766","doi":"10.1093/cercor/bhac273","title":"Transcranial magnetic stimulation to the angular gyrus modulates the temporal dynamics of the hippocampus and entorhinal cortex","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital","funders":"National Institute of Mental Health; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Alzheimer's Society","keywords":"Neuroscience; Hippocampal formation; Transcranial magnetic stimulation; Voxel; Entorhinal cortex; Functional magnetic resonance imaging; Hippocampus; Psychology; Resting state fMRI; Temporal cortex; Superior frontal gyrus; Angular gyrus; Dentate gyrus; Stimulation; Computer science; Artificial intelligence","score_opus":0.01442382761181379,"score_gpt":0.22692241405293437,"score_spread":0.21249858644112057,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4312211766","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9818211,0.00016152073,0.00009816788,0.015965289,0.0008491985,0.0007541094,0.000119056014,0.000034206878,0.00019732772],"genre_scores_gemma":[0.996953,0.0000039123206,0.000020275857,0.0024714663,0.00008929388,0.000057766283,0.0000052979194,0.000018806137,0.00038016497],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99817073,0.00037103353,0.00023201908,0.00040131086,0.00058652286,0.00023837436],"domain_scores_gemma":[0.9983246,0.0010638027,0.00011212817,0.0004118652,0.00004393008,0.000043680844],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003184281,0.00016906403,0.0001658284,0.000045650944,0.001133902,0.00004863729,0.000498907,0.000028673689,0.00019674712],"category_scores_gemma":[0.00063117413,0.00009663202,0.00010633092,0.00049474335,0.0003078002,0.00008378715,0.0003491823,0.0002953767,0.000005138561],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0027350518,0.0011451346,0.37006462,0.0002123718,0.00022653109,0.000062652965,0.024936121,0.06112752,0.3076957,0.053196732,0.018446488,0.16015111],"study_design_scores_gemma":[0.00083128345,0.00083312485,0.8780713,0.000011061625,0.00008431639,0.00009509893,0.0010462875,0.09414915,0.0006198183,0.020942373,0.0030480546,0.00026812076],"about_ca_topic_score_codex":0.00020712765,"about_ca_topic_score_gemma":0.00051684526,"teacher_disagreement_score":0.5080067,"about_ca_system_score_codex":0.000094406256,"about_ca_system_score_gemma":0.0000578591,"threshold_uncertainty_score":0.8721172},"labels":[],"label_agreement":null},{"id":"W4313339906","doi":"10.1093/cercor/bhac486","title":"Functional alteration due to structural damage is network dependent: insight from multiple sclerosis","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Center for Advancing Translational Sciences; EMD Serono; Mallinckrodt Pharmaceuticals; National Institutes of Health; Boston Scientific Corporation; Genentech; Bayer; Celgene; Sanofi; Biogen; Bristol-Myers Squibb","keywords":"Default mode network; Structural plasticity; Multiple sclerosis; Neuroscience; Connectome; Diffusion imaging; Diffusion MRI; Resting state fMRI; Brain damage; Structural integrity; Psychology; Medicine; Functional magnetic resonance imaging; Functional connectivity; Magnetic resonance imaging; Immunology","score_opus":0.056459995685657405,"score_gpt":0.23424297761055674,"score_spread":0.17778298192489933,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4313339906","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98948014,0.00004870936,0.0011698394,0.0041826773,0.0033036347,0.0004196281,0.00048088387,0.00016092922,0.00075357413],"genre_scores_gemma":[0.9781264,0.0000017015313,0.00021224814,0.019624164,0.0007931246,0.00014019282,0.00008697535,0.000032412063,0.0009828004],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99750364,0.00023875813,0.00026307034,0.00087422866,0.0007359991,0.0003842961],"domain_scores_gemma":[0.9978606,0.0014936898,0.00010553307,0.0003563287,0.000057361412,0.00012646928],"candidate_categories":["sts","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00012404175,0.00023198802,0.00023168986,0.000098766584,0.001634907,0.00012481853,0.00028946935,0.000044259727,0.0050896965],"category_scores_gemma":[0.0009448988,0.00024370289,0.00010304909,0.0005425125,0.000061170846,0.00036550366,0.00066887843,0.00036118657,0.00025484056],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014488233,0.00023516017,0.09215972,0.00001921759,0.00015303506,0.00012950774,0.003516687,0.07177309,0.44564244,0.008408609,0.364971,0.011542695],"study_design_scores_gemma":[0.0014034137,0.00031995884,0.9195013,0.000012573766,0.000030428062,0.00003944196,0.00020323267,0.026158,0.028499356,0.0054676663,0.017769098,0.0005955316],"about_ca_topic_score_codex":0.00024449173,"about_ca_topic_score_gemma":0.00024679847,"teacher_disagreement_score":0.82734156,"about_ca_system_score_codex":0.00022828813,"about_ca_system_score_gemma":0.000057664565,"threshold_uncertainty_score":0.99966484},"labels":[],"label_agreement":null},{"id":"W4313379554","doi":"10.1093/cercor/bhac489","title":"Human motor sequence learning drives transient changes in network topology and hippocampal connectivity early during memory consolidation","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University; Douglas Mental Health University Institute","funders":"Agencia Nacional de Promoción Científica y Tecnológica; Ministry of Defense; Réseau en Bio-Imagerie du Quebec","keywords":"Hippocampal formation; Memory consolidation; Neuroscience; Hippocampus; Functional magnetic resonance imaging; Motor learning; Psychology; Computer science","score_opus":0.03354131420674052,"score_gpt":0.2646201214068682,"score_spread":0.23107880720012766,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4313379554","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99665135,0.000068065565,0.000014559304,0.001662169,0.00044228067,0.0003740789,0.000015299032,0.00011404112,0.0006581699],"genre_scores_gemma":[0.99852157,0.000010754733,0.000016417796,0.00071183627,0.00013547753,0.00014249163,0.000003545603,0.000019622123,0.00043829402],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99784243,0.00064016454,0.00018313223,0.00066520757,0.0002534345,0.00041562828],"domain_scores_gemma":[0.9985886,0.0010624448,0.000114687806,0.00014862936,0.000021997244,0.00006358996],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032857747,0.00017801099,0.00025933204,0.00014335969,0.001182556,0.000038015358,0.00014416016,0.00004645607,0.00020222],"category_scores_gemma":[0.00076583005,0.00020502241,0.00004007605,0.0003192785,0.00030305606,0.00018918265,0.00026282942,0.00051863265,0.0000047506446],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00023547042,0.00012481931,0.1621169,0.00005626798,0.000020745743,0.00012915678,0.0044481037,0.0027889488,0.8248144,0.003728576,0.00014182276,0.0013948082],"study_design_scores_gemma":[0.0011634103,0.00095027266,0.9810755,0.000020189069,0.000013461476,0.00012686852,0.0014072704,0.0011057032,0.011830973,0.001420847,0.0005012252,0.0003842632],"about_ca_topic_score_codex":0.00016692745,"about_ca_topic_score_gemma":0.0006871062,"teacher_disagreement_score":0.81895864,"about_ca_system_score_codex":0.00017150532,"about_ca_system_score_gemma":0.000032888813,"threshold_uncertainty_score":0.9095384},"labels":[],"label_agreement":null},{"id":"W4313704548","doi":"10.1093/cercor/bhac511","title":"The waiting game: investigating the neurobiological transition from acute to persistent pain in adolescent rats","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Pediatric Pain Management Techniques","field":"Medicine","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Alberta Children's Hospital; University of Calgary","funders":"National Health and Medical Research Council; Medical Research Council; Canadian Institutes of Health Research; Monash University; National Imaging Facility","keywords":"Putamen; Amygdala; Insula; Nucleus accumbens; Medicine; Sexual dimorphism; Magnetic resonance imaging; Sex characteristics; Hippocampus; Psychology; Anesthesia; Internal medicine; Neuroscience; Central nervous system; Radiology","score_opus":0.038401845702584265,"score_gpt":0.2800158671968919,"score_spread":0.24161402149430766,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4313704548","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9770159,0.000071196366,0.0003665769,0.020908408,0.00009068373,0.0008832002,0.000008090381,0.00037452657,0.00028139056],"genre_scores_gemma":[0.9921163,0.00008907739,0.00022699924,0.0070372964,0.00023529681,0.00008879842,0.00007086297,0.000017411106,0.000117992065],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99838054,0.00039189175,0.00030284145,0.0003202083,0.0002318139,0.00037272694],"domain_scores_gemma":[0.9991439,0.00035827374,0.00006577674,0.00029914206,0.00003003638,0.000102860795],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0012827112,0.00014646743,0.000181823,0.000083283616,0.00016671505,0.00004884639,0.00022632384,0.000066894056,0.000015120171],"category_scores_gemma":[0.00049837335,0.00008634365,0.00012315881,0.00059693464,0.00008376933,0.000040183662,0.00011852823,0.00036246324,0.000048762184],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00070332375,0.00039285165,0.30155054,0.0002962661,0.0005492333,0.0010175154,0.00832115,0.00056206604,0.21500935,0.0010218513,0.21575627,0.2548196],"study_design_scores_gemma":[0.0006061661,0.0005005157,0.942787,0.0002724232,0.00016478961,0.000007497708,0.0022966892,0.049130347,0.00037971724,0.0010143626,0.002595051,0.0002454461],"about_ca_topic_score_codex":0.000055020282,"about_ca_topic_score_gemma":0.000026515852,"teacher_disagreement_score":0.6412364,"about_ca_system_score_codex":0.0000888323,"about_ca_system_score_gemma":0.000028708517,"threshold_uncertainty_score":0.3520992},"labels":[],"label_agreement":null},{"id":"W4318174426","doi":"10.1093/cercor/bhac517","title":"Absolute pitch: neurophysiological evidence for early brain activity in prefrontal cortex","year":2022,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; Toronto Metropolitan University; University of Toronto; SickKids Foundation; Hospital for Sick Children","funders":"","keywords":"Neurophysiology; Prefrontal cortex; Neuroscience; Psychology; Brain activity and meditation; Electroencephalography; Cognition","score_opus":0.11861664777090272,"score_gpt":0.3312157669043455,"score_spread":0.2125991191334428,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4318174426","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996662,0.000005046291,0.00017532174,0.00073817594,0.00096483267,0.0010402495,0.000052992982,0.0001146318,0.0002467011],"genre_scores_gemma":[0.99404657,0.000009435232,0.0000318456,0.0041033784,0.00011652353,0.0003913101,0.0000031583481,0.000023135533,0.0012746381],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99728936,0.00033998856,0.00025696756,0.0010555455,0.00045990868,0.0005982016],"domain_scores_gemma":[0.998861,0.00047801217,0.00013328102,0.00038632748,0.000017457543,0.0001239152],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00027357563,0.00021043624,0.00024669323,0.00012324858,0.000507571,0.00007549561,0.0006488687,0.00005138589,0.00033746523],"category_scores_gemma":[0.0006730168,0.00020316802,0.00014202097,0.00053039705,0.00020764602,0.00067049765,0.0004444758,0.00046294898,0.000051041865],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00035291465,0.00016298574,0.0005783477,0.000009263291,4.2092228e-7,0.000040831193,0.00021613174,0.000039322607,0.994486,0.00019428792,0.0006930835,0.0032264232],"study_design_scores_gemma":[0.0006229462,0.0013478638,0.9850357,0.000011330981,0.000005264381,0.00003642286,0.000044402303,0.0038949586,0.006586021,0.0006182071,0.0015208304,0.00027601223],"about_ca_topic_score_codex":0.00010627708,"about_ca_topic_score_gemma":0.00003450569,"teacher_disagreement_score":0.98789996,"about_ca_system_score_codex":0.0001502561,"about_ca_system_score_gemma":0.00010441377,"threshold_uncertainty_score":0.82849514},"labels":[],"label_agreement":null},{"id":"W4318333103","doi":"10.1093/cercor/bhac521","title":"Spontaneous activity in cortical neurons is stereotyped and non-Poisson","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; McGill University; University of British Columbia","funders":"Canadian Institutes of Health Research","keywords":"Neuroscience; Poisson distribution; Cortical neurons; Autocorrelation; Cerebral cortex; Poisson process; Logarithm; Mathematics; Biology; Statistics; Mathematical analysis","score_opus":0.026352637010034836,"score_gpt":0.263561146534609,"score_spread":0.23720850952457415,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4318333103","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972555,0.0000016753501,0.000016750653,0.00095965684,0.00041398933,0.0002047291,0.000018782166,0.00010943728,0.00101949],"genre_scores_gemma":[0.9972065,0.000022354685,0.0000048506,0.000996137,0.000039494626,0.000007505099,0.000002859484,0.000019218747,0.0017010703],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988089,0.000078272365,0.00014023084,0.00046679267,0.00017688406,0.0003288964],"domain_scores_gemma":[0.9994295,0.00022036096,0.000040866573,0.00019548151,0.0000098327055,0.000103906044],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008583302,0.00013421368,0.00015916445,0.000116836185,0.000111957954,0.00005979094,0.00011016578,0.00006449891,0.000075075004],"category_scores_gemma":[0.00016634418,0.00012393385,0.00003850912,0.00045140908,0.00007472151,0.00014367988,0.0001201339,0.00027774842,0.00019161667],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022769302,0.00008541645,0.009172993,0.000029535584,0.0000024895899,0.002161279,0.00023750184,0.000010122698,0.9731426,0.00062371814,0.000747868,0.013558777],"study_design_scores_gemma":[0.00057983526,0.00029688329,0.8874083,0.000015267564,0.00000798142,0.00040125457,0.000028508404,0.094534904,0.015343762,0.0007546539,0.0003863846,0.00024226266],"about_ca_topic_score_codex":0.000057403133,"about_ca_topic_score_gemma":0.00012385883,"teacher_disagreement_score":0.95779884,"about_ca_system_score_codex":0.000028425682,"about_ca_system_score_gemma":0.000020597103,"threshold_uncertainty_score":0.50538754},"labels":[],"label_agreement":null},{"id":"W4318755000","doi":"10.1093/cercor/bhac530","title":"The autism spectrum among transgender youth: default mode functional connectivity","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University of Toronto; SickKids Foundation; Centre for Addiction and Mental Health","funders":"National Center for Advancing Translational Sciences; National Institute of Neurological Disorders and Stroke; National Institutes of Health; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Georgia Clinical and Translational Science Alliance","keywords":"Autism; Default mode network; Transgender; Psychology; Autism spectrum disorder; Functional magnetic resonance imaging; Developmental psychology; Neuroscience; Clinical psychology","score_opus":0.05973343328870215,"score_gpt":0.2666287816724244,"score_spread":0.20689534838372223,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4318755000","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97214335,0.0000391453,0.0010470605,0.015311795,0.0028024828,0.00040837532,0.00013886156,0.00080221705,0.007306682],"genre_scores_gemma":[0.993507,0.000028656008,0.0000053032118,0.0012084792,0.00026557376,0.00007037971,0.000016349188,0.000045484703,0.004852769],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.9972324,0.00023716236,0.00027428393,0.0008553579,0.00068256806,0.0007182554],"domain_scores_gemma":[0.99458224,0.004681194,0.00009945718,0.00047294082,0.00003140864,0.00013277125],"candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.0003911637,0.00029430448,0.0002441152,0.00012613041,0.0016405999,0.00013886341,0.00034029334,0.00010721139,0.00015197262],"category_scores_gemma":[0.0022278547,0.00022598414,0.00022182887,0.0009008235,0.0005340914,0.0003569005,0.00017682932,0.0004433297,0.00073837826],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015158132,0.0007205517,0.12945981,0.00012929372,0.0006145687,0.00031431022,0.008532834,0.010450417,0.12569563,0.52417195,0.18856783,0.009827],"study_design_scores_gemma":[0.00091474527,0.0001430118,0.922716,0.000014565886,0.000043018073,0.00003443659,0.00083693175,0.013276442,0.010212741,0.046855647,0.004425692,0.00052676396],"about_ca_topic_score_codex":0.00018884556,"about_ca_topic_score_gemma":0.00094978535,"teacher_disagreement_score":0.7932562,"about_ca_system_score_codex":0.00012406509,"about_ca_system_score_gemma":0.00009775421,"threshold_uncertainty_score":0.9996591},"labels":[],"label_agreement":null},{"id":"W4319333290","doi":"10.1093/cercor/bhad021","title":"The neurophysiological aftereffects of brain stimulation in human primary motor cortex: a Sham-controlled comparison of three protocols","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke; Université de Montréal","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Neuroscience; Neurophysiology; Primary motor cortex; Motor cortex; Stimulation; Psychology; Cortex (anatomy); Brain stimulation; Transcranial magnetic stimulation","score_opus":0.0704049178660951,"score_gpt":0.3504512671231154,"score_spread":0.2800463492570203,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4319333290","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98617256,0.000016585764,0.00006208767,0.00018496122,0.00009931488,0.012896364,0.000017465998,0.00010490737,0.0004457735],"genre_scores_gemma":[0.997342,0.0000014130588,0.00002588505,0.000102404876,0.000038423077,0.0023553066,0.0000046926466,0.000020446942,0.00010943254],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99754316,0.00037964238,0.00084890396,0.0004251455,0.00047588052,0.0003272961],"domain_scores_gemma":[0.9965377,0.002616259,0.00035882107,0.00036429884,0.00007392021,0.00004899534],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00029891988,0.00021166379,0.00071887067,0.00014843314,0.00018372557,0.000026913875,0.00037255164,0.000082596605,0.000038727918],"category_scores_gemma":[0.0010602789,0.00014549546,0.00016614546,0.00071099406,0.00036191946,0.00008560654,0.00013653768,0.00020308113,0.000018708499],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0019217596,0.000181543,0.028699612,0.00008481355,0.000007948673,0.0000055079877,0.00018889703,0.0005389722,0.96577805,0.0010095302,0.00007170454,0.0015116717],"study_design_scores_gemma":[0.006135827,0.0013727918,0.96869045,0.00006079063,0.000013547769,5.491634e-7,0.000020905867,0.019715676,0.0023591828,0.0014678226,0.000031580512,0.00013086067],"about_ca_topic_score_codex":0.000024793519,"about_ca_topic_score_gemma":0.000049269373,"teacher_disagreement_score":0.96341884,"about_ca_system_score_codex":0.00002652123,"about_ca_system_score_gemma":0.000035289733,"threshold_uncertainty_score":0.5933133},"labels":[],"label_agreement":null},{"id":"W4321486839","doi":"10.1093/cercor/bhad041","title":"Using The Virtual Brain to study the relationship between structural and functional connectivity in patients with multiple sclerosis: a multicenter study","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multiple Sclerosis Research Studies","field":"Medicine","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Eurostars; Amsterdam Neuroscience; MedDay Pharmaceuticals; Fondazione Italiana di Ricerca per la Sclerosi Laterale Amiotrofica; Ministero della Salute; Instituto de Salud Carlos III; ZonMw; Multiple Sclerosis Society of Canada; European Committee for Treatment and Research in Multiple Sclerosis; Atara Biotherapeutics; Fondation pour l'Aide à la Recherche sur la Sclérose en Plaques; Eli Lilly and Company; Bristol-Myers Squibb; Fondazione Italiana Sclerosi Multipla; Medical Research Council; Biogen; Celgene; Alexion Pharmaceuticals; Rosetrees Trust; Sanofi; National Institute for Health and Care Research; Teva Pharmaceutical Industries","keywords":"Multiple sclerosis; Cognition; Psychology; Neuroscience; Magnetic resonance imaging; Functional connectivity; Cognitive impairment; Functional magnetic resonance imaging; Diffusion MRI; Audiology; Physical medicine and rehabilitation; Medicine; Psychiatry","score_opus":0.16801822496049748,"score_gpt":0.3454121349607088,"score_spread":0.17739391000021135,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4321486839","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9945144,0.000007356357,0.000024039568,0.00090487587,0.00008361387,0.004367249,0.000036081216,0.000056561934,0.0000058428805],"genre_scores_gemma":[0.9994651,3.111073e-7,0.000029505965,0.00014776677,0.00010722636,0.00016092406,0.000020093295,0.000027518723,0.000041561772],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.997631,0.00047988782,0.00029719571,0.00045533403,0.00074869866,0.00038787318],"domain_scores_gemma":[0.9970253,0.0022299131,0.00007182387,0.0003869707,0.00015734171,0.00012865759],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0007791938,0.0002134771,0.00030679544,0.00017836744,0.00066822406,0.00007148123,0.00012996409,0.000038691363,0.00002045253],"category_scores_gemma":[0.0022718988,0.00011154478,0.000039588827,0.00083043287,0.00016161014,0.00014451942,0.00036667223,0.0004461076,0.000013575613],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00070659816,0.00027976313,0.9916033,0.000006676948,0.00018852993,0.0000026438988,0.005921558,0.00007298888,0.000064122236,0.0000049382197,0.000095313444,0.0010535761],"study_design_scores_gemma":[0.009102478,0.0012923393,0.9738246,0.000048623275,0.00008074895,3.872626e-7,0.014318513,0.001187825,0.0000048692546,0.000007173026,0.0000028148777,0.00012958082],"about_ca_topic_score_codex":0.00044313993,"about_ca_topic_score_gemma":0.001762025,"teacher_disagreement_score":0.017778644,"about_ca_system_score_codex":0.000119925855,"about_ca_system_score_gemma":0.00004507179,"threshold_uncertainty_score":0.5139507},"labels":[],"label_agreement":null},{"id":"W4321487069","doi":"10.1093/cercor/bhad037","title":"The frontoparietal multiple demand network interacts with the dual pathways in auditory working memory","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Baycrest Hospital; Simon Fraser University; Women and Children’s Health Research Institute; University of Alberta","funders":"National Institute of Neurological Disorders and Stroke; National Institute on Deafness and Other Communication Disorders; Natural Sciences and Engineering Research Council of Canada","keywords":"Working memory; Dual (grammatical number); Cognition; Task (project management); Computer science; Cognitive network; Neuroscience; Cognitive load; Psychology; Cognitive psychology; Cognitive radio; Telecommunications","score_opus":0.03719187671346086,"score_gpt":0.23412643365497282,"score_spread":0.19693455694151196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4321487069","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98814374,0.00014370667,0.00004789508,0.00499909,0.002642286,0.00038191202,0.0000043849336,0.00018441616,0.0034525597],"genre_scores_gemma":[0.9960152,0.000020189447,0.000010058239,0.0016923335,0.00096561684,0.00009011262,0.0000022146771,0.000025733978,0.0011785291],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.99819136,0.00026137792,0.00018616213,0.00045997015,0.00037633127,0.0005248067],"domain_scores_gemma":[0.98957694,0.00990829,0.00010575565,0.00033240754,0.000027116008,0.00004949257],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005505104,0.00018706359,0.0001716654,0.000042023523,0.0010154399,0.0001277182,0.00030945265,0.00004652391,0.000015094203],"category_scores_gemma":[0.0024533484,0.00010321454,0.000062293206,0.00058165484,0.00033689602,0.00016999272,0.00032074607,0.00041844355,0.00014272817],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0022907539,0.00023632575,0.16309668,0.000056375266,0.00020186376,0.00093997683,0.009961871,0.043793786,0.035698507,0.0066774655,0.705878,0.031168366],"study_design_scores_gemma":[0.001606168,0.00026655543,0.918774,0.0001263872,0.000025322086,0.000059160066,0.002877206,0.018001368,0.0033241855,0.001956278,0.05244771,0.00053568126],"about_ca_topic_score_codex":0.000038967148,"about_ca_topic_score_gemma":0.003801493,"teacher_disagreement_score":0.7556773,"about_ca_system_score_codex":0.00007614726,"about_ca_system_score_gemma":0.000064621825,"threshold_uncertainty_score":0.78100455},"labels":[],"label_agreement":null},{"id":"W4323347948","doi":"10.1093/cercor/bhad056","title":"Functional gradients in prefrontal regions and somatomotor networks reflect the effect of music training experience on cognitive aging","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Swiss Tumor Institute","keywords":"Cognition; Psychology; Prefrontal cortex; Neuroplasticity; Cognitive training; Neuroscience; Cognitive psychology; Mechanism (biology); Sensory system; Functional magnetic resonance imaging; Effects of sleep deprivation on cognitive performance; Audiology; Medicine","score_opus":0.07193368303624982,"score_gpt":0.30393282392411275,"score_spread":0.23199914088786294,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4323347948","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9983582,0.0000046943273,0.0000721553,0.000058894468,0.0005637387,0.00034646786,0.000005509229,0.000064056956,0.00052629894],"genre_scores_gemma":[0.99917734,0.000016804308,0.0000012589408,0.00047168045,0.000074182775,0.00007213953,0.0000040451278,0.000011339192,0.00017119455],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986335,0.00018425778,0.00016507805,0.00044291432,0.00025813762,0.00031608323],"domain_scores_gemma":[0.99926835,0.00045339955,0.000074232055,0.00013623423,0.000009568858,0.000058188605],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00021167925,0.00013078647,0.00014596207,0.00013601063,0.00026150115,0.000033746175,0.00013995082,0.00003881548,0.000024648763],"category_scores_gemma":[0.00028801733,0.00009252966,0.000047744634,0.00066882354,0.00034993037,0.00022021684,0.00007796396,0.00020049857,0.000015091249],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00045213796,0.0000755155,0.02274323,0.00004314316,0.000005219701,0.000101177175,0.019470112,0.0003026671,0.9265844,0.0008595947,0.000621339,0.02874145],"study_design_scores_gemma":[0.0012144276,0.00083293905,0.965036,0.00023858472,0.00001277235,0.00007372238,0.0017854732,0.011608627,0.018764757,0.00017934915,0.00004618733,0.00020718001],"about_ca_topic_score_codex":0.000016628293,"about_ca_topic_score_gemma":0.00003166541,"teacher_disagreement_score":0.94229275,"about_ca_system_score_codex":0.000025699015,"about_ca_system_score_gemma":0.000019510644,"threshold_uncertainty_score":0.377325},"labels":[],"label_agreement":null},{"id":"W4323347970","doi":"10.1093/cercor/bhad052","title":"Loss of age-related laminar differentiation of intracortical myelin in bipolar disorder","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; McGill University; Montreal Neurological Institute and Hospital; St. Joseph’s Healthcare Hamilton","funders":"Canadian Institutes of Health Research; McMaster University; Brain and Behavior Research Foundation","keywords":"Myelin; Neuroscience; Bipolar disorder; Psychology; Medicine; Cognition; Central nervous system","score_opus":0.031139920224618242,"score_gpt":0.3214482965989662,"score_spread":0.2903083763743479,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4323347970","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963551,0.000101881196,0.002387812,0.0006175989,0.000028311713,0.00027661052,0.000011798129,0.00011905893,0.00010178291],"genre_scores_gemma":[0.998525,0.0001449002,0.00091666327,0.000027965125,0.000012638503,0.000018132614,0.000093676594,0.00001716863,0.00024383946],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99920046,0.000017803419,0.00035056053,0.00016656467,0.0001263361,0.00013828884],"domain_scores_gemma":[0.9995504,0.000041867257,0.000093235074,0.00023082558,0.0000442218,0.000039423732],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000060355065,0.000079335354,0.000219729,0.00015158905,0.000015510834,0.0000018553287,0.000068737805,0.00006128099,0.000060035247],"category_scores_gemma":[0.000066436914,0.000072038005,0.00007060827,0.000574181,0.00011356803,0.00003707597,0.00004631797,0.00015746585,0.000013232393],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000104253224,0.00057292904,0.79886466,0.00025640574,0.000039363007,0.000057209145,0.00028681094,0.00004085606,0.14279388,0.02268446,0.00037726693,0.03392191],"study_design_scores_gemma":[0.0006146273,0.00012930454,0.9818258,0.000085461266,0.00003992051,0.0000072058715,0.000034182325,0.004044985,0.005498679,0.0070476653,0.00059831096,0.000073834766],"about_ca_topic_score_codex":0.000029257137,"about_ca_topic_score_gemma":0.000009486455,"teacher_disagreement_score":0.18296117,"about_ca_system_score_codex":0.000015517202,"about_ca_system_score_gemma":0.000017617424,"threshold_uncertainty_score":0.29376245},"labels":[],"label_agreement":null},{"id":"W4323804505","doi":"10.1093/cercor/bhad034","title":"Enhanced neural mechanisms of set shifting in musically trained adolescents and young adults: converging fMRI, EEG, and behavioral evidence","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Jenny ja Antti Wihurin Rahasto; Academy of Finland","keywords":"Psychology; Neural correlates of consciousness; Set (abstract data type); P3b; Task (project management); Executive functions; Audiology; Electroencephalography; Scalp; Working memory; Cognitive psychology; Event-related potential; Developmental psychology; Neuroscience; Cognition; Medicine; Computer science","score_opus":0.03653947141521306,"score_gpt":0.2820188074676268,"score_spread":0.24547933605241373,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4323804505","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99873245,0.000013102336,0.00021251671,0.00016052042,0.0004271018,0.00032331332,0.000019720368,0.00009013701,0.000021132395],"genre_scores_gemma":[0.99953294,0.00003524042,0.00004324406,0.00025724253,0.000022196691,0.000012863332,0.000006655512,0.000021413063,0.00006819092],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99839205,0.000096909265,0.00033623807,0.00055551855,0.00026444835,0.00035482424],"domain_scores_gemma":[0.9994612,0.000112342495,0.00013837386,0.0001544081,0.000032143864,0.00010153609],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019170184,0.00018061488,0.00024230797,0.00015676662,0.00010630871,0.00005960896,0.0001492254,0.00007258427,0.000013522765],"category_scores_gemma":[0.0002736601,0.000173781,0.000042834286,0.0004933883,0.00011948129,0.00038053867,0.00017123624,0.00021779088,0.0000038556],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001612337,0.000031876745,0.013292589,0.00012465015,0.0000012230345,0.00004813231,0.0009498954,0.000010388982,0.9764235,0.00051035354,0.0000075046114,0.008438662],"study_design_scores_gemma":[0.0020004383,0.0006429505,0.7845563,0.0009898971,0.000025216123,0.000051862073,0.0008261623,0.14554986,0.06347808,0.0014193652,0.000001651757,0.0004581806],"about_ca_topic_score_codex":0.00011045559,"about_ca_topic_score_gemma":0.00016914085,"teacher_disagreement_score":0.9129454,"about_ca_system_score_codex":0.000024531257,"about_ca_system_score_gemma":0.000018649482,"threshold_uncertainty_score":0.7086583},"labels":[],"label_agreement":null},{"id":"W4327544653","doi":"10.1093/cercor/bhad057","title":"Mapping cross-species connectome atlas of human and macaque striatum","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Mental Health; Canadian Institutes of Health Research; National Institutes of Health; Biotechnology and Biological Sciences Research Council; Fundo para o Desenvolvimento das Ciências e da Tecnologia; Universidade de Macau; Wellcome Trust; Fondation Brain Canada; Alzheimer's Disease Neuroimaging Initiative","keywords":"Striatum; Macaque; Connectome; Neuroscience; Human Connectome Project; Resting state fMRI; Biology; Human brain; Psychology; Functional connectivity","score_opus":0.0693436977204548,"score_gpt":0.3044093045262776,"score_spread":0.23506560680582284,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4327544653","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9921225,0.000028249591,0.000011203468,0.00095975056,0.0004353656,0.00018515029,0.000059803846,0.00020965238,0.005988357],"genre_scores_gemma":[0.9936197,0.000023513529,0.000011154869,0.00043572686,0.00012909337,0.000014584841,0.000006298972,0.00001961072,0.0057403175],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985873,0.00006624756,0.0002572317,0.0004941515,0.00028639557,0.00030868952],"domain_scores_gemma":[0.99769217,0.0018375223,0.00011935099,0.00022675998,0.000060537594,0.00006366107],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015408409,0.00015978159,0.00026552702,0.00019992467,0.00036819675,0.00006808043,0.0001788202,0.0000630044,0.00015724871],"category_scores_gemma":[0.0026930526,0.00015363254,0.000072329574,0.0006450548,0.00043483108,0.00019758032,0.0003023651,0.000161293,0.00009761115],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000030934996,0.00003061355,0.106853515,0.00009716018,0.000022682687,0.000027039061,0.0006083038,0.000011337173,0.85460776,0.02927575,0.00816974,0.00026517254],"study_design_scores_gemma":[0.0007099994,0.0001646027,0.88579273,0.00003448126,0.000005766141,0.000015019299,0.00042045699,0.0002307363,0.10217814,0.0053367233,0.0048764404,0.00023489568],"about_ca_topic_score_codex":0.000037483573,"about_ca_topic_score_gemma":0.0000362865,"teacher_disagreement_score":0.77893925,"about_ca_system_score_codex":0.000033267206,"about_ca_system_score_gemma":0.000026670978,"threshold_uncertainty_score":0.6264953},"labels":[],"label_agreement":null},{"id":"W4328050389","doi":"10.1093/cercor/bhad080","title":"Elucidating medial temporal and frontal lobe contributions to approach-avoidance conflict decision-making using functional MRI and the hierarchical drift diffusion model","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Canadian Institutes of Health Research; Government of Canada","keywords":"Perirhinal cortex; Psychology; Prefrontal cortex; Temporal lobe; Neuroscience; Cognitive psychology; Dorsolateral prefrontal cortex; Ventromedial prefrontal cortex; Anterior cingulate cortex; Frontal lobe; Functional magnetic resonance imaging; Cognition","score_opus":0.06394616021433401,"score_gpt":0.3236749155022352,"score_spread":0.2597287552879012,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4328050389","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.8197609,0.000023156912,0.17848986,0.00048449505,0.0003902418,0.00048593938,0.00009052511,0.000104102466,0.00017073337],"genre_scores_gemma":[0.99545014,0.00001568802,0.0030061875,0.0011084558,0.00023383362,0.000033399538,0.000013697433,0.000022802391,0.00011581815],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9978332,0.00025046925,0.00034049287,0.00067640975,0.0004702591,0.00042916284],"domain_scores_gemma":[0.9983628,0.0010304834,0.0001089575,0.00023676784,0.00004309146,0.00021793038],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005822748,0.0002245876,0.00029445149,0.000117857555,0.00109654,0.00015188286,0.00020836126,0.00010519991,0.000032726206],"category_scores_gemma":[0.0013540899,0.0001595375,0.00007185173,0.0003778474,0.00033640818,0.00024950362,0.0004622624,0.00040272414,0.000017319808],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0012507262,0.00007087897,0.00074431044,0.000027422282,0.000010835686,0.00004609327,0.0013744187,0.0034373081,0.9413934,0.045415547,0.000412468,0.0058166347],"study_design_scores_gemma":[0.0019444287,0.00007891555,0.0033073348,0.00007546381,0.000024641633,0.00015955354,0.00017000883,0.95456636,0.022762094,0.016576318,0.000056459005,0.00027842054],"about_ca_topic_score_codex":0.000008403933,"about_ca_topic_score_gemma":0.000011475177,"teacher_disagreement_score":0.9511291,"about_ca_system_score_codex":0.00003736299,"about_ca_system_score_gemma":0.00006336243,"threshold_uncertainty_score":0.843381},"labels":[],"label_agreement":null},{"id":"W4360602744","doi":"10.1093/cercor/bhad094","title":"Daily artificial gravity is associated with greater neural efficiency during sensorimotor adaptation","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spaceflight effects on biology","field":"Medicine","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; National Institutes of Health; National Institute on Aging; Nuclear Safety and Security Commission; University of Florida; National Aeronautics and Space Administration","keywords":"Somatosensory system; Vestibular system; Cuneus; Neuroscience; Psychology; Adaptation (eye); Sensory stimulation therapy; Sensory system; Physical medicine and rehabilitation; Audiology; Medicine; Cognition; Precuneus","score_opus":0.02751750665560245,"score_gpt":0.26207614880737873,"score_spread":0.23455864215177627,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4360602744","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9973834,0.000009261884,0.00002927213,0.0008638678,0.00035533658,0.00051329675,0.000024595493,0.00046667788,0.00035428244],"genre_scores_gemma":[0.9972994,0.0000015884846,0.00004332548,0.0003360536,0.00021510222,0.00002303888,0.00013366621,0.000041084953,0.001906796],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983903,0.00009593159,0.00023842421,0.00046070738,0.0003074623,0.00050714775],"domain_scores_gemma":[0.9992282,0.00007558114,0.0001169581,0.00029183776,0.00013223241,0.00015520609],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016664366,0.00022500927,0.00036134638,0.0001977138,0.00015787188,0.000026802705,0.00008146607,0.0001669986,0.00018044656],"category_scores_gemma":[0.00017140256,0.00016941424,0.00009349924,0.0006773925,0.000114080496,0.00007899969,0.000041918476,0.00024864578,0.00040414426],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0024189267,0.0003026037,0.6494291,0.0001436211,0.00035112986,0.001736565,0.0033790446,0.00009721193,0.33709043,0.00011370979,0.0021529363,0.0027847695],"study_design_scores_gemma":[0.0016358834,0.00081902154,0.969568,0.000054157816,0.000105315856,0.000102155056,0.00022544498,0.011161433,0.01603164,0.000031304116,0.000037286827,0.00022834276],"about_ca_topic_score_codex":0.000057030673,"about_ca_topic_score_gemma":0.000058496487,"teacher_disagreement_score":0.32105878,"about_ca_system_score_codex":0.000114238996,"about_ca_system_score_gemma":0.000059861268,"threshold_uncertainty_score":0.6908512},"labels":[],"label_agreement":null},{"id":"W4361302108","doi":"10.1093/cercor/bhad092","title":"Generalization of cognitive maps across space and time","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; National Institutes of Health","keywords":"Ventromedial prefrontal cortex; Psychology; Cognitive map; Cognitive psychology; Cognition; Generalization; Hippocampus; Prefrontal cortex; Sequence learning; Neuroscience; Artificial intelligence; Computer science; Mathematics","score_opus":0.06102444531886946,"score_gpt":0.3189250469368194,"score_spread":0.2579006016179499,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4361302108","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99799246,0.000008292453,0.000075085816,0.00012390937,0.0001683873,0.00016161361,0.00008839987,0.00010119645,0.001280659],"genre_scores_gemma":[0.9938803,0.000025015504,0.000017160612,0.0003178832,0.00003827679,0.000005771535,0.000018925697,0.000012802814,0.0056839185],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9991972,0.00007241554,0.00012180047,0.00026632656,0.00014259333,0.00019970734],"domain_scores_gemma":[0.9996237,0.00012357783,0.00006814463,0.00009787353,0.000025062156,0.0000616375],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009348055,0.00008816432,0.00012150939,0.000040759387,0.000110821726,0.000021732663,0.00008098532,0.000044968052,0.00014111522],"category_scores_gemma":[0.0002891921,0.000080221405,0.000026749627,0.00035194072,0.000087157074,0.00012744417,0.0000926138,0.00005942225,0.00032976232],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000030295805,0.000011069138,0.00023725208,0.000016556109,0.0000015625653,0.000016877186,0.000377532,0.0000029275704,0.99374324,0.003953992,0.0004726029,0.0011361124],"study_design_scores_gemma":[0.00032731678,0.00011776336,0.0036923725,0.00002733957,0.000006066433,0.000016766053,0.00008889858,0.0017432984,0.9905418,0.0032642968,0.000073368785,0.00010067433],"about_ca_topic_score_codex":0.0000019329145,"about_ca_topic_score_gemma":0.0000012671392,"teacher_disagreement_score":0.004403259,"about_ca_system_score_codex":0.000004301022,"about_ca_system_score_gemma":0.000009080913,"threshold_uncertainty_score":0.42385375},"labels":[],"label_agreement":null},{"id":"W4362507403","doi":"10.1093/cercor/bhad087","title":"The human language system, including its inferior frontal component in “Broca’s area,” does not support music perception","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":62,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Carleton University","funders":"National Institute of Neurological Disorders and Stroke; National Institute on Deafness and Other Communication Disorders; McGovern Institute for Brain Research, Massachusetts Institute of Technology; Alzheimer's Society; Stroke Association; Life Sciences Research Foundation; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Howard Hughes Medical Institute; National Institutes of Health; National Science Foundation","keywords":"Grammaticality; Melody; Psychology; Syntax; Sentence; Cognitive psychology; Aphasia; Perception; Musical form; Linguistics; Musical; Grammar; Neuroscience","score_opus":0.0712052663838371,"score_gpt":0.31087397947175416,"score_spread":0.23966871308791704,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4362507403","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99596494,0.0000026433543,0.000007570042,0.0002574867,0.001350428,0.0004554773,0.000033097604,0.00035531915,0.0015730273],"genre_scores_gemma":[0.9970685,0.000024417126,0.0000028747927,0.00086552213,0.00019309478,0.00006480064,0.000024831845,0.00002642888,0.0017294813],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9977068,0.00016260009,0.0003971048,0.00062573503,0.00052354136,0.0005842666],"domain_scores_gemma":[0.99927944,0.00009883254,0.00012626473,0.00036406363,0.000020510117,0.00011090641],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00040571377,0.00021576426,0.00021891292,0.00017798414,0.0008389342,0.00019788563,0.00047792122,0.00007855942,0.00021060073],"category_scores_gemma":[0.00013529006,0.00014470362,0.000095142444,0.00054048083,0.00017487141,0.00044812722,0.00030635475,0.00028554263,0.00067820307],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000015791416,0.000027014023,0.0016633148,0.000027281098,7.6688025e-7,0.00008908747,0.0021716426,0.0000069517114,0.9937095,0.00034249158,0.0007600249,0.0011861103],"study_design_scores_gemma":[0.0008139178,0.00016616282,0.941739,0.000113474474,0.000013463269,0.00008164595,0.008977688,0.0051741186,0.04127367,0.000049824666,0.0011585861,0.00043842391],"about_ca_topic_score_codex":0.00019310326,"about_ca_topic_score_gemma":0.0007347068,"teacher_disagreement_score":0.95243585,"about_ca_system_score_codex":0.0002283078,"about_ca_system_score_gemma":0.000050629067,"threshold_uncertainty_score":0.8717155},"labels":[],"label_agreement":null},{"id":"W4367318555","doi":"10.1093/cercor/bhad142","title":"Multi-scale systems genomics analysis predicts pathways, cell types, and drug targets involved in normative variation in peri-adolescent human cognition","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic Associations and Epidemiology","field":"Biochemistry, Genetics and Molecular Biology","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Lunenfeld-Tanenbaum Research Institute; Mount Sinai Hospital; Hospital for Sick Children; University of Toronto; Ontario Institute for Cancer Research","funders":"National Institute of General Medical Sciences; National Cancer Institute; National Institutes of Health; National Human Genome Research Institute; University of Toronto; Canadian Institutes of Health Research; European Commission; Government of Ontario","keywords":"Cognition; Biology; Human brain; Genome-wide association study; Schizophrenia (object-oriented programming); Psychology; Neuroscience; Genetics; Genotype; Single-nucleotide polymorphism; Gene; Psychiatry","score_opus":0.01721950610996549,"score_gpt":0.2402928652292097,"score_spread":0.2230733591192442,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4367318555","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99803394,0.00041967325,0.0009215994,0.000041644507,0.000091747264,0.00028633772,0.00009473881,0.0000132684145,0.000097047894],"genre_scores_gemma":[0.9974677,0.00022888124,0.00036233186,0.00007035694,0.000055842564,0.000040474068,0.0015836612,0.000012317806,0.0001784517],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9988244,0.00020305045,0.00034880283,0.00031979443,0.00006420786,0.00023974181],"domain_scores_gemma":[0.99956554,0.000016632557,0.00015091781,0.00014760817,0.00006138952,0.00005789023],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004133406,0.000126344,0.00024076455,0.00018245453,0.00006856855,0.00001815184,0.00007653884,0.00016356593,0.0000050943327],"category_scores_gemma":[0.000043322965,0.00013217429,0.00005301328,0.00033019556,0.000031966338,0.0000062002405,0.00008027743,0.00010430315,0.000010698736],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000022144832,0.00013460538,0.7612633,0.000060176273,0.000103645616,0.00000329527,0.0013734315,0.0042410167,0.23209675,0.0000098886085,0.0006012016,0.00009053969],"study_design_scores_gemma":[0.0007630883,0.000048383965,0.953795,0.0000112171065,0.00006555954,4.1856816e-7,0.00074903644,0.04348955,0.00079385453,0.000044066124,0.00009667511,0.00014313398],"about_ca_topic_score_codex":0.00034763254,"about_ca_topic_score_gemma":0.002339704,"teacher_disagreement_score":0.23130289,"about_ca_system_score_codex":0.000059867823,"about_ca_system_score_gemma":0.000039635383,"threshold_uncertainty_score":0.53899115},"labels":[],"label_agreement":null},{"id":"W4367669706","doi":"10.1093/cercor/bhad137","title":"Altered structural covariance of locus coeruleus in individuals with significant memory concern and patients with mild cognitive impairment","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; National Institutes of Health; Genentech; IXICO; H. Lundbeck A/S; Servier; Eisai; Northern California Institute for Research and Education; Pfizer; Novartis Pharmaceuticals Corporation; University of Southern California; Biogen; Eli Lilly and Company; Bristol-Myers Squibb; BioClinica; U.S. Department of Defense; Alzheimer's Disease Neuroimaging Initiative; Meso Scale Diagnostics; National Institute on Aging; Natural Science Foundation of Guangdong Province; Alzheimer's Association","keywords":"Locus coeruleus; Default mode network; Biomarker; Audiology; Neuroscience; Cognitive impairment; Psychology; Cognition; Voxel-based morphometry; Disease; Internal medicine; Medicine; Magnetic resonance imaging; Biology; Central nervous system; White matter; Genetics","score_opus":0.022817034529164924,"score_gpt":0.2896652063330507,"score_spread":0.26684817180388576,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4367669706","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99742615,0.0003713853,0.0000027687715,0.00006785171,0.00002660564,0.0014323951,0.0004708685,0.00003780904,0.00016416724],"genre_scores_gemma":[0.9991926,0.000021668802,0.00009371984,0.000066128065,0.000023899474,0.000065983266,0.00047240683,0.000027630367,0.000035972385],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99832463,0.00006241653,0.00023712454,0.00037348244,0.000588947,0.00041337596],"domain_scores_gemma":[0.9991144,0.000081339196,0.00012184481,0.0001796967,0.00019923321,0.00030349073],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008375705,0.00021359632,0.00039710774,0.00015056589,0.000057404344,0.000017231403,0.00006416306,0.00005560449,0.00012297854],"category_scores_gemma":[0.00002146155,0.00014037194,0.000032878448,0.00038225634,0.00032611898,0.00011024705,0.000059802518,0.00016430931,0.000018991275],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0022452346,0.00022223823,0.99375516,0.00010520902,0.0018878684,0.00016645293,0.00037823294,0.0000036755828,0.000014945726,0.000013473042,0.00010335799,0.001104139],"study_design_scores_gemma":[0.015907321,0.002466795,0.97953504,0.00037780753,0.00031011246,0.000008198369,0.000628144,0.000096221775,0.0004592626,0.000051770887,0.0000016925725,0.00015760763],"about_ca_topic_score_codex":0.00026520155,"about_ca_topic_score_gemma":0.000053710588,"teacher_disagreement_score":0.014220106,"about_ca_system_score_codex":0.00005470697,"about_ca_system_score_gemma":0.00027089452,"threshold_uncertainty_score":0.5724202},"labels":[],"label_agreement":null},{"id":"W4372319248","doi":"10.1093/cercor/bhad154","title":"Inter-individual variability during neurodevelopment: an investigation of linear and nonlinear resting-state EEG features in an age-homogenous group of infants","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; HEC Montréal; Université de Montréal; Centre Hospitalier Universitaire Sainte-Justine","funders":"Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; Canadian Institute for Advanced Research; Kids Brain Health Network; National Science Foundation","keywords":"Electroencephalography; Resting state fMRI; Population; Fractal dimension; Psychology; Approximate entropy; Pattern recognition (psychology); Audiology; Neuroscience; Mathematics; Cognitive psychology; Medicine; Fractal","score_opus":0.0295535690645109,"score_gpt":0.2614817222624753,"score_spread":0.2319281531979644,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4372319248","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9993247,0.0000023822772,0.000009748547,0.000037010854,0.00019042501,0.00026241012,0.00006930411,0.00008099637,0.000023061855],"genre_scores_gemma":[0.9992635,0.000010795961,0.0004624134,0.00009248197,0.000025143781,0.000006007298,0.000076878685,0.000021796755,0.000040960556],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99826294,0.00027263575,0.0004346251,0.00051771855,0.00025802388,0.00025404763],"domain_scores_gemma":[0.9992247,0.00014905681,0.00019809326,0.00027136056,0.00004689411,0.000109859575],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000470162,0.00015812497,0.00023046524,0.00023178078,0.00010467133,0.000037081576,0.00021652343,0.00006818881,0.0000054248662],"category_scores_gemma":[0.00043829324,0.00015215267,0.000028437134,0.00065913016,0.00018057702,0.00039314074,0.00018630248,0.00022986601,0.0000015615472],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013267183,0.000075700715,0.20242916,0.00012672704,0.0000033804283,0.000043086235,0.0024852476,0.00020300233,0.79061157,0.000105876454,0.0000028468316,0.003780721],"study_design_scores_gemma":[0.000425965,0.00032790654,0.9397966,0.00004646343,0.0000059574504,0.000014459841,0.00005886968,0.013691836,0.044429056,0.0010605184,0.0000019135011,0.00014040637],"about_ca_topic_score_codex":0.00013455693,"about_ca_topic_score_gemma":0.00040717368,"teacher_disagreement_score":0.7461825,"about_ca_system_score_codex":0.000020576728,"about_ca_system_score_gemma":0.000040062034,"threshold_uncertainty_score":0.62046057},"labels":[],"label_agreement":null},{"id":"W4376224771","doi":"10.1093/cercor/bhad130","title":"Face recognition ability can be predicted by microstructural properties of white matter: a study of diffusion tensor imaging (DTI)","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Hamilton Health Sciences","funders":"Natural Science Foundation of Zhejiang Province; Natural Sciences and Engineering Research Council of Canada; National Natural Science Foundation of China","keywords":"Fractional anisotropy; Corpus callosum; Inferior longitudinal fasciculus; Diffusion MRI; White matter; Lateralization of brain function; Psychology; Arcuate fasciculus; Fasciculus; Correlation; Tractography; Audiology; Neuroscience; Medicine; Mathematics; Magnetic resonance imaging; Geometry","score_opus":0.051613508482347005,"score_gpt":0.30152868559539225,"score_spread":0.24991517711304526,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4376224771","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99649245,0.000016703076,0.00009196989,0.0015005253,0.000032179567,0.0011792327,0.0003959058,0.00024389042,0.00004714305],"genre_scores_gemma":[0.99886775,0.0000100545685,0.00034622537,0.00017588871,0.000016012458,0.000070340306,0.00024164804,0.00002628867,0.00024578616],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99892074,0.000035421956,0.0003653793,0.00031205852,0.00018753092,0.00017888614],"domain_scores_gemma":[0.9992232,0.000015077348,0.00016554366,0.00036986778,0.00016593268,0.00006040518],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000059491787,0.00013787345,0.00027513527,0.00008711021,0.000098057084,0.000006253258,0.00010029629,0.00003098083,0.00005258569],"category_scores_gemma":[0.000040611714,0.00011094686,0.000054857243,0.00033202273,0.00013269403,0.00006465008,0.00013156388,0.0001475266,0.0000020090508],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009057629,0.00019934836,0.5445261,0.00013292892,0.000010983983,0.0000018427413,0.001000706,0.0000012259359,0.45065027,4.8518064e-7,0.0018272256,0.00155834],"study_design_scores_gemma":[0.0011079101,0.00027006536,0.94190454,0.00013724713,0.000080622296,0.000023111637,0.0016968645,0.0008676186,0.053533174,0.00014184167,0.00010710699,0.00012987676],"about_ca_topic_score_codex":0.00017957651,"about_ca_topic_score_gemma":0.0000101784,"teacher_disagreement_score":0.39737847,"about_ca_system_score_codex":0.000032191147,"about_ca_system_score_gemma":0.000022048873,"threshold_uncertainty_score":0.45242816},"labels":[],"label_agreement":null},{"id":"W4376867494","doi":"10.1093/cercor/bhad168","title":"Dual-stream cortical pathways mediate sensory prediction","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Project 211; National Natural Science Foundation of China; Natural Science Foundation of Shanghai","keywords":"Sensory system; Neuroscience; Dual (grammatical number); Psychology","score_opus":0.04258331939559919,"score_gpt":0.25083182438299706,"score_spread":0.2082485049873979,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4376867494","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99198806,0.000004084377,0.000052595657,0.0004431735,0.002030659,0.00020697479,0.00015900253,0.0008119475,0.0043035294],"genre_scores_gemma":[0.9955679,0.000051297815,0.000011204292,0.0006776829,0.00034977717,0.000019177958,0.00006756387,0.000030044872,0.0032253284],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983123,0.000111847454,0.00026282197,0.00051450153,0.00038098564,0.00041756593],"domain_scores_gemma":[0.9992281,0.00023394046,0.000071403214,0.00026796322,0.00003131583,0.00016726709],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00014727589,0.00016457746,0.00015454525,0.00012446729,0.00025312087,0.00006318235,0.00011653932,0.00010112472,0.00019012035],"category_scores_gemma":[0.0004505365,0.00014507955,0.000091904156,0.0005381385,0.00011346295,0.00019949111,0.00009904793,0.00028519105,0.001477801],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004363879,0.000053031978,0.0028422899,0.000017412485,0.0000047923245,0.00018528226,0.000092526745,0.00006237145,0.97969854,0.0059218435,0.005390629,0.00568762],"study_design_scores_gemma":[0.0017607256,0.000909291,0.5933174,0.000049228107,0.0000645933,0.00030804586,0.00023350975,0.24361087,0.13885413,0.0108366795,0.0092245275,0.0008310034],"about_ca_topic_score_codex":0.0000066690172,"about_ca_topic_score_gemma":0.000006607176,"teacher_disagreement_score":0.84084445,"about_ca_system_score_codex":0.000041069325,"about_ca_system_score_gemma":0.00003412435,"threshold_uncertainty_score":0.99929965},"labels":[],"label_agreement":null},{"id":"W4378951974","doi":"10.1093/cercor/bhad190","title":"Default mode network functional connectivity strength in utero and the association with fetal subcortical development","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Children’s Health Foundation; Canadian Institutes of Health Research; Children's Health Foundation; Canada First Research Excellence Fund; Child Health Foundation","keywords":"Default mode network; Functional magnetic resonance imaging; Neuroscience; Temporal lobe; Resting state fMRI; Psychology","score_opus":0.025000971840566863,"score_gpt":0.24275651211295296,"score_spread":0.21775554027238608,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4378951974","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99446905,0.000021084245,0.00039050044,0.0033480327,0.00040423585,0.00031136835,0.000008439613,0.0001426336,0.0009046725],"genre_scores_gemma":[0.99790245,0.000010849267,0.00007457195,0.0011321892,0.00014884764,0.000101025784,0.000008968758,0.000016438275,0.0006046712],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9980742,0.00024535353,0.00021876338,0.00051176467,0.0005227229,0.00042722176],"domain_scores_gemma":[0.9935241,0.0061190017,0.000100435405,0.0001455948,0.00005149958,0.000059408183],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005873128,0.00017643005,0.00024080575,0.000071769624,0.0004382106,0.00007043038,0.000098792094,0.00007119698,0.000027263628],"category_scores_gemma":[0.003053746,0.000121480356,0.00004037163,0.00064703036,0.00019199066,0.00019920133,0.00016782027,0.00029994803,0.000066440065],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018140542,0.0001700773,0.9415487,0.00003052648,0.000121463825,0.000080841906,0.0009046542,0.0048216414,0.000947737,0.03385498,0.010009092,0.005696212],"study_design_scores_gemma":[0.0023397882,0.00006662725,0.9762385,0.000017335185,0.000015169524,0.000023699416,0.00010268123,0.016865462,0.00074754586,0.002297131,0.0010831353,0.0002029085],"about_ca_topic_score_codex":0.00005792732,"about_ca_topic_score_gemma":0.0013782071,"teacher_disagreement_score":0.0346898,"about_ca_system_score_codex":0.00021715954,"about_ca_system_score_gemma":0.00010781264,"threshold_uncertainty_score":0.49538252},"labels":[],"label_agreement":null},{"id":"W4380606483","doi":"10.1093/cercor/bhad195","title":"Different levels of visuospatial abilities linked to differential brain correlates underlying visual mental segmentation processes in autism","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Centre Intégré Universitaire de Santé et de Services Sociaux du Centre-Sud-de-l'Île-de-Montréal; Université du Québec à Montréal","funders":"Canadian Institutes of Health Research; Brain and Behavior Research Foundation","keywords":"Psychology; Autism; Cognitive psychology; Neuroscience; Visual perception; Audiology; Developmental psychology; Perception; Medicine","score_opus":0.06281683716253915,"score_gpt":0.35341471758373016,"score_spread":0.290597880421191,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4380606483","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9949699,0.000011690291,0.0005266462,0.0025408992,0.00040818023,0.001108824,0.00009270531,0.00020308392,0.00013805767],"genre_scores_gemma":[0.99902177,0.000015831005,0.000016650549,0.00011909545,0.00002747293,0.00011516958,0.000041442003,0.000048390004,0.0005941927],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99707466,0.00022916423,0.00055363576,0.0006762866,0.0007845338,0.0006816986],"domain_scores_gemma":[0.99891186,0.0005683422,0.0001351652,0.00021570089,0.000017501376,0.0001514563],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00014057315,0.00027863198,0.00037433748,0.0005164612,0.00018895195,0.00010359534,0.00038443645,0.00010971419,0.00064668944],"category_scores_gemma":[0.00048891857,0.00026831627,0.00007989714,0.0012259195,0.000193571,0.0003020996,0.00037027829,0.00029646335,0.00013569025],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00025637398,0.00045686183,0.04747926,0.0003838508,0.000017803033,0.000023525417,0.0103007415,0.00010043827,0.9274031,0.005621525,0.000120316115,0.007836213],"study_design_scores_gemma":[0.0014829125,0.0006114305,0.85781056,0.00012748849,0.000008440212,0.0000050256604,0.0010031414,0.008544174,0.12363483,0.0064138393,0.000006876296,0.000351309],"about_ca_topic_score_codex":0.00016702815,"about_ca_topic_score_gemma":0.00077006075,"teacher_disagreement_score":0.8103313,"about_ca_system_score_codex":0.00019157073,"about_ca_system_score_gemma":0.00015356459,"threshold_uncertainty_score":0.99997693},"labels":[],"label_agreement":null},{"id":"W4382501137","doi":"10.1093/cercor/bhad230","title":"Cognitive reserve disorder in age-related hearing loss: cognitive cortical compensatory to auditory perceptual processing","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Basic and Applied Basic Research Foundation of Guangdong Province; Guangzhou Municipal Science and Technology Project; China Postdoctoral Science Foundation; National Natural Science Foundation of China; Guangdong Provincial Key Laboratory of Sensor Technology and Biomedical Instrument","keywords":"Audiology; Montreal Cognitive Assessment; Psychology; Cognitive decline; Cognition; Inferior temporal gyrus; Cognitive reserve; Middle temporal gyrus; Superior temporal gyrus; Neuroscience; Medicine; Functional magnetic resonance imaging; Temporal lobe; Internal medicine; Cognitive impairment; Epilepsy; Dementia","score_opus":0.05222068911999477,"score_gpt":0.32708246790630024,"score_spread":0.27486177878630547,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4382501137","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.996393,0.000022542106,0.00006460788,0.00054484647,0.00039872172,0.0006777138,0.000019706884,0.00029284443,0.0015859655],"genre_scores_gemma":[0.99841005,0.000005567231,0.000024292862,0.0005134773,0.00010775517,0.00007649317,0.000020942905,0.00004865423,0.00079278223],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9973106,0.00037272729,0.00046408272,0.00077214517,0.00045293936,0.0006275005],"domain_scores_gemma":[0.99839437,0.001032038,0.00007107372,0.00014746761,0.000117934986,0.00023713363],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00041139493,0.00022654525,0.00030551513,0.00032374696,0.00036298888,0.00009689005,0.00017837332,0.00015584733,0.00017892967],"category_scores_gemma":[0.0031048695,0.0002180102,0.00008442338,0.0012206583,0.0005443691,0.00029859584,0.00021245742,0.0006356726,0.0010984832],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0011814004,0.0012995708,0.5293731,0.00064929423,0.00004985145,0.00201168,0.06478963,0.000702451,0.32723436,0.0010582558,0.0015951642,0.07005524],"study_design_scores_gemma":[0.001089148,0.00025436745,0.98771036,0.00051134743,0.0000139488875,0.000011540276,0.0048933136,0.0042878613,0.0005562403,0.0002794614,0.000071558185,0.00032085084],"about_ca_topic_score_codex":0.00047860024,"about_ca_topic_score_gemma":0.00038282058,"teacher_disagreement_score":0.45833725,"about_ca_system_score_codex":0.0001378498,"about_ca_system_score_gemma":0.00022496679,"threshold_uncertainty_score":0.99967927},"labels":[],"label_agreement":null},{"id":"W4382631719","doi":"10.1093/cercor/bhad226","title":"The importance of the dorsal branch of the arcuate fasciculus in phonological working memory","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Reading and Literacy Development","field":"Psychology","cited_by":17,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke; McGill University; Centre for Research on Brain Language and Music; University of Ottawa; Montreal Neurological Institute and Hospital","funders":"Fonds de recherche du Québec – Nature et technologies; Natural Sciences and Engineering Research Council of Canada; Fonds de Recherche du Québec-Société et Culture; Centre for Research on Brain, Language and Music","keywords":"Fasciculus; Arcuate fasciculus; Dorsum; Neuroscience; Psychology; Anatomy; Cognitive psychology; Biology; White matter; Medicine; Magnetic resonance imaging; Tractography","score_opus":0.027138597023308515,"score_gpt":0.28687500941299454,"score_spread":0.25973641238968603,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4382631719","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9849662,0.00028429498,0.0000026252485,0.0012638909,0.0015602183,0.00024157998,0.0000033340884,0.000030123627,0.011647685],"genre_scores_gemma":[0.9935213,0.0000127466865,0.000008685679,0.00022288003,0.000046640645,0.000028125733,0.0000018290227,0.000011385518,0.006146432],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9985298,0.00022749271,0.0004486443,0.00023680518,0.0002250125,0.00033226758],"domain_scores_gemma":[0.9988697,0.00025377,0.00023288159,0.0005933201,0.000028678258,0.000021634523],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00060151616,0.00011860066,0.00019401504,0.000040651612,0.00013634264,0.000015234354,0.00067029754,0.00008788829,0.00015383959],"category_scores_gemma":[0.00009797779,0.000052940333,0.00012873011,0.0007317449,0.0002551347,0.00002292254,0.00020678424,0.00031365946,0.000056684956],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007652679,0.000053573112,0.95235866,0.000013861481,0.00006020937,0.000008955695,0.0059882305,0.00002720167,0.001252679,0.00413902,0.004717561,0.03130352],"study_design_scores_gemma":[0.00032379347,0.000015445858,0.992599,0.000064549466,0.0000065650374,0.000007825246,0.0006477175,0.00005345752,0.00069459976,0.002149357,0.0033628596,0.00007480117],"about_ca_topic_score_codex":0.00008206148,"about_ca_topic_score_gemma":0.00014792843,"teacher_disagreement_score":0.04024037,"about_ca_system_score_codex":0.00003206833,"about_ca_system_score_gemma":0.00004885026,"threshold_uncertainty_score":0.21588442},"labels":[],"label_agreement":null},{"id":"W4383483546","doi":"10.1093/cercor/bhad246","title":"Evaluation of the default mode network using nonnegative matrix factorization in patients with cognitive impairment induced by occupational aluminum exposure","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Aluminum toxicity and tolerance in plants and animals","field":"Agricultural and Biological Sciences","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Shanxi Medical University; National Natural Science Foundation of China","keywords":"Default mode network; Montreal Cognitive Assessment; Audiology; Psychology; Cognition; Verbal learning; Cognitive impairment; Internal medicine; Clinical psychology; Neuroscience; Medicine","score_opus":0.03557746399922465,"score_gpt":0.2767430537767876,"score_spread":0.24116558977756294,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4383483546","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99893975,0.000014074315,0.000009634567,0.000033524277,0.000097620476,0.0005269681,0.0003143603,0.000014953988,0.00004910532],"genre_scores_gemma":[0.99945277,0.000001677724,0.00000868033,0.000034972592,0.00007584665,0.000015555832,0.0003926989,0.000001312176,0.000016477989],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9986378,0.0001556215,0.00020803965,0.00019429582,0.00061052054,0.00019375174],"domain_scores_gemma":[0.9994102,0.00007344727,0.00017997365,0.000031447784,0.00027467468,0.000030268338],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00028997916,0.000111319176,0.0001336527,0.000011374864,0.0001679303,0.000021227828,0.00010034539,0.000076722514,0.00010466753],"category_scores_gemma":[0.000040510215,0.00004165935,0.000039322935,0.0005611528,0.000039672934,0.00015460048,0.000035853467,0.00008800673,0.000003884811],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00020090229,0.00015407977,0.98186046,0.0000049572727,0.000031480453,2.2952051e-7,0.00028347963,0.0017653111,0.008147425,0.000023783268,0.00014267449,0.007385216],"study_design_scores_gemma":[0.00062377914,0.00025212084,0.98788327,0.0000906872,0.0000323323,1.4967384e-7,0.0002596663,0.009931774,0.0005554769,0.00025575087,0.0000061672054,0.000108853324],"about_ca_topic_score_codex":0.00025494784,"about_ca_topic_score_gemma":0.0005328072,"teacher_disagreement_score":0.008166463,"about_ca_system_score_codex":0.00005225449,"about_ca_system_score_gemma":0.000038325554,"threshold_uncertainty_score":0.1698819},"labels":[],"label_agreement":null},{"id":"W4383740491","doi":"10.1093/cercor/bhad244","title":"Insula-cingulate structural and functional connectivity: an ultra-high field MRI study","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Lunenfeld-Tanenbaum Research Institute; Mount Sinai Hospital; University Health Network; Discovery Centre; University of Toronto","funders":"National Institute of Mental Health; McDonnell Center for Systems Neuroscience; National Institutes of Health; University of Toronto; Natural Sciences and Engineering Research Council of Canada; NIH Blueprint for Neuroscience Research; Canada Research Chairs","keywords":"Insula; Functional magnetic resonance imaging; Cingulate cortex; Posterior cingulate; Neuroscience; Anterior cingulate cortex; Insular cortex; Diffusion MRI; Psychology; Salience (neuroscience); Default mode network; Cognition; Magnetic resonance imaging; Medicine","score_opus":0.037359315233376905,"score_gpt":0.27649317214922503,"score_spread":0.23913385691584813,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4383740491","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99470186,0.00001138111,0.00004560215,0.0020627931,0.0014473604,0.00047454532,0.000034437562,0.00046883686,0.000753209],"genre_scores_gemma":[0.99669844,0.0000059831286,0.000014286518,0.002164473,0.00030584747,0.000041407744,0.00001062864,0.000031389824,0.00072754244],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99772775,0.00021685642,0.00022848259,0.000954848,0.00045902625,0.00041306284],"domain_scores_gemma":[0.99638367,0.002963344,0.0000840506,0.00035985903,0.00006874172,0.0001403196],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002546461,0.00026679607,0.00029268768,0.0001916867,0.0006922533,0.00012475897,0.00015495665,0.00007827904,0.00021947677],"category_scores_gemma":[0.0029656044,0.00024548935,0.000058347796,0.0006307935,0.00014819618,0.00052179437,0.00013808158,0.00029816013,0.00010862745],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009858764,0.0005328197,0.63034886,0.000084552536,0.00021069494,0.0003679039,0.003917164,0.0008246756,0.31348428,0.0247803,0.012147068,0.012315826],"study_design_scores_gemma":[0.0011726469,0.0010755496,0.97212887,0.0000075885005,0.000026598409,0.00006635077,0.0008568827,0.0013638998,0.015302254,0.0072898897,0.000354065,0.00035543658],"about_ca_topic_score_codex":0.00024282467,"about_ca_topic_score_gemma":0.00036614048,"teacher_disagreement_score":0.34177998,"about_ca_system_score_codex":0.000045517078,"about_ca_system_score_gemma":0.000044523797,"threshold_uncertainty_score":0.99999976},"labels":[],"label_agreement":null},{"id":"W4384661217","doi":"10.1093/cercor/bhad256","title":"An imbalance of excitation and inhibition in the multisensory cortex impairs the temporal acuity of audiovisual processing and perception","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Multisensory perception and integration","field":"Psychology","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Multisensory integration; Neuroscience; Psychology; Perception; Percept; Sensory system; Auditory cortex; Crossmodal; Autism; Cognitive psychology; Visual perception; Developmental psychology","score_opus":0.044664548984183976,"score_gpt":0.3626572185082724,"score_spread":0.31799266952408844,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4384661217","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9986387,0.00003504672,0.00016835095,0.00020055687,0.00008847317,0.0003825221,0.00002121736,0.0000383908,0.0004267448],"genre_scores_gemma":[0.9994629,0.000031815656,0.00006800489,0.00012606835,0.00005561988,0.000026490037,0.000097578464,0.000011283891,0.00012020885],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9987443,0.00033997913,0.00034268206,0.00024719402,0.0001787282,0.00014711413],"domain_scores_gemma":[0.9994283,0.00007262207,0.00019470087,0.00018399725,0.00008837681,0.00003204557],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005334736,0.00011679295,0.0001651003,0.00012578786,0.000108163105,0.000028103828,0.000063046864,0.000101746744,0.00015525392],"category_scores_gemma":[0.000038144535,0.00007675032,0.000034764253,0.00028602453,0.0002751116,0.00024653395,0.0000144617925,0.00016531322,0.00001317783],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000350481,0.00029324926,0.31272578,0.00016947341,0.000018766084,0.0000078506855,0.08571546,0.000017840699,0.5252777,0.0013375512,0.000987123,0.07309874],"study_design_scores_gemma":[0.0006171817,0.00021059686,0.9576254,0.00003832755,0.000012712721,0.00001774466,0.030189523,0.010895761,0.00008438163,0.00020892074,0.00001807078,0.00008139262],"about_ca_topic_score_codex":0.0003220042,"about_ca_topic_score_gemma":0.00037493155,"teacher_disagreement_score":0.6448996,"about_ca_system_score_codex":0.000019821524,"about_ca_system_score_gemma":0.000017505485,"threshold_uncertainty_score":0.3129787},"labels":[],"label_agreement":null},{"id":"W4385406809","doi":"10.1093/cercor/bhad274","title":"Mismatch negativity as a marker of auditory pattern separation","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; Baycrest Hospital; University of Toronto; York University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Mismatch negativity; Audiology; Psychology; Sensory memory; Oddball paradigm; Encoding (memory); Echoic memory; Event-related potential; Electroencephalography; Cognitive psychology; Cognition; Neuroscience; Medicine","score_opus":0.0387749024533007,"score_gpt":0.31550849294253674,"score_spread":0.27673359048923607,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385406809","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9932199,6.46109e-7,0.00014121829,0.00030084918,0.0011354677,0.00017868978,0.000013327024,0.00014495937,0.0048649437],"genre_scores_gemma":[0.9950002,0.00001288692,0.0000053171575,0.0010459798,0.00015221871,0.000015161053,0.0000049806317,0.000011433951,0.0037518342],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99875027,0.000102150676,0.00018219659,0.00037697636,0.0003482934,0.00024010488],"domain_scores_gemma":[0.9994663,0.00008723271,0.000099914374,0.00025275978,0.000025710515,0.00006810106],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00015165431,0.000103616294,0.00012506354,0.000101489735,0.00011842543,0.000031390395,0.00018988115,0.000050675662,0.00040942302],"category_scores_gemma":[0.00020774473,0.00009638374,0.00006469929,0.0005415013,0.00014249898,0.0003299018,0.000079459394,0.00010478373,0.0011803305],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00001149947,0.00003074119,0.0013892886,0.00001634531,5.75974e-7,0.000012859598,0.00027189482,0.000006669882,0.98195624,0.00007864975,0.008721985,0.00750323],"study_design_scores_gemma":[0.00040700342,0.00019324588,0.78813905,0.000032079337,0.000009447492,0.00002482512,0.000121594654,0.005071847,0.19941752,0.0014115032,0.0049346597,0.00023721413],"about_ca_topic_score_codex":0.00005247217,"about_ca_topic_score_gemma":0.000018441522,"teacher_disagreement_score":0.7867498,"about_ca_system_score_codex":0.000021881167,"about_ca_system_score_gemma":0.000055786935,"threshold_uncertainty_score":0.9995974},"labels":[],"label_agreement":null},{"id":"W4385406867","doi":"10.1093/cercor/bhad272","title":"Differential involvement of the anterior and posterior hippocampus, parahippocampus, and retrosplenial cortex in making precise judgments of spatial distance and object size for remotely acquired memories of environments and objects","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"Baycrest Hospital; York University; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Retrosplenial cortex; Hippocampus; Intraparietal sulcus; Landmark; Neuroscience; Spatial memory; Hippocampal formation; Spatial cognition; Psychology; Spatial analysis; Posterior parietal cortex; Cognitive psychology; Computer science; Cognition; Artificial intelligence; Working memory; Geography","score_opus":0.03359185086448654,"score_gpt":0.27361471993132835,"score_spread":0.2400228690668418,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385406867","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9981426,0.00011297221,0.000036597925,0.000037415608,0.0003810913,0.0010654124,0.00020363397,0.000013020084,0.0000072568955],"genre_scores_gemma":[0.99944854,0.00023878436,0.00009316305,0.00006568814,0.000025400232,0.000023540932,0.000004378112,0.000023409742,0.00007711965],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9980778,0.00015618249,0.0005706356,0.0005746622,0.00031606437,0.00030465107],"domain_scores_gemma":[0.99886584,0.0003310622,0.00044370405,0.0002708035,0.000014014596,0.00007456063],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015867813,0.0002515669,0.00053903676,0.00008139247,0.00013152933,0.00003103878,0.00017911954,0.00009728388,0.000014358964],"category_scores_gemma":[0.00029532445,0.00020030544,0.000055623306,0.00016420714,0.000477046,0.00016945317,0.00042210546,0.000089548885,1.5260592e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010197582,0.000051907562,0.037105,0.00045451202,0.000011257647,0.0000055676173,0.00092511234,4.1805282e-7,0.95281994,0.000037921658,0.000002519933,0.0075660697],"study_design_scores_gemma":[0.0017344006,0.0005242874,0.522983,0.00033288682,0.00003579403,0.000012534868,0.00013766835,0.00066268677,0.4721665,0.0012657406,0.0000018823569,0.00014258656],"about_ca_topic_score_codex":0.00002590854,"about_ca_topic_score_gemma":0.00013455882,"teacher_disagreement_score":0.48587802,"about_ca_system_score_codex":0.000019668842,"about_ca_system_score_gemma":0.000020632398,"threshold_uncertainty_score":0.8168219},"labels":[],"label_agreement":null},{"id":"W4385690948","doi":"10.1093/cercor/bhad286","title":"Sex differences in cognition and structural covariance-based morphometric connectivity: evidence from 28,000+ UK Biobank participants","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital; Douglas College; McGill University","funders":"Canada First Research Excellence Fund","keywords":"Biobank; Cognition; Covariance; Psychology; Spatial cognition; Developmental psychology; Cognitive psychology; Biology; Neuroscience; Genetics; Statistics","score_opus":0.12685022977117077,"score_gpt":0.30212605370378504,"score_spread":0.17527582393261426,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385690948","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99650776,0.00018531884,0.00016395947,0.001546914,0.00067226315,0.00040100008,0.00021706712,0.00022409603,0.00008164015],"genre_scores_gemma":[0.998469,0.00007370695,0.00005413431,0.001076964,0.00010675078,0.00008967627,0.000015638483,0.000021181031,0.00009293287],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.997252,0.00032951034,0.00031592773,0.0010061037,0.00050665176,0.0005898201],"domain_scores_gemma":[0.98737025,0.012018495,0.0001414512,0.00027796213,0.00005805459,0.00013380019],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00033867316,0.00028560768,0.00044549652,0.00048548914,0.0003140285,0.00014428321,0.00021951516,0.000102736485,0.00026403047],"category_scores_gemma":[0.013815965,0.00026215613,0.000059614402,0.002230241,0.0003465756,0.00041667113,0.00018921842,0.00027035593,0.00011117202],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00022969162,0.000046897385,0.88653123,0.00004524952,0.0000257297,0.000101979196,0.00037226264,0.00008726771,0.10821301,0.00019771981,0.00061724195,0.0035317296],"study_design_scores_gemma":[0.000951085,0.00018221725,0.93627465,0.00013196921,0.00002955961,0.0000055238797,0.00016714742,0.022822794,0.0343891,0.0047097504,0.000014882425,0.0003213224],"about_ca_topic_score_codex":0.00073325046,"about_ca_topic_score_gemma":0.00056427746,"teacher_disagreement_score":0.07382391,"about_ca_system_score_codex":0.00009030711,"about_ca_system_score_gemma":0.000081547274,"threshold_uncertainty_score":0.9999831},"labels":[],"label_agreement":null},{"id":"W4385693110","doi":"10.1093/cercor/bhad276","title":"Development of human hippocampal subfield microstructure and relation to associative inference","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Science Foundation of Sri Lanka; National Institute of Mental Health; Kavli Foundation; National Institute of Biomedical Imaging and Bioengineering; Wellcome Trust; National Defense Science and Engineering Graduate; U.S. Department of Defense; National Institutes of Health; National Science Foundation","keywords":"Subiculum; Inference; Hippocampal formation; Dentate gyrus; Hippocampus; Neuroscience; Associative property; Psychology; Perception; Computer science; Biology; Cognitive psychology; Artificial intelligence; Mathematics","score_opus":0.08641423085507224,"score_gpt":0.33479684300928014,"score_spread":0.2483826121542079,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385693110","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99881214,0.0000015981004,0.00006475031,0.000115146315,0.00018012064,0.00017908915,0.000010025344,0.00006507239,0.00057207915],"genre_scores_gemma":[0.99872124,0.0000015236976,0.00035685813,0.00027904907,0.000020975627,0.0000075244816,0.0000062114746,0.000007993003,0.00059865037],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99912095,0.00005122757,0.00020054009,0.00027207556,0.00017248078,0.00018272562],"domain_scores_gemma":[0.9995766,0.000120488796,0.00009350582,0.00010697288,0.000024503051,0.00007789129],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000092496506,0.00010001589,0.00013485289,0.00008079151,0.00019463006,0.00002056943,0.0001184198,0.00007116101,0.0000863589],"category_scores_gemma":[0.0003093815,0.00009058172,0.000020369042,0.00032490864,0.00002957276,0.00009688087,0.0001122555,0.00012660424,0.00006286413],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011808539,0.0000052518653,0.001860817,0.000012167454,0.0000016610041,0.000004072438,0.002303366,8.6973773e-7,0.99076325,0.0026740213,0.00006598597,0.0022967276],"study_design_scores_gemma":[0.00014496208,0.000080050646,0.17313606,0.000015892452,0.000002756489,0.0000022879462,0.0001350821,0.00004652261,0.8230085,0.0032833433,0.000046424702,0.000098140976],"about_ca_topic_score_codex":0.0000015480109,"about_ca_topic_score_gemma":0.000014158719,"teacher_disagreement_score":0.17127524,"about_ca_system_score_codex":0.00001982262,"about_ca_system_score_gemma":0.0000289592,"threshold_uncertainty_score":0.36938152},"labels":[],"label_agreement":null},{"id":"W4385728260","doi":"10.1093/cercor/bhad297","title":"Increased noise relates to abnormal excitation-inhibition balance in schizophrenia: a combined empirical and computational study","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Ottawa","funders":"Paul Scherrer Institut; Canadian Institutes of Health Research; European Commission","keywords":"Electroencephalography; Noise (video); Excitation; Neuroscience; Balance (ability); Population; Brain activity and meditation; Psychology; Chemistry; Physics; Computer science; Artificial intelligence; Medicine","score_opus":0.02579703144001832,"score_gpt":0.27970484464255435,"score_spread":0.253907813202536,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4385728260","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9978333,0.0000019220079,0.000087722714,0.001031426,0.00016780908,0.0005686414,0.000022634833,0.00015437107,0.00013219],"genre_scores_gemma":[0.99870557,0.0000019125812,0.00008983649,0.0009313403,0.000037343616,0.000050892028,0.000050000217,0.000015945137,0.000117169904],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99859995,0.00014635561,0.00027193534,0.0004646372,0.0002814214,0.0002356877],"domain_scores_gemma":[0.99931675,0.00035215836,0.00005816775,0.00011592876,0.000038214774,0.000118784956],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018893491,0.00013906117,0.00016532582,0.0002639566,0.00016386191,0.000081125785,0.00007771446,0.000048001308,0.000025468771],"category_scores_gemma":[0.0003389395,0.00013499497,0.000028998162,0.0010104631,0.00004803203,0.00024148842,0.000094831616,0.00017537198,0.00014746442],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0017700263,0.00087482185,0.8845598,0.000050159437,0.0000134358925,0.00039497158,0.0017540362,0.0061469316,0.0945285,0.0050974423,0.0026452213,0.0021646474],"study_design_scores_gemma":[0.0019649193,0.00040967358,0.88855267,0.000017468878,0.0000046085966,0.000009746867,0.0001005614,0.104286455,0.00015949197,0.0043376065,0.0000100095,0.00014677341],"about_ca_topic_score_codex":0.000046033852,"about_ca_topic_score_gemma":0.000060928294,"teacher_disagreement_score":0.098139524,"about_ca_system_score_codex":0.0000414382,"about_ca_system_score_gemma":0.00003346389,"threshold_uncertainty_score":0.55049354},"labels":[],"label_agreement":null},{"id":"W4386809523","doi":"10.1093/cercor/bhad327","title":"Functional networks in the infant brain during sleep and wake states","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":18,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institute for Advanced Research; James S. McDonnell Foundation; National Science Foundation","keywords":"Functional connectivity; Functional magnetic resonance imaging; Psychology; Resting state fMRI; Dynamic functional connectivity; Consciousness; Wakefulness; Neuroscience; Brain activity and meditation; Developmental psychology; Cognitive psychology; Audiology; Electroencephalography; Medicine","score_opus":0.02714317005884259,"score_gpt":0.24360488412530223,"score_spread":0.21646171406645964,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386809523","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9848577,0.000048477457,0.000045027828,0.01363059,0.00042530577,0.0002022202,0.000010385439,0.0001276961,0.0006525986],"genre_scores_gemma":[0.9935981,0.000035865265,0.0000041327867,0.0053940364,0.00017586508,0.00005128818,0.000007225143,0.000013954311,0.00071951206],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99868274,0.00014116806,0.00015825736,0.00041721435,0.00027187756,0.00032877433],"domain_scores_gemma":[0.9957302,0.0039958125,0.000041831245,0.00017645494,0.000017388324,0.000038301754],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00032848184,0.00013436929,0.00012824348,0.0001154249,0.000347604,0.00007187831,0.00013767449,0.000041369483,0.000060638125],"category_scores_gemma":[0.001767246,0.00009953357,0.000039114555,0.0006803729,0.00015207697,0.00017644251,0.00017203526,0.00024712825,0.00007809647],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006817472,0.00023638362,0.66371703,0.00016717598,0.000089019944,0.00061247643,0.0055724615,0.029959822,0.06837353,0.027494159,0.19237444,0.010721757],"study_design_scores_gemma":[0.000448508,0.000049091934,0.9783522,0.000010052816,0.0000035952069,0.000043621458,0.00030994587,0.015669284,0.000475661,0.0020260566,0.0024740407,0.00013794203],"about_ca_topic_score_codex":0.000037763755,"about_ca_topic_score_gemma":0.00022726123,"teacher_disagreement_score":0.31463516,"about_ca_system_score_codex":0.000029399025,"about_ca_system_score_gemma":0.000013383823,"threshold_uncertainty_score":0.4058861},"labels":[],"label_agreement":null},{"id":"W4386843107","doi":"10.1093/cercor/bhad322","title":"Brain–gut axis mechanism of subthreshold nonsuicidal self-injury addictive features in adolescents","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Suicide and Self-Harm Studies","field":"Psychology","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Mechanism (biology); Subthreshold conduction; Psychology; Neuroscience; Addiction; Clinical psychology; Medicine; Physics","score_opus":0.019485143501945107,"score_gpt":0.29908735066395176,"score_spread":0.2796022071620067,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386843107","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9868369,0.0003467589,0.000009307309,0.0005303657,0.0011655188,0.00049103977,0.00013212847,0.00035444077,0.010133552],"genre_scores_gemma":[0.9968379,0.000020803107,0.00003541314,0.0008225816,0.00016215062,0.00007727136,0.000037413476,0.00005285581,0.0019536067],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99779505,0.00015667669,0.0004574087,0.0005980816,0.00033143675,0.0006613357],"domain_scores_gemma":[0.9990095,0.00013059365,0.0001599837,0.00048845337,0.00009652045,0.0001149526],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00028601842,0.00031495234,0.0005205564,0.0004427399,0.00010884733,0.000017470966,0.00037309993,0.0002535071,0.00054273615],"category_scores_gemma":[0.00007484697,0.0003019555,0.00018588717,0.00087155896,0.0000990895,0.0001000475,0.0002104931,0.00043907718,0.0007581951],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015666826,0.001229103,0.7708421,0.00024847387,0.0010682394,0.0005830732,0.026992213,0.0000055621567,0.011382492,0.032743033,0.14890799,0.004431028],"study_design_scores_gemma":[0.0015529722,0.00032978551,0.98973763,0.000047775615,0.00005005757,0.000011741216,0.0032891484,0.000038503254,0.0011124468,0.0032373327,0.00025823794,0.00033434268],"about_ca_topic_score_codex":0.0005788972,"about_ca_topic_score_gemma":0.00052098674,"teacher_disagreement_score":0.21889555,"about_ca_system_score_codex":0.00007132703,"about_ca_system_score_gemma":0.000049204307,"threshold_uncertainty_score":0.99994326},"labels":[],"label_agreement":null},{"id":"W4386843501","doi":"10.1093/cercor/bhad333","title":"Visual, delay, and oculomotor timing and tuning in macaque dorsal pulvinar during instructed and free choice memory saccades","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Deutsche Forschungsgemeinschaft; Hermann und Lilly Schilling-Stiftung für Medizinische Forschung","keywords":"Saccade; Saccadic masking; Macaque; Neuroscience; Psychology; Dorsum; Superior colliculus; Eye movement; Biology; Anatomy","score_opus":0.04385315762802852,"score_gpt":0.31073949908934134,"score_spread":0.26688634146131285,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4386843501","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99892133,0.00006502616,0.0000214826,0.00014368494,0.00016604023,0.00016808143,0.000006904043,0.00020727552,0.00030015563],"genre_scores_gemma":[0.99888235,0.00012669286,0.0001505629,0.0002879579,0.00006168991,0.000010295531,0.0000034456982,0.00003139918,0.00044557336],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986154,0.00009142076,0.00022643138,0.00053677853,0.0001827653,0.00034719275],"domain_scores_gemma":[0.9995361,0.00011063551,0.00007218302,0.00012993229,0.000016584621,0.00013456149],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001305041,0.00019125201,0.0002025857,0.00026768877,0.00033380138,0.00019698669,0.00013847639,0.00011843264,0.00005948289],"category_scores_gemma":[0.0003573548,0.00019154573,0.000017999448,0.00044922033,0.00014922408,0.00045355415,0.00031788848,0.00028154367,0.000012663357],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00004908907,0.000017894054,0.012471408,0.00019472663,0.0000029954365,0.00007923929,0.0014700285,0.0000032733267,0.97275203,0.00014849781,0.000048993195,0.012761821],"study_design_scores_gemma":[0.004033219,0.00035504924,0.87125564,0.000441518,0.00002955127,0.0005918785,0.0018749458,0.03885659,0.07902214,0.0023749406,0.00023904219,0.0009254959],"about_ca_topic_score_codex":0.00010093473,"about_ca_topic_score_gemma":0.00008805594,"teacher_disagreement_score":0.89372987,"about_ca_system_score_codex":0.000026338654,"about_ca_system_score_gemma":0.000023308157,"threshold_uncertainty_score":0.7811008},"labels":[],"label_agreement":null},{"id":"W4387431988","doi":"10.1093/cercor/bhad367","title":"Cortical origin of theta error signals","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Systems, Applications & Products in Data Processing (Canada); York University","funders":"National Eye Institute; National Institute of Mental Health; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research","keywords":"Macaque; Neuroscience; Local field potential; Electrophysiology; Electroencephalography; Pyramidal cell; Physics; Psychology; Hippocampus","score_opus":0.06638260514700735,"score_gpt":0.306380491003048,"score_spread":0.23999788585604065,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387431988","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9932886,0.000003733798,0.00006808511,0.00050394813,0.0005772922,0.0001489622,0.000025031119,0.00016157738,0.005222821],"genre_scores_gemma":[0.9947257,0.0000091066195,0.00001211361,0.00049471867,0.00006280259,0.000006538407,0.0000073461133,0.000016083726,0.0046655796],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9988904,0.0000756939,0.00021922524,0.00029981937,0.00025812056,0.00025675446],"domain_scores_gemma":[0.99937683,0.00022626444,0.00007413016,0.00021777961,0.000027795866,0.000077209326],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012658222,0.00010269752,0.00015787322,0.00008643635,0.00008802025,0.000022181035,0.00018889741,0.000048957256,0.0003944015],"category_scores_gemma":[0.0002948273,0.00008169516,0.000087492386,0.00055455667,0.000110329005,0.00010509734,0.00007754039,0.00014799993,0.0005351723],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000032831853,0.000040040864,0.001981079,0.0000167415,0.0000030879978,0.000024374987,0.000028659208,0.00004924661,0.97856665,0.014716404,0.0030848128,0.0014560708],"study_design_scores_gemma":[0.0014337526,0.0009373527,0.33618054,0.00006945105,0.00005838595,0.0000750701,0.00014655564,0.15070945,0.46759528,0.02747667,0.014542147,0.00077534595],"about_ca_topic_score_codex":0.000009179276,"about_ca_topic_score_gemma":0.0000040708887,"teacher_disagreement_score":0.51097137,"about_ca_system_score_codex":0.000013093694,"about_ca_system_score_gemma":0.000027565467,"threshold_uncertainty_score":0.68787354},"labels":[],"label_agreement":null},{"id":"W4387472500","doi":"10.1093/cercor/bhad379","title":"Brain plasticity underlying sleep-dependent motor consolidation after motor imagery","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Institut Universitaire de France","keywords":"Consolidation (business); Motor imagery; Motor learning; Psychology; Memory consolidation; Neuroplasticity; Functional magnetic resonance imaging; Neuroscience; Motor cortex; Physical medicine and rehabilitation; Electroencephalography; Medicine; Hippocampus","score_opus":0.04346931746986296,"score_gpt":0.29073637239375816,"score_spread":0.2472670549238952,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387472500","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99321795,0.000009844917,0.0026208763,0.0008895417,0.00113231,0.00034862297,0.00010111639,0.0005347178,0.0011450284],"genre_scores_gemma":[0.9928853,0.0000043889827,0.00012534417,0.0021956787,0.00019487538,0.000053481584,0.000010704238,0.000037075897,0.0044931816],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99788874,0.00015394125,0.00033941885,0.0006758919,0.0004105388,0.00053148635],"domain_scores_gemma":[0.99867517,0.0007321057,0.00011616174,0.00027366503,0.000044167326,0.00015873059],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00017092083,0.00024325048,0.00022847636,0.00021187437,0.00020181504,0.00025725833,0.00036296996,0.000098502904,0.00046850726],"category_scores_gemma":[0.00046344957,0.00022615943,0.000116452815,0.00034848505,0.000138969,0.0004355319,0.0002582162,0.00026355954,0.001432864],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00014320693,0.00006628931,0.0021900642,0.000056550725,0.0000138143005,0.00019401868,0.00037386516,0.000053418356,0.988221,0.0005740373,0.0045343773,0.003579354],"study_design_scores_gemma":[0.0023062022,0.00078211015,0.36073896,0.00021060575,0.000056495017,0.00018285553,0.00046061949,0.10047639,0.52522707,0.0035133054,0.0045190374,0.0015263207],"about_ca_topic_score_codex":0.000021284179,"about_ca_topic_score_gemma":0.000016200085,"teacher_disagreement_score":0.46299392,"about_ca_system_score_codex":0.00007014505,"about_ca_system_score_gemma":0.00004591968,"threshold_uncertainty_score":0.99934465},"labels":[],"label_agreement":null},{"id":"W4387563154","doi":"10.1093/cercor/bhad375","title":"Temporal association activates projections from the perirhinal cortex and ventral CA1 to the prelimbic cortex and from the prelimbic cortex to the basolateral amygdala","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children","funders":"Associação Fundo de Incentivo à Pesquisa; Conselho Nacional de Desenvolvimento Científico e Tecnológico; Coordenação de Aperfeiçoamento de Pessoal de Nível Superior; Fundação de Amparo à Pesquisa do Estado de São Paulo","keywords":"Infralimbic cortex; Perirhinal cortex; Basolateral amygdala; Neuroscience; Cortex (anatomy); Amygdala; Psychology; Association (psychology); Prefrontal cortex; Temporal lobe; Cognition","score_opus":0.0420913768013179,"score_gpt":0.27976711374289887,"score_spread":0.23767573694158095,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387563154","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9727973,0.00009763183,0.00004122215,0.021313116,0.0023580345,0.0023711056,0.0006215199,0.0002460629,0.00015404433],"genre_scores_gemma":[0.98847526,0.00010075959,0.000028109998,0.0070282556,0.0009996742,0.00028884152,0.00007560358,0.00006607687,0.0029374056],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9957253,0.0008667319,0.0005410146,0.0011552926,0.00081924075,0.0008924668],"domain_scores_gemma":[0.99623394,0.0021252634,0.00033516626,0.00093828666,0.00008881372,0.0002785475],"candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.0006854445,0.0005074891,0.0004065653,0.00007074458,0.0023701717,0.00080347003,0.0010911888,0.00019003724,0.00025292207],"category_scores_gemma":[0.0009747808,0.00025841055,0.00016798518,0.0009780669,0.00021015441,0.00040125422,0.00062840496,0.00090999244,0.00031779858],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010413901,0.00020126469,0.06850896,0.00002436517,0.00019691238,0.00007125731,0.01615952,0.0000671831,0.8487444,0.0010469378,0.057873406,0.006064395],"study_design_scores_gemma":[0.0007072395,0.00065162947,0.96121204,0.00008000129,0.00016537475,0.000053046162,0.0017236909,0.0035872124,0.021535655,0.0014271401,0.00838885,0.0004681146],"about_ca_topic_score_codex":0.0014124293,"about_ca_topic_score_gemma":0.0019869208,"teacher_disagreement_score":0.89270306,"about_ca_system_score_codex":0.00012783885,"about_ca_system_score_gemma":0.00014486643,"threshold_uncertainty_score":0.9999868},"labels":[],"label_agreement":null},{"id":"W4387636943","doi":"10.1093/cercor/bhad380","title":"Prediction of misfolded proteins spreading in Alzheimer’s disease using machine learning and spreading models","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Institute on Aging; European Regional Development Fund; National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; National Institutes of Health; Genentech; IXICO; H. Lundbeck A/S; Servier; Bristol-Myers Squibb; Infrastruktura PL-Grid; Eisai; Northern California Institute for Research and Education; University of Southern California; Pfizer; Biogen; BioClinica; Eli Lilly and Company; U.S. Department of Defense; Fundacja na rzecz Nauki Polskiej; European Commission; Academic Computer Centre Cyfronet, AGH University of Science and Technology; Meso Scale Diagnostics; Alzheimer's Disease Neuroimaging Initiative; Forschungszentrum Jülich; Novartis Pharmaceuticals Corporation; Alzheimer's Drug Discovery Foundation; Bristol-Myers Squibb Canada; Alzheimer's Association","keywords":"Computer science; Autoregressive model; Machine learning; Artificial intelligence; Graph; Amyloid (mycology); Computational biology; Neuroscience; Biology; Medicine; Econometrics; Theoretical computer science; Mathematics; Pathology","score_opus":0.08709692219951627,"score_gpt":0.32361395343061766,"score_spread":0.2365170312311014,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387636943","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99315083,0.0051933937,0.00006694637,0.00007493481,0.000039620045,0.0009111737,0.000084088606,0.0001294399,0.00034958264],"genre_scores_gemma":[0.9990533,0.00024812733,0.00027751617,0.000011780968,0.00005308346,0.000041247124,0.00021964945,0.000040680483,0.000054620905],"study_design_codex":"observational","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9984786,0.00007790296,0.00029703503,0.0003664983,0.00036561384,0.00041433985],"domain_scores_gemma":[0.9991771,0.000049641814,0.000086984604,0.00017794776,0.00006182152,0.00044651562],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018223052,0.00018651708,0.00032035695,0.00036638408,0.00011511488,0.000021074098,0.000052536772,0.00006483715,0.000055375],"category_scores_gemma":[0.00007988243,0.00017048606,0.00008582604,0.00048040872,0.00008484033,0.0002528349,0.00009555265,0.00022079101,0.000013046268],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007158605,0.00023291932,0.9881826,0.00021874635,0.001429224,0.0003912812,0.0002573321,0.00041445973,0.0051430482,0.0001624927,0.000018826828,0.0028332223],"study_design_scores_gemma":[0.003502924,0.00031646484,0.40357292,0.0007253717,0.00095113646,0.000026765409,0.00018625039,0.5876622,0.0018664843,0.0009805263,0.000016101727,0.00019283862],"about_ca_topic_score_codex":0.00047299132,"about_ca_topic_score_gemma":0.000021687527,"teacher_disagreement_score":0.5872477,"about_ca_system_score_codex":0.00007555577,"about_ca_system_score_gemma":0.00015832334,"threshold_uncertainty_score":0.69522196},"labels":[],"label_agreement":null},{"id":"W4387637102","doi":"10.1093/cercor/bhad373","title":"Graded functional organization in the left inferior frontal gyrus: evidence from task-free and task-based functional connectivity","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"NIH Blueprint for Neuroscience Research; National Institute on Drug Abuse; National Institute of Mental Health; European Regional Development Fund; McDonnell Center for Systems Neuroscience; Llywodraeth Cymru; National Institutes of Health; Economic and Social Research Council","keywords":"Task (project management); Functional connectivity; Neuroscience; Inferior frontal gyrus; Frontal lobe; Functional organization; Psychology; n-back; Functional magnetic resonance imaging; Cognitive psychology; Working memory; Cognition","score_opus":0.05312443833252879,"score_gpt":0.2500555152646354,"score_spread":0.1969310769321066,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4387637102","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98616195,0.00007934739,0.0011247386,0.010434178,0.001121144,0.00047885094,0.00016693138,0.00030549508,0.0001273838],"genre_scores_gemma":[0.9947011,0.000020295178,0.00003450024,0.004537018,0.00032859106,0.00005721384,0.000111115405,0.000035597204,0.00017458468],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9970399,0.00044494885,0.00032315642,0.00097648345,0.00081481127,0.0004007138],"domain_scores_gemma":[0.98887706,0.010229327,0.00014154043,0.0005120633,0.00015547058,0.000084530206],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005068498,0.0003090331,0.00029097963,0.00023152122,0.00066302513,0.00017147607,0.00036835525,0.00012538521,0.00047169076],"category_scores_gemma":[0.021898918,0.00025759632,0.00007187441,0.0014314826,0.00034377328,0.00071784406,0.00030818128,0.00041642852,0.00027111085],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003546147,0.00020866901,0.7376497,0.00003776968,0.00003592689,0.000059265698,0.0010428232,0.0006757869,0.21364641,0.001743778,0.044048037,0.0004972487],"study_design_scores_gemma":[0.0012228708,0.0001288087,0.9858863,0.00004566514,0.000026436475,0.000028686462,0.00031407856,0.0026190917,0.0047949133,0.0040785037,0.00055723777,0.00029745584],"about_ca_topic_score_codex":0.00036906885,"about_ca_topic_score_gemma":0.0013865608,"teacher_disagreement_score":0.24823658,"about_ca_system_score_codex":0.00017114544,"about_ca_system_score_gemma":0.00023920056,"threshold_uncertainty_score":0.9999876},"labels":[],"label_agreement":null},{"id":"W4388409990","doi":"10.1093/cercor/bhad406","title":"Neural substrates of individual differences in learning generalization via combined brain stimulation and multitasking training","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":13,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research","funders":"National Health and Medical Research Council; Australian Research Council","keywords":"Human multitasking; Transcranial direct-current stimulation; Psychology; Brain stimulation; Neuroscience; Dorsolateral prefrontal cortex; Transcranial magnetic stimulation; Functional magnetic resonance imaging; Intraparietal sulcus; Posterior parietal cortex; Prefrontal cortex; Ventrolateral prefrontal cortex; Cognitive psychology; Cognitive training; Cognition; Stimulation","score_opus":0.1771431474480398,"score_gpt":0.3516863043877024,"score_spread":0.17454315693966257,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388409990","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9992935,0.000016515278,0.000012907715,0.0002368696,0.0001660784,0.00014798557,0.000005432307,0.00008770738,0.00003300948],"genre_scores_gemma":[0.9997248,0.000012355959,0.000019054367,0.00008905202,0.000021679674,0.000007915622,0.000017449243,0.000010001066,0.00009766029],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99889326,0.0001420833,0.00025378686,0.00031207906,0.00017049946,0.00022826227],"domain_scores_gemma":[0.9995612,0.0002216126,0.00011218919,0.000058998354,0.000017249455,0.000028770823],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013974692,0.00012467928,0.00020159196,0.00017125568,0.00014126138,0.0000322161,0.00010658718,0.00005565374,0.000013524266],"category_scores_gemma":[0.00015016839,0.000108368076,0.000026592865,0.00049461465,0.00015412238,0.0001878956,0.00007074286,0.00015996968,0.000003923678],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000023159191,0.000019747353,0.649574,0.000010093032,0.0000022902348,0.000011001621,0.0016472072,0.00032472736,0.34046185,0.00008070988,0.000010318858,0.007834889],"study_design_scores_gemma":[0.0006140964,0.00018885233,0.9588728,0.000020139816,0.000008373281,0.0000047684966,0.00041896582,0.024441121,0.014785129,0.00052451197,0.0000015382894,0.00011972933],"about_ca_topic_score_codex":0.000024006564,"about_ca_topic_score_gemma":0.000045764293,"teacher_disagreement_score":0.3256767,"about_ca_system_score_codex":0.000006147722,"about_ca_system_score_gemma":0.0000057682855,"threshold_uncertainty_score":0.44191217},"labels":[],"label_agreement":null},{"id":"W4388557155","doi":"10.1093/cercor/bhad377","title":"Comparison of the effects of peritoneal dialysis and hemodialysis on spontaneous brain activity in CKD patients: an rs-fMRI study","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Dialysis and Renal Disease Management","field":"Medicine","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"National Key Research and Development Program of China; National Natural Science Foundation of China","keywords":"Hemodialysis; Medicine; Peritoneal dialysis; Kidney disease; Dialysis; Putamen; Cardiology; End stage renal disease; Internal medicine; Magnetic resonance imaging; Neuropsychology; Resting state fMRI; Cognition; Radiology; Psychiatry","score_opus":0.013445428519434447,"score_gpt":0.2958222824662069,"score_spread":0.2823768539467725,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388557155","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.998456,0.000020221458,0.0000017248619,0.000186471,0.00013139783,0.0009196535,0.000011064089,0.000022232529,0.0002512199],"genre_scores_gemma":[0.99966806,0.0000067837236,0.0000054254992,0.000079335085,0.000033991397,0.000026422298,0.000029661669,0.000015773447,0.00013455139],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983217,0.00030796658,0.00034449672,0.0003328431,0.0005008871,0.00019207483],"domain_scores_gemma":[0.99897355,0.0002219538,0.00017800703,0.00046509656,0.000056318735,0.0001051],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025256327,0.00016629677,0.0006890316,0.0002674723,0.00005599278,0.000013360129,0.00013072269,0.000051054183,0.000024581046],"category_scores_gemma":[0.00025457962,0.00011035629,0.00018725765,0.0007911693,0.00008757316,0.000048690687,0.00014432518,0.0001309737,0.000004333936],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006948829,0.005135789,0.94696707,0.00037626087,0.000356823,0.000085429405,0.003041333,0.000085018,0.004342479,0.000021789647,0.0002764584,0.0386167],"study_design_scores_gemma":[0.0022543084,0.00165205,0.991036,0.00009492641,0.00058904977,5.3070414e-7,0.0010245248,0.0019356401,0.0012788012,0.000014212661,0.000016549959,0.000103424936],"about_ca_topic_score_codex":0.00037227132,"about_ca_topic_score_gemma":0.0006556894,"teacher_disagreement_score":0.044068944,"about_ca_system_score_codex":0.000050576302,"about_ca_system_score_gemma":0.000025230713,"threshold_uncertainty_score":0.45001987},"labels":[],"label_agreement":null},{"id":"W4388590917","doi":"10.1093/cercor/bhad401","title":"Bistable perception, precision and neuromodulation","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":11,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Medical Research Council; Medical Research Council Canada; Wellcome Trust","keywords":"Bistability; Perception; Stimulus (psychology); Visual perception; Computer science; Cognitive psychology; Psychology; Neuroscience; Inference; Cognition; Artificial intelligence; Physics","score_opus":0.032139634419058996,"score_gpt":0.26013392324705437,"score_spread":0.22799428882799538,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388590917","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9967752,0.0000024842113,0.00018158932,0.000582778,0.0004951805,0.00014756349,0.000007909106,0.00023235353,0.0015749066],"genre_scores_gemma":[0.99526715,0.000041000956,0.000026413069,0.000492833,0.00006904314,0.000006135523,0.000016641226,0.0000144131745,0.004066376],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991381,0.000048612168,0.00012296127,0.0003457876,0.00017029901,0.00017423883],"domain_scores_gemma":[0.9996566,0.00008104237,0.000038953454,0.00014463029,0.000019874204,0.00005890927],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000087169,0.00008423148,0.00007608123,0.00009933468,0.00019674488,0.000079493155,0.00006928632,0.000039146136,0.00012447305],"category_scores_gemma":[0.00017097582,0.00007445549,0.000026684924,0.00041968125,0.000040353727,0.00024269265,0.00006992027,0.000082163446,0.00030269756],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021380129,0.000013560635,0.0035307661,0.000010403928,6.350838e-7,0.000008323292,0.00006675878,0.00007911754,0.96443826,0.0014673764,0.0030911192,0.027272295],"study_design_scores_gemma":[0.0003205501,0.0001500179,0.8260401,0.0000108242175,0.0000055843466,0.000034044806,0.00003249941,0.15725854,0.004093211,0.006199072,0.005680674,0.00017489442],"about_ca_topic_score_codex":0.000009118528,"about_ca_topic_score_gemma":0.0000047775334,"teacher_disagreement_score":0.96034503,"about_ca_system_score_codex":0.000015265108,"about_ca_system_score_gemma":0.0000075642024,"threshold_uncertainty_score":0.38906658},"labels":[],"label_agreement":null},{"id":"W4388591110","doi":"10.1093/cercor/bhad421","title":"Sex- and age-based differences in fetal and early childhood hippocampus maturation: a cross-sectional and longitudinal analysis","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neonatal and fetal brain pathology","field":"Medicine","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Children’s Health Research Institute; Victoria Hospital; London Health Sciences Centre; Western University","funders":"Canada First Research Excellence Fund; Canadian Institutes of Health Research; European Commission","keywords":"Hippocampal formation; Gestational age; Hippocampus; Fetus; Longitudinal study; Psychology; Pregnancy; Medicine; Developmental psychology; Physiology; Neuroscience; Biology; Pathology","score_opus":0.021000040982347434,"score_gpt":0.2689097536511426,"score_spread":0.2479097126687952,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388591110","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99885595,0.00036661845,0.00004806254,0.00025931062,0.00007063569,0.00016828685,0.000021291267,0.000056092358,0.00015372988],"genre_scores_gemma":[0.9990408,0.0000241503,0.00011270124,0.0001170262,0.00007491978,0.000013730356,0.0000795788,0.000008573202,0.00052852975],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9989816,0.00003476672,0.00021307083,0.00041042033,0.00015731195,0.00020283514],"domain_scores_gemma":[0.9995966,0.00008904898,0.000059436275,0.00010398894,0.000026588228,0.00012436176],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001320971,0.00014467703,0.00034873936,0.0003124066,0.00010863074,0.000076025266,0.000035375586,0.00010859699,0.000050081115],"category_scores_gemma":[0.000049500464,0.00011843716,0.00005619979,0.00051421317,0.0002833528,0.00010020049,0.00006247939,0.00019062741,0.000007239906],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000121322024,0.000031815696,0.9931111,0.00003827604,0.00009100339,0.0002640665,0.00025290193,9.206678e-7,0.00037400294,0.00007610739,0.000005175088,0.0056333523],"study_design_scores_gemma":[0.0013900561,0.00025704008,0.9959073,0.000015409893,0.00009730215,0.00020168234,0.000054790562,0.0008080844,0.00002482592,0.0011140442,0.000006095228,0.00012334618],"about_ca_topic_score_codex":0.00006708766,"about_ca_topic_score_gemma":0.000115372015,"teacher_disagreement_score":0.005510006,"about_ca_system_score_codex":0.000012680723,"about_ca_system_score_gemma":0.000029158473,"threshold_uncertainty_score":0.4829727},"labels":[],"label_agreement":null},{"id":"W4388627390","doi":"10.1093/cercor/bhad424","title":"Dorsomedial frontal cortex damage impairs error-based, but not reinforcement-based motor learning in humans","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Canada First Research Excellence Fund; McGill University","keywords":"Sensory system; Psychology; Neuroscience; Motor learning; Reinforcement; Reinforcement learning; Frontal cortex; Reflex; Computer science; Artificial intelligence","score_opus":0.032059304944392096,"score_gpt":0.26495104985012335,"score_spread":0.23289174490573125,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388627390","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99539316,0.0000046652763,0.0010339925,0.0003841665,0.00072602765,0.00063390634,0.000056317924,0.00051273254,0.0012550434],"genre_scores_gemma":[0.9938617,0.0000026248654,0.00005676178,0.0012282581,0.0002189842,0.00010130683,0.00015713171,0.000051459196,0.0043218136],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9972461,0.00019119881,0.00051238516,0.00068551017,0.00064019,0.0007246202],"domain_scores_gemma":[0.9989303,0.00027901152,0.0002146174,0.00033194476,0.00003921787,0.00020495335],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00030418794,0.00030855587,0.00033062533,0.00041808514,0.0003011804,0.000113605805,0.00038240696,0.00013348335,0.0006492123],"category_scores_gemma":[0.0004806486,0.00030733072,0.00018093467,0.0005925207,0.00015127897,0.00033984045,0.00007752956,0.0004883923,0.00067894574],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00069074397,0.00011009856,0.013809267,0.000062638326,0.0000071223217,0.00033736386,0.00040862832,0.017447634,0.96421605,0.00065024017,0.00034059837,0.0019196391],"study_design_scores_gemma":[0.0045789587,0.0005899932,0.41901857,0.000052854462,0.000017459784,0.0000015664172,0.00033446512,0.56367224,0.009876696,0.000049434508,0.001338113,0.0004696559],"about_ca_topic_score_codex":0.0003827007,"about_ca_topic_score_gemma":0.00033786197,"teacher_disagreement_score":0.9543393,"about_ca_system_score_codex":0.00015122413,"about_ca_system_score_gemma":0.00021165259,"threshold_uncertainty_score":0.9999379},"labels":[],"label_agreement":null},{"id":"W4388911947","doi":"10.1093/cercor/bhad429","title":"Organization of pRF size along the AP axis of the hippocampus and adjacent medial temporal cortex is related to specialization for scenes versus faces","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":14,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; Western University; University of Toronto","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Hippocampus; Perirhinal cortex; Neuroscience; Entorhinal cortex; Temporal lobe; Hippocampal formation; Cortex (anatomy); Contrast (vision); Temporal cortex; Psychology; Computer science; Artificial intelligence","score_opus":0.051543774359974266,"score_gpt":0.29571801100365286,"score_spread":0.2441742366436786,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4388911947","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99594975,0.000011138242,0.00003670065,0.001191034,0.0017032608,0.0009334398,0.000059408958,0.00005426224,0.00006103883],"genre_scores_gemma":[0.99925274,0.000035392466,0.000027700089,0.00028501358,0.00006442688,0.000012281996,0.000010844059,0.000022631253,0.00028896815],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99870133,0.00012804299,0.00034051013,0.0003194561,0.00031800644,0.0001926265],"domain_scores_gemma":[0.9988672,0.00045874802,0.00024218994,0.00026176,0.00011062884,0.000059441456],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018953561,0.00013518136,0.00018875755,0.000050976872,0.00023852818,0.000026355894,0.00029566418,0.00007957806,0.00016320198],"category_scores_gemma":[0.0017433744,0.00008627587,0.00005300328,0.0010502395,0.00013563586,0.00011843767,0.00014415714,0.00007716872,0.000012763651],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00026095757,0.00003653603,0.010208033,0.00008029982,0.000011925782,0.0000017426443,0.0022863904,0.000035540008,0.98012155,0.0022595546,0.0012960399,0.0034014103],"study_design_scores_gemma":[0.0009331348,0.00028231554,0.074059114,0.000042730866,0.000036388014,0.0000042637876,0.00033381523,0.0007428583,0.9199845,0.0033470911,0.00010922807,0.00012454762],"about_ca_topic_score_codex":0.000012698317,"about_ca_topic_score_gemma":0.000048620037,"teacher_disagreement_score":0.06385108,"about_ca_system_score_codex":0.00001780391,"about_ca_system_score_gemma":0.000054862612,"threshold_uncertainty_score":0.35182276},"labels":[],"label_agreement":null},{"id":"W4389303882","doi":"10.1093/cercor/bhad457","title":"A lateralized alpha-band marker of the interference of exogenous attention over endogenous attention","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":15,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Vermont Agency of Natural Resources; National Institute of Biomedical Imaging and Bioengineering; Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; National Institutes of Health; Agence Nationale de la Recherche","keywords":"Endogeny; Psychology; Visual spatial attention; Cognitive psychology; Neuroscience; N2pc; Attentional control; Cognition; Visual attention; Biology","score_opus":0.1405674432037827,"score_gpt":0.33361382601474804,"score_spread":0.19304638281096534,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4389303882","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9975528,0.000026271551,0.0000030965934,0.00022494179,0.00080968736,0.00030327894,0.00004494797,0.00006051714,0.000974429],"genre_scores_gemma":[0.99733365,0.000038238442,0.0000035884616,0.00014174184,0.000023843155,0.000015327829,0.000004279428,0.000012840325,0.0024265079],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986815,0.00014338405,0.00034364048,0.0003405609,0.00023265087,0.00025826797],"domain_scores_gemma":[0.9993273,0.000057298803,0.00022576682,0.0003064013,0.000051039744,0.000032182663],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010658655,0.0001474542,0.00024039211,0.00007947582,0.00013561083,0.000011626345,0.00031293632,0.00006053071,0.00015497115],"category_scores_gemma":[0.000047593312,0.00009571401,0.0001886742,0.00048398925,0.0003021737,0.000106406216,0.00015741836,0.00012682058,0.000056941066],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008489555,0.000079325786,0.11355034,0.000025832174,0.000009029326,0.000011510161,0.00012781295,4.386601e-7,0.8847203,0.000052097515,0.0004102797,0.0009280848],"study_design_scores_gemma":[0.0005764812,0.00015383774,0.7567401,0.00004559699,0.0000382497,0.000031708438,0.000050979594,0.000015892687,0.24179368,0.00039326044,0.000060647384,0.000099597404],"about_ca_topic_score_codex":0.00006559406,"about_ca_topic_score_gemma":0.00002280546,"teacher_disagreement_score":0.6431897,"about_ca_system_score_codex":0.000014714562,"about_ca_system_score_gemma":0.00001157684,"threshold_uncertainty_score":0.3903104},"labels":[],"label_agreement":null},{"id":"W4389818878","doi":"10.1093/cercor/bhad481","title":"High-frequency transcranial alternating current stimulation matching individual frequency of somatosensory evoked high-frequency oscillations can modulate the somatosensory system through thalamocortical pathway","year":2023,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"","keywords":"Transcranial alternating current stimulation; Neuromodulation; Neuroscience; Transcranial direct-current stimulation; Somatosensory system; Stimulation; Alternating current; Psychology; Medicine; Transcranial magnetic stimulation; Physics","score_opus":0.049999143893278794,"score_gpt":0.28095987097206027,"score_spread":0.23096072707878146,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4389818878","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9902371,0.00016961014,0.0022805864,0.0006800149,0.0023032345,0.001688112,0.00081945874,0.0010492187,0.0007726192],"genre_scores_gemma":[0.9975367,0.00004121238,0.0014457405,0.000094207564,0.00049060304,0.00012917316,0.00008566029,0.00012979163,0.000046876314],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9932688,0.00073825073,0.0018819664,0.0012299455,0.0018077624,0.001073306],"domain_scores_gemma":[0.99653184,0.0013041506,0.0007216762,0.00095728494,0.0002781028,0.00020696998],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00047766624,0.00071922695,0.0009178802,0.000357767,0.0011759324,0.00018110852,0.00093459163,0.0002390025,0.00011847235],"category_scores_gemma":[0.0004293735,0.00060016627,0.0003790444,0.0015892928,0.0006282188,0.0006152591,0.00016667519,0.0007023474,0.00014032931],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000041624942,0.00017524452,0.023648975,0.00040589596,0.0001017268,0.000084084175,0.0061128,0.0108803855,0.75758034,0.19900216,0.000016450032,0.0019503201],"study_design_scores_gemma":[0.004868335,0.00029497483,0.88481903,0.0006611066,0.00037964826,0.00010233141,0.0012314336,0.013300268,0.014079257,0.07898322,0.0000065309046,0.0012738779],"about_ca_topic_score_codex":0.0015364257,"about_ca_topic_score_gemma":0.00015864824,"teacher_disagreement_score":0.86117005,"about_ca_system_score_codex":0.00020249774,"about_ca_system_score_gemma":0.0002617433,"threshold_uncertainty_score":0.999645},"labels":[],"label_agreement":null},{"id":"W4390666253","doi":"10.1093/cercor/bhad522","title":"GABAergic inhibition shapes behavior and neural dynamics in human visual working memory","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"Fonds de recherche du Québec – Nature et technologies; Université de Lyon; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Agence Nationale de la Recherche","keywords":"Working memory; Neuroscience; Functional magnetic resonance imaging; Psychology; Cognition; gamma-Aminobutyric acid; GABAA receptor; Magnetoencephalography; GABAergic; Inhibitory postsynaptic potential; Electroencephalography; Medicine; Receptor; Internal medicine","score_opus":0.025774251845619114,"score_gpt":0.2808727952838307,"score_spread":0.2550985434382116,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4390666253","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99732774,0.000069659,0.00003410245,0.00021512006,0.00061368116,0.0002447506,0.000009735134,0.00017901757,0.0013062023],"genre_scores_gemma":[0.99883187,0.000013343052,0.000008324646,0.00032492017,0.00012920328,0.000025813402,0.000023985103,0.000031163792,0.0006113822],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9986781,0.0000643299,0.00024076077,0.000539628,0.00019221916,0.00028497662],"domain_scores_gemma":[0.99971586,0.00007644192,0.00004084106,0.00008487123,0.000009599457,0.00007239845],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00009852875,0.00017355944,0.0001450283,0.00021023041,0.00015646752,0.00024905067,0.00007566263,0.00008320174,0.00007436819],"category_scores_gemma":[0.00002890933,0.00016401702,0.000057911653,0.00038387778,0.00010133967,0.00032635027,0.000103152764,0.00033731584,0.000014625773],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000035777346,0.0001334555,0.013704556,0.00009595666,0.0000033608512,0.00078737194,0.00016595071,0.000052382013,0.898273,0.022085333,0.00008778935,0.06457508],"study_design_scores_gemma":[0.0006748252,0.00039159032,0.12401038,0.00022979816,0.000041090716,0.00032940984,0.00021164345,0.8592701,0.011223623,0.0029261892,0.00009685323,0.00059449027],"about_ca_topic_score_codex":0.000046171557,"about_ca_topic_score_gemma":0.00033741866,"teacher_disagreement_score":0.8870494,"about_ca_system_score_codex":0.00013446371,"about_ca_system_score_gemma":0.000015180034,"threshold_uncertainty_score":0.66884196},"labels":[],"label_agreement":null},{"id":"W4391057533","doi":"10.1093/cercor/bhad546","title":"Dynamic reconfiguration of brain coactivation states that underlying working memory correlates with cognitive decline in clinically unimpaired older adults","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Shenzhen-Hong Kong Institute of Brain Science; Science, Technology and Innovation Commission of Shenzhen Municipality; Natural Science Foundation of Guangdong Province; National Natural Science Foundation of China","keywords":"Working memory; Default mode network; Cognition; Psychology; Cognitive decline; Cognitive flexibility; Coactivation; Neuropsychology; Neuroimaging; Cognitive skill; Neuroscience; Effects of sleep deprivation on cognitive performance; Task-positive network; Cognitive psychology; Audiology; Developmental psychology; Medicine","score_opus":0.04538785594198819,"score_gpt":0.3030444989168424,"score_spread":0.2576566429748542,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391057533","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9918794,0.00012510263,0.002588394,0.0034832053,0.00045860518,0.00059730734,0.00002368974,0.00016094805,0.00068333314],"genre_scores_gemma":[0.9979983,0.000043818527,0.00009250882,0.0014664594,0.000023796054,0.00004116932,0.00004881243,0.00003740895,0.00024773946],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99800885,0.00022980555,0.00046335912,0.0006815417,0.00035070718,0.000265762],"domain_scores_gemma":[0.98675174,0.012738305,0.0002178073,0.00014603426,0.00009729587,0.00004881634],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004430847,0.00022071331,0.00029824078,0.00024902046,0.00012407196,0.000081008344,0.00011946906,0.00010145125,0.000067375295],"category_scores_gemma":[0.002935943,0.00019157992,0.0000696421,0.0006094002,0.00021915196,0.00048747714,0.00006884165,0.0003671187,0.000021094189],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.011786643,0.0013779004,0.47723392,0.0014392094,0.0004866397,0.00044060053,0.026970157,0.003599739,0.098024964,0.0034442495,0.0011854734,0.3740105],"study_design_scores_gemma":[0.0036795805,0.0012511655,0.79594064,0.004445634,0.00007307513,0.00006178907,0.008982565,0.16550417,0.015199589,0.004123278,0.00005886491,0.00067965576],"about_ca_topic_score_codex":0.00008334457,"about_ca_topic_score_gemma":0.0010238516,"teacher_disagreement_score":0.37333086,"about_ca_system_score_codex":0.00012902096,"about_ca_system_score_gemma":0.00013602998,"threshold_uncertainty_score":0.7812402},"labels":[],"label_agreement":null},{"id":"W4391090894","doi":"10.1093/cercor/bhae004","title":"Induced emotion counter-regulation affects attentional inhibition of emotional information: ERP evidence from a randomized manipulation approach","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Alberta","funders":"Fundamental Research Funds for the Central Universities; Renmin University of China","keywords":"Anger; Psychology; Valence (chemistry); Cognitive reappraisal; Facial expression; Cognition; Emotional regulation; Priming (agriculture); Cognitive psychology; Social psychology; Developmental psychology; Neuroscience; Communication","score_opus":0.11505011100308517,"score_gpt":0.33296183174591254,"score_spread":0.2179117207428274,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391090894","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9891813,0.0000694226,0.0073915683,0.00071067933,0.0010830528,0.00071004644,0.00005840778,0.00016009016,0.00063543586],"genre_scores_gemma":[0.99893206,0.000016027094,0.0002114898,0.00019044914,0.00018443598,0.000057383557,0.00025687818,0.000010765909,0.00014050679],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981225,0.00025879484,0.00050258497,0.00040804062,0.00053443847,0.0001736568],"domain_scores_gemma":[0.99911714,0.00034326303,0.00022520994,0.00015884114,0.000109198554,0.000046376557],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003024947,0.00019728608,0.0003310067,0.0002104946,0.00015094064,0.00010954326,0.0001018979,0.00012544695,0.00028455985],"category_scores_gemma":[0.00020179812,0.00016142889,0.00019878506,0.00041054474,0.0001989137,0.0019941416,0.000059953705,0.0001989831,0.00013421265],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0036962635,0.00017547308,0.002666896,0.00021291296,0.000043745553,0.000007302789,0.0008694353,0.0001431109,0.9755181,0.008106331,0.0015188628,0.0070415456],"study_design_scores_gemma":[0.029487869,0.00041366913,0.7010528,0.0016506466,0.00037255016,0.00011860354,0.00021476505,0.07564417,0.17186172,0.018209489,0.00012261224,0.0008511238],"about_ca_topic_score_codex":0.00004422414,"about_ca_topic_score_gemma":0.000003788528,"teacher_disagreement_score":0.8036564,"about_ca_system_score_codex":0.00007189746,"about_ca_system_score_gemma":0.00003417021,"threshold_uncertainty_score":0.6582879},"labels":[],"label_agreement":null},{"id":"W4391757592","doi":"10.1093/cercor/bhae031","title":"Brain activity supporting alternating speech for semantic words: simultaneous magnetoencephalographic recording","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"HEC Montréal; Japan Society for the Promotion of Science; Hokkaido University","keywords":"Conversation; Utterance; Brain activity and meditation; Psychology; Association (psychology); Magnetoencephalography; Comprehension; Semantic memory; Cognitive psychology; Linguistics; Communication; Computer science; Cognition; Neuroscience; Speech recognition; Electroencephalography","score_opus":0.03008189006646914,"score_gpt":0.341126814063058,"score_spread":0.31104492399658884,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391757592","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.906472,0.00011792139,0.0830243,0.0022257622,0.0033765738,0.00056941627,0.00002147339,0.00055164983,0.0036408608],"genre_scores_gemma":[0.9860804,0.000005342635,0.0011187799,0.0005388428,0.0006177005,0.00005512187,0.00007184071,0.000057926798,0.011454032],"study_design_codex":"design_other","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9983287,0.000095889656,0.00039218442,0.0005628437,0.00018304633,0.0004373279],"domain_scores_gemma":[0.9985987,0.000800976,0.00017078768,0.00024487695,0.0000940229,0.0000906477],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00045868033,0.00019811363,0.00021263462,0.00022379757,0.00021565582,0.00017805395,0.00016355758,0.00014189554,0.0026865583],"category_scores_gemma":[0.00043794382,0.0002025533,0.00015337774,0.00055563654,0.00004540815,0.00030438427,0.000033831355,0.00026206914,0.00019940561],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00012514366,0.00012870996,0.031978074,0.0003406344,0.00020629553,0.00022189661,0.0027373678,0.0002857515,0.010505062,0.0095842695,0.014375619,0.9295112],"study_design_scores_gemma":[0.0024043743,0.00091238774,0.05517449,0.00045966302,0.00021775858,0.0004899009,0.0034921733,0.84754425,0.0010428919,0.008997152,0.07766914,0.0015958052],"about_ca_topic_score_codex":0.00018397429,"about_ca_topic_score_gemma":0.000118106254,"teacher_disagreement_score":0.9279154,"about_ca_system_score_codex":0.00008675651,"about_ca_system_score_gemma":0.000049635142,"threshold_uncertainty_score":0.9982251},"labels":[],"label_agreement":null},{"id":"W4391905121","doi":"10.1093/cercor/bhae038","title":"Traumatic brain injury disrupts state-dependent functional cortical connectivity in a mouse model","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia","funders":"National Institute on Aging; National Institutes of Health; National Institute of Neurological Disorders and Stroke; National Institute of General Medical Sciences; Epilepsy Society; American Epilepsy Society; U.S. Department of Defense","keywords":"Functional connectivity; Neuroscience; Traumatic brain injury; Biology; Psychology","score_opus":0.057209415524171275,"score_gpt":0.30164643247624323,"score_spread":0.24443701695207196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4391905121","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98563284,0.000062985295,0.0063343765,0.0044440324,0.00088333053,0.00049040595,0.00023571619,0.00045678267,0.0014595506],"genre_scores_gemma":[0.991288,0.00001046617,0.00005460012,0.0030631498,0.00010509193,0.00013281127,0.0000070999004,0.00005832636,0.0052804644],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.996811,0.00029894777,0.00045475422,0.0011285641,0.0007169986,0.0005897687],"domain_scores_gemma":[0.9943584,0.005022327,0.00005719111,0.0003497245,0.000045055003,0.00016727055],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0005282776,0.0003456281,0.00037888568,0.00030418235,0.00024254827,0.00018954992,0.00021772568,0.00010717382,0.00025853736],"category_scores_gemma":[0.004936905,0.0003228176,0.00016046823,0.00055360934,0.00026259074,0.0006337174,0.00021959569,0.0007600948,0.00041200223],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013170923,0.0016054371,0.009362035,0.0005627791,0.00014471395,0.00047774485,0.0034659044,0.013148062,0.8405269,0.08562041,0.030999703,0.012769209],"study_design_scores_gemma":[0.001954706,0.0006987194,0.07282757,0.00018691616,0.0000505118,0.0001708621,0.00046298665,0.80355144,0.06562673,0.05211,0.0009063481,0.0014531895],"about_ca_topic_score_codex":0.00006563299,"about_ca_topic_score_gemma":0.00052296976,"teacher_disagreement_score":0.79040337,"about_ca_system_score_codex":0.00038017973,"about_ca_system_score_gemma":0.00024479188,"threshold_uncertainty_score":0.9999224},"labels":[],"label_agreement":null},{"id":"W4392226890","doi":"10.1093/cercor/bhae043","title":"Functional connectivity key feature analysis of cognitive impairment patients based on microstate brain network","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Natural Science Foundation of Hebei Province","keywords":"Ministate; Functional connectivity; Cognition; Feature (linguistics); Cognitive impairment; Neuroscience; Key (lock); Computer science; Psychology; Cognitive psychology; Electroencephalography","score_opus":0.01805242743328418,"score_gpt":0.25327450131292367,"score_spread":0.2352220738796395,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392226890","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98908484,0.00007086267,0.0012243685,0.0042174924,0.0014480724,0.00054004753,0.0010140605,0.00018858453,0.002211686],"genre_scores_gemma":[0.99180806,0.0000026863477,0.000029888273,0.006901379,0.00014985893,0.000047521848,0.00017467464,0.000029830062,0.00085611106],"study_design_codex":"not_applicable","study_design_gemma":"observational","domain_scores_codex":[0.9974645,0.00029243366,0.0002622739,0.00094197755,0.0006320256,0.00040682964],"domain_scores_gemma":[0.9881225,0.011228503,0.00012814064,0.00024768471,0.00017341439,0.00009972766],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003146312,0.0003018801,0.00043543786,0.00041231915,0.0002771858,0.00008083501,0.00012778233,0.00009673593,0.00041837784],"category_scores_gemma":[0.0032182846,0.00026718425,0.0004087749,0.002210258,0.00022102905,0.00018728184,0.00010533765,0.0003441519,0.00008680927],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.005472286,0.0030341053,0.43064076,0.00035247768,0.0039657154,0.00015705047,0.0013619917,0.037120707,0.017352892,0.010366854,0.48068687,0.009488285],"study_design_scores_gemma":[0.00108676,0.00090394827,0.95461076,0.00015813307,0.0005181346,0.0000019863567,0.000047228066,0.03575762,0.0042658425,0.0005859334,0.0017137296,0.00034994766],"about_ca_topic_score_codex":0.000026435484,"about_ca_topic_score_gemma":0.00009362672,"teacher_disagreement_score":0.52396995,"about_ca_system_score_codex":0.00017898512,"about_ca_system_score_gemma":0.00012043648,"threshold_uncertainty_score":0.99997807},"labels":[],"label_agreement":null},{"id":"W4392348399","doi":"10.1093/cercor/bhae046","title":"The developmental trajectory of 1H-MRS brain metabolites from childhood to adulthood","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced MRI Techniques and Applications","field":"Medicine","cited_by":26,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"National Institute of Biomedical Imaging and Bioengineering; Medical Research Council; King's College London; Canada First Research Excellence Fund; Canada Research Chairs; McGill University; National Institutes of Health; Action Medical Research; Natural Sciences and Engineering Research Council of Canada; Medical Research Council Centre for Neurodevelopmental Disorders; Johns Hopkins University","keywords":"Glutamate receptor; Brain development; Choline; Neuroscience; Creatine; Glutamine; Psychology; Human brain; Internal medicine; Biology; Medicine; Receptor; Biochemistry; Amino acid","score_opus":0.011053529394810017,"score_gpt":0.28460170136619056,"score_spread":0.27354817197138054,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392348399","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97018754,0.003417425,0.014270447,0.0066684987,0.00017837182,0.0009782823,0.00017331344,0.00039152327,0.0037346],"genre_scores_gemma":[0.9615587,0.0000918145,0.036325738,0.0009173803,0.00015572654,0.000104165476,0.000064479005,0.00002949588,0.0007525292],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.9991537,0.00001349621,0.00024148996,0.00025140878,0.00015875275,0.00018119902],"domain_scores_gemma":[0.9994475,0.000138923,0.000032343058,0.00022541634,0.000041492887,0.00011427417],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000079537305,0.00012196017,0.00018455907,0.00005217406,0.000087178974,0.000019962628,0.00012880721,0.00004989256,0.00012435853],"category_scores_gemma":[0.000064468964,0.000082012004,0.00009400655,0.00026701204,0.000055964618,0.0000483174,0.000053300275,0.00016631409,0.00006482955],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013979929,0.0003822745,0.0054670237,0.00009538196,0.0002989316,0.000026063055,0.004776398,0.0000065198824,0.3350734,0.051033948,0.04546634,0.5572339],"study_design_scores_gemma":[0.0008064872,0.00030918242,0.4397136,0.00042524753,0.00019961629,0.000057981208,0.0027969943,0.00016660163,0.17093273,0.011712407,0.37245598,0.00042319132],"about_ca_topic_score_codex":0.00003048796,"about_ca_topic_score_gemma":0.000020460031,"teacher_disagreement_score":0.55681074,"about_ca_system_score_codex":0.000044408684,"about_ca_system_score_gemma":0.00013565538,"threshold_uncertainty_score":0.33443522},"labels":[],"label_agreement":null},{"id":"W4392636954","doi":"10.1093/cercor/bhae049","title":"Functional characterization of the language network of polyglots and hyperpolyglots with precision fMRI","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":21,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Carleton University","funders":"National Institute of Neurological Disorders and Stroke; Simons Center for the Social Brain, Massachusetts Institute of Technology; McGovern Institute for Brain Research, Massachusetts Institute of Technology; National Institutes of Health","keywords":"Polyglot; First language; Multilingualism; Neuroscience of multilingualism; Language proficiency; Linguistics; Computer science; Psychology","score_opus":0.01370205235063387,"score_gpt":0.232467649793037,"score_spread":0.21876559744240312,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392636954","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9985492,0.00020913783,0.00006147533,0.00020027504,0.00044127152,0.00014810749,0.000030929245,0.000035890997,0.00032367336],"genre_scores_gemma":[0.9986871,0.000015932012,0.000024240659,0.00031298853,0.00013531373,0.000002438139,0.000008437441,0.000011270087,0.00080230576],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.999271,0.00007148511,0.00015444309,0.00023877485,0.00014333814,0.00012097824],"domain_scores_gemma":[0.9995939,0.00011609734,0.00007554662,0.00016855427,0.000020851132,0.00002506112],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007460344,0.00008846512,0.000119316035,0.00002868188,0.00005751597,0.000015966036,0.00010900157,0.00004688605,0.00007091732],"category_scores_gemma":[0.00005371363,0.000050206763,0.00003874879,0.00025572514,0.00017737239,0.00009236568,0.00007056426,0.00010502701,0.0000042879556],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000055943015,0.000015607353,0.0026490304,0.000032301465,0.0000051176216,0.000022839571,0.00032801236,0.000002750964,0.99189216,0.0005391862,0.00008071583,0.0043763113],"study_design_scores_gemma":[0.00038283222,0.00029988555,0.26192284,0.00026404439,0.000050246614,0.0005721481,0.00007850906,0.000448599,0.7349423,0.00028894865,0.0005768774,0.00017274279],"about_ca_topic_score_codex":0.000009959923,"about_ca_topic_score_gemma":0.0000061133283,"teacher_disagreement_score":0.2592738,"about_ca_system_score_codex":0.0000053587382,"about_ca_system_score_gemma":0.00004101646,"threshold_uncertainty_score":0.20473723},"labels":[],"label_agreement":null},{"id":"W4392662128","doi":"10.1093/cercor/bhae071","title":"Alexithymia modulates emotion concept activation during facial expression processing","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Psychosomatic Disorders and Their Treatments","field":"Medicine","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"","keywords":"Alexithymia; Psychology; N400; Facial expression; Toronto Alexithymia Scale; Perception; Emotional expression; Event-related potential; Clinical psychology; Cognitive psychology; Developmental psychology; Cognition; Communication; Neuroscience","score_opus":0.014522611672424935,"score_gpt":0.2741404680147069,"score_spread":0.25961785634228196,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4392662128","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9935048,0.00043589855,0.0009771383,0.00029406213,0.0002711698,0.00029769636,0.000005035824,0.00024483018,0.003969353],"genre_scores_gemma":[0.9974342,0.000012884754,0.00034065815,0.000056861223,0.00019732105,0.00001756916,0.00008813655,0.00002741686,0.0018249283],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991625,0.000013130528,0.00017666267,0.00027589928,0.00019025059,0.00018154304],"domain_scores_gemma":[0.99971145,0.000009213833,0.000043640342,0.00013161499,0.000027933762,0.0000761285],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000025425657,0.00014512459,0.00015838772,0.00008397997,0.00011345854,0.00006938683,0.000040196097,0.0000793526,0.0003085349],"category_scores_gemma":[0.000012696367,0.00011102397,0.00007013677,0.00015447183,0.000034321558,0.00029403865,0.00001825467,0.00011024205,0.00006852162],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00061676896,0.0008463374,0.06576709,0.0028131604,0.00034845542,0.00014761268,0.010029004,0.00004047336,0.6449815,0.00061649136,0.0027267335,0.2710664],"study_design_scores_gemma":[0.0037637767,0.0003321346,0.8215804,0.011524961,0.000119846256,0.00009507818,0.0010646917,0.015772637,0.13975497,0.004370466,0.0011736415,0.00044740248],"about_ca_topic_score_codex":0.000010154421,"about_ca_topic_score_gemma":4.992312e-7,"teacher_disagreement_score":0.7558133,"about_ca_system_score_codex":0.000071792616,"about_ca_system_score_gemma":0.000043083764,"threshold_uncertainty_score":0.45274258},"labels":[],"label_agreement":null},{"id":"W4393064360","doi":"10.1093/cercor/bhae083","title":"Hippocampal ripples coincide with “up-state” and spindles in retrosplenial cortex","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Lethbridge","funders":"Canadian Institutes of Health Research; Alberta Innovates; Alberta Prion Research Institute; Natural Sciences and Engineering Research Council of Canada; European Commission; University of Lethbridge; National Science Foundation","keywords":"Retrosplenial cortex; Neuroscience; Hippocampal formation; Subiculum; Neocortex; Memory consolidation; Hippocampus; Local field potential; Cortex (anatomy); Psychology; Dentate gyrus","score_opus":0.01605781269133852,"score_gpt":0.24300500828887964,"score_spread":0.22694719559754112,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393064360","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99674195,0.00013452562,0.00011918585,0.0004184014,0.0008274376,0.00026924597,0.00005591055,0.00013044124,0.0013029071],"genre_scores_gemma":[0.99655074,0.00008707261,0.000063878215,0.0004652582,0.00010706227,0.000015562868,0.000011688884,0.00003620312,0.0026625234],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983487,0.00006187728,0.00024804316,0.00068180927,0.0002825906,0.00037697118],"domain_scores_gemma":[0.9994909,0.00012759553,0.000052538693,0.00019178042,0.000019619614,0.00011753481],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00011387127,0.00022501418,0.00021723882,0.00015966604,0.000112714406,0.00024943025,0.0001404224,0.00006909314,0.00015136934],"category_scores_gemma":[0.0000728921,0.00017382453,0.00004607315,0.00044634484,0.0002117846,0.00033469117,0.000080234946,0.0003321238,0.00008593288],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00072884,0.00011023064,0.047366537,0.00026324397,0.00002590343,0.0015033757,0.00081056537,0.000047953516,0.8848695,0.020535719,0.002835523,0.040902592],"study_design_scores_gemma":[0.0029721654,0.002189534,0.85600495,0.0005932636,0.00006814973,0.0014724773,0.00026167155,0.06286217,0.04093745,0.01746846,0.013589133,0.0015805503],"about_ca_topic_score_codex":0.00009614862,"about_ca_topic_score_gemma":0.0006463895,"teacher_disagreement_score":0.8439321,"about_ca_system_score_codex":0.00006431842,"about_ca_system_score_gemma":0.0000790025,"threshold_uncertainty_score":0.70883584},"labels":[],"label_agreement":null},{"id":"W4393900579","doi":"10.1093/cercor/bhae104","title":"Functional brain networks in Developmental Topographical Disorientation","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Functional magnetic resonance imaging; Neuroscience; Functional connectivity; Resting state fMRI; Psychology; Mechanism (biology); Neuroimaging; Human brain","score_opus":0.03806143479867381,"score_gpt":0.2597423918458846,"score_spread":0.2216809570472108,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4393900579","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9746002,0.00022302914,0.00510224,0.010741652,0.0029053676,0.00029333396,0.000013195856,0.000326663,0.0057943226],"genre_scores_gemma":[0.99500835,0.000010118091,0.000075707474,0.003481983,0.00023438614,0.00005432069,0.000016620883,0.000018460134,0.0011000631],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.9985596,0.000084742685,0.00020702361,0.0005786151,0.00029589364,0.00027415308],"domain_scores_gemma":[0.9976883,0.002135932,0.000020545642,0.00008234505,0.000015950427,0.00005692426],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016966715,0.00014797285,0.000121282785,0.00020922041,0.00015229595,0.00009466654,0.000092556475,0.000067716006,0.00037651413],"category_scores_gemma":[0.001101063,0.00014010111,0.00007570186,0.0009237053,0.00013246603,0.0003295673,0.00008836218,0.00028923163,0.00017183671],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005387153,0.0005479262,0.2215344,0.00014958694,0.000098981254,0.00052422925,0.0017074483,0.0021853836,0.08723049,0.349265,0.26771653,0.06850132],"study_design_scores_gemma":[0.0008198213,0.00015852395,0.9276122,0.00008576107,0.000011813875,0.00016071512,0.00033795054,0.025507323,0.0030213036,0.010315495,0.031424243,0.0005448911],"about_ca_topic_score_codex":0.000015969104,"about_ca_topic_score_gemma":0.00016848197,"teacher_disagreement_score":0.70607775,"about_ca_system_score_codex":0.0001392053,"about_ca_system_score_gemma":0.00006954258,"threshold_uncertainty_score":0.5713157},"labels":[],"label_agreement":null},{"id":"W4394768937","doi":"10.1093/cercor/bhae145","title":"Early-stage use of hearing aids preserves auditory cortical structure in children with sensorineural hearing loss","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"St. Clair College","funders":"National Institute on Deafness and Other Communication Disorders; National Institutes of Health","keywords":"Audiology; Sensorineural hearing loss; Cochlear implant; Auditory cortex; Hearing loss; Hearing aid; Medicine; Psychology","score_opus":0.033775180336537154,"score_gpt":0.2765092891638924,"score_spread":0.24273410882735524,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4394768937","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9989964,0.00002426778,0.000039181545,0.000069969836,0.0003404928,0.00032613624,0.00003769606,0.000118317315,0.00004754496],"genre_scores_gemma":[0.9989157,0.0000054228362,0.00035876574,0.00003515604,0.00016345679,0.0000061054648,0.0000038527323,0.000037375365,0.0004741945],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9982406,0.00015132179,0.00032884558,0.0005480247,0.00036151943,0.00036972694],"domain_scores_gemma":[0.99922156,0.00028106262,0.000046300993,0.00030963655,0.00002974319,0.00011171648],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000108317836,0.00018687749,0.0002437716,0.00017530526,0.00008467615,0.00015908053,0.00015493408,0.00010190316,0.00006104055],"category_scores_gemma":[0.00028435714,0.00014420632,0.00007214529,0.00043611467,0.00025225233,0.00058173854,0.00011913701,0.0005537811,0.00000956263],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005653849,0.000036192152,0.75998926,0.00012822672,0.000011634302,0.000042072945,0.00041860793,0.0009884202,0.23627551,0.0014246374,0.00001631577,0.00061260693],"study_design_scores_gemma":[0.00027548312,0.000282044,0.9817662,0.00014663597,0.000010625907,0.000046142588,0.00002467565,0.0030477722,0.014073811,0.00009664776,0.00005527143,0.00017464212],"about_ca_topic_score_codex":0.00061283325,"about_ca_topic_score_gemma":0.00003488232,"teacher_disagreement_score":0.2222017,"about_ca_system_score_codex":0.0000582771,"about_ca_system_score_gemma":0.00007238512,"threshold_uncertainty_score":0.5880563},"labels":[],"label_agreement":null},{"id":"W4396593007","doi":"10.1093/cercor/bhae092","title":"Atypical functional connectivity between the amygdala and visual, salience regions in infants with genetic liability for autism","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"National Center for Advancing Translational Sciences; National Institute of Neurological Disorders and Stroke; National Institute of Mental Health; National Institutes of Health; National Institute on Drug Abuse; York University; Johns Hopkins University; Simons Foundation; University of Minnesota; Children's Hospital of Philadelphia; University of Alberta; University of Washington; Eunice Kennedy Shriver National Institute of Child Health and Human Development; Washington University School of Medicine in St. Louis","keywords":"Autism; Neuroscience; Functional connectivity; Salience (neuroscience); Amygdala; Psychology; Functional magnetic resonance imaging; Cognitive psychology; Developmental psychology","score_opus":0.04012429104428453,"score_gpt":0.31577155276674357,"score_spread":0.275647261722459,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4396593007","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9853581,0.00010952559,0.005891144,0.0073144576,0.000117837015,0.0008261303,0.000033596272,0.00009558125,0.00025362594],"genre_scores_gemma":[0.99935204,0.000018390461,0.00006125196,0.00015318753,0.000058233218,0.00013342114,0.000003133845,0.000022459679,0.00019789877],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9980979,0.00018849493,0.00019612652,0.0007293352,0.00035005301,0.00043806978],"domain_scores_gemma":[0.99819505,0.0014053091,0.000032088057,0.0002468536,0.000009251074,0.00011144452],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00029332237,0.00015951754,0.0001807551,0.00009815384,0.00027226648,0.00015254946,0.00020799064,0.00007649814,0.00007411565],"category_scores_gemma":[0.00035215402,0.00010728718,0.00004628831,0.0005865647,0.0006749834,0.00021809382,0.00016531952,0.0004080859,0.000024674106],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0005470529,0.0002268016,0.7769183,0.00019101883,0.000026044754,0.0000574154,0.0006693363,0.00003691446,0.004988351,0.20009346,0.0005207143,0.015724594],"study_design_scores_gemma":[0.00036805315,0.00027662012,0.9550968,0.00003374204,0.0000117415175,0.000037504073,0.000020860796,0.009432313,0.0007778058,0.033119217,0.0006771053,0.00014823208],"about_ca_topic_score_codex":0.000078775854,"about_ca_topic_score_gemma":0.00034924032,"teacher_disagreement_score":0.1781785,"about_ca_system_score_codex":0.00007360618,"about_ca_system_score_gemma":0.00019883293,"threshold_uncertainty_score":0.43750444},"labels":[],"label_agreement":null},{"id":"W4396599708","doi":"10.1093/cercor/bhae081","title":"Decreased brain iron deposition based on quantitative susceptibility mapping correlates with reduced neurodevelopmental status in children with autism spectrum disorder","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Natural Science Foundation of China","keywords":"Childhood Autism Rating Scale; Autism spectrum disorder; Autism; Receiver operating characteristic; Quantitative susceptibility mapping; Globus pallidus; Psychology; White matter; Neurodevelopmental disorder; Biomarker; Correlation; Medicine; Audiology; Internal medicine; Magnetic resonance imaging; Psychiatry; Neuroscience; Basal ganglia; Central nervous system; Biology; Genetics","score_opus":0.015701911766804875,"score_gpt":0.26747187571543446,"score_spread":0.2517699639486296,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4396599708","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9902008,0.00006125268,0.0021921021,0.00464237,0.000098318116,0.0014333129,0.00006214212,0.0003392581,0.00097041106],"genre_scores_gemma":[0.99868035,0.000010940249,0.0004762796,0.0003973141,0.00001153527,0.0000822923,0.000113440605,0.00009682593,0.0001310413],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9960162,0.00042035014,0.00036647887,0.0014338614,0.0007748093,0.0009882945],"domain_scores_gemma":[0.99879336,0.000425314,0.000093136725,0.00044286205,0.000007568842,0.00023775588],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00022664639,0.00043822284,0.0003174064,0.00053518,0.00027001725,0.00026255872,0.00030104019,0.00010108208,0.00033024064],"category_scores_gemma":[0.00014087085,0.00035425107,0.00006620065,0.0015965668,0.00037168767,0.00045096045,0.000088523484,0.0007872268,0.00012461789],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0018901409,0.0009915157,0.91483295,0.00014375533,0.00004447106,0.00044775568,0.0017333904,0.0016696701,0.04450344,0.030637462,0.00008872872,0.0030167135],"study_design_scores_gemma":[0.0019040171,0.0014785259,0.9346963,0.00027601674,0.000013977853,0.000075613774,0.00014938887,0.053325426,0.0061765625,0.0013688434,0.0000120733275,0.0005232513],"about_ca_topic_score_codex":0.0008270078,"about_ca_topic_score_gemma":0.0020457923,"teacher_disagreement_score":0.05165576,"about_ca_system_score_codex":0.00043012502,"about_ca_system_score_gemma":0.0005541689,"threshold_uncertainty_score":0.9998909},"labels":[],"label_agreement":null},{"id":"W4396622041","doi":"10.1093/cercor/bhae093","title":"Differential neural correlates underlying visuospatial versus semantic reasoning in autistic children","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; Centre Intégré Universitaire de Santé et de Services Sociaux du Centre-Sud-de-l'Île-de-Montréal; Université du Québec à Montréal","funders":"Canadian Institutes of Health Research; Hospital for Sick Children; Natural Sciences and Engineering Research Council of Canada; Canada Research Chairs; Fondation Brain Canada","keywords":"Psychology; Neurotypical; Cognitive psychology; Autism; Functional magnetic resonance imaging; Typically developing; Semantic memory; Williams syndrome; Task (project management); Cognition; Autism spectrum disorder; Developmental psychology; Neuroscience","score_opus":0.038139617268759356,"score_gpt":0.31947999067243243,"score_spread":0.28134037340367307,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4396622041","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99428535,0.00020375477,0.0008244449,0.0008841943,0.0017544304,0.00044715012,0.000018625195,0.0004037749,0.0011782844],"genre_scores_gemma":[0.99937373,0.000024117704,0.000017049442,0.00004976258,0.000110664885,0.000023743662,0.000021219188,0.000071556664,0.00030816902],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.9971733,0.00018890064,0.00034708297,0.00089481176,0.00055041874,0.0008454529],"domain_scores_gemma":[0.9991351,0.00035479813,0.00005158429,0.00032330348,0.00000530446,0.00012995514],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00008993391,0.0002889945,0.00027980312,0.00033105782,0.00023434276,0.0004208408,0.00046983382,0.00012427839,0.0010296695],"category_scores_gemma":[0.00031560357,0.0002858958,0.00011835065,0.0008052264,0.00019703146,0.00034978174,0.0002957224,0.0008744384,0.0005202727],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0019027955,0.0008633368,0.18939427,0.0005829519,0.0002044598,0.0035819046,0.0059837056,0.0010313527,0.10033087,0.60203046,0.0009800794,0.09311383],"study_design_scores_gemma":[0.001978533,0.0003761904,0.53569174,0.00022026959,0.000049704093,0.0001404219,0.00006168193,0.45336366,0.0024019002,0.0050976737,0.000021803755,0.0005964446],"about_ca_topic_score_codex":0.00048161478,"about_ca_topic_score_gemma":0.0004094298,"teacher_disagreement_score":0.59693277,"about_ca_system_score_codex":0.00017214776,"about_ca_system_score_gemma":0.00012149812,"threshold_uncertainty_score":0.9999593},"labels":[],"label_agreement":null},{"id":"W4397046502","doi":"10.1093/cercor/bhae197","title":"Parvalbumin interneurons in human ventromedial prefrontal cortex: a comprehensive post-mortem study of myelination and perineuronal nets in neurotypical individuals and depressed suicides with and without a history of child abuse","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience of respiration and sleep","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Canadian Institutes of Health Research; Fondation Brain Canada","keywords":"Parvalbumin; Neurotypical; Neuroscience; Prefrontal cortex; Perineuronal net; Psychology; Ventromedial prefrontal cortex; Interpersonal violence; Interneuron; Poison control; Medicine; Human factors and ergonomics; Developmental psychology; Cognition; Autism; Medical emergency","score_opus":0.025616843407079058,"score_gpt":0.2747835338613545,"score_spread":0.24916669045427545,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4397046502","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9987402,0.00016051444,0.000004013997,0.00010857052,0.00015508843,0.00073393655,0.000020565247,0.000026850596,0.000050282863],"genre_scores_gemma":[0.99958754,0.000023468352,0.000011202396,0.0002813733,0.0000134700285,0.00002378675,0.0000033366123,0.00002078835,0.0000350519],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99814415,0.00022375456,0.00041552895,0.0006496922,0.0003591649,0.00020771103],"domain_scores_gemma":[0.99944025,0.0001338965,0.00013225489,0.00015515377,0.000034753044,0.0001036753],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000091212096,0.00020044012,0.00034120076,0.00038263298,0.00004461282,0.00005286463,0.00014627977,0.000046771722,0.000012006362],"category_scores_gemma":[0.0001005934,0.00017670363,0.000022751805,0.00020794867,0.00053274335,0.00033312436,0.00012276505,0.00030198402,3.7606605e-7],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033585288,0.00054033747,0.38696462,0.00010268179,0.000006726939,0.00014810971,0.005968206,0.0000150778915,0.6044875,0.00024778416,0.000011276822,0.0011718645],"study_design_scores_gemma":[0.0020495106,0.002277086,0.9899621,0.000100755744,0.00001932331,0.000121112345,0.00032792994,0.002435786,0.0024189735,0.000013854534,0.00012370037,0.00014989034],"about_ca_topic_score_codex":0.00013888997,"about_ca_topic_score_gemma":0.00091114297,"teacher_disagreement_score":0.6029975,"about_ca_system_score_codex":0.000037872418,"about_ca_system_score_gemma":0.000060077014,"threshold_uncertainty_score":0.72057647},"labels":[],"label_agreement":null},{"id":"W4398184957","doi":"10.1093/cercor/bhae174","title":"The meso-connectomes of mouse, marmoset, and macaque: network organization and the emergence of higher cognition","year":2024,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":30,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"National Center for Advancing Translational Sciences; National Institute of Mental Health; Simons Foundation; National Institutes of Health; National Science Foundation","keywords":"Marmoset; Macaque; Connectome; Cognition; Neuroscience; Psychology; Biology; Cognitive psychology; Cognitive science; Functional connectivity","score_opus":0.027070770977646347,"score_gpt":0.28195988432419317,"score_spread":0.25488911334654685,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4398184957","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0016341328,0.9953972,0.000018896713,0.0001772583,0.0011297734,0.0008701766,0.00009428644,0.00004004427,0.000638215],"genre_scores_gemma":[0.01571309,0.9817432,0.0000051707166,0.00009312879,0.00012700762,0.000019878174,0.000033829994,0.000038782317,0.0022259182],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.9985724,0.0002477652,0.00046265902,0.00035706218,0.00019446925,0.00016561459],"domain_scores_gemma":[0.998547,0.0007390872,0.0003911455,0.00022190726,0.000067068846,0.000033766053],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00019273453,0.00022787727,0.00054092903,0.00004599994,0.00019271957,0.00007057939,0.00020172005,0.000115685194,0.00007053391],"category_scores_gemma":[0.000268386,0.00011133041,0.00010395372,0.000681945,0.0004020745,0.00007041045,0.00018419237,0.00023687979,0.0000074820896],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00013183516,0.000053033604,0.00008349224,0.020299433,0.0002840812,0.000012504382,0.00015402108,0.0000049836194,0.0016759379,0.23952428,0.019199036,0.7185774],"study_design_scores_gemma":[0.0023133904,0.00059138116,0.00077924336,0.010928886,0.0072386567,0.00046510462,0.0001184989,0.002493588,0.0014566572,0.03818758,0.9336128,0.0018142074],"about_ca_topic_score_codex":0.00000743769,"about_ca_topic_score_gemma":0.000009915065,"teacher_disagreement_score":0.91441375,"about_ca_system_score_codex":0.000008523846,"about_ca_system_score_gemma":0.000050634524,"threshold_uncertainty_score":0.45399225},"labels":[],"label_agreement":null},{"id":"W4399022847","doi":"10.1093/cercor/bhae211","title":"Neural computations in prosopagnosia","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal","funders":"H2020 European Research Council; Natural Sciences and Engineering Research Council of Canada; Institut de Valorisation des Données; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; National Science Foundation","keywords":"Generalization; Similarity (geometry); Neuroscience; Psychology; Brain activity and meditation; Semantics (computer science); Pattern recognition (psychology); Artificial intelligence; Computer science; Cognitive psychology; Electroencephalography; Mathematics","score_opus":0.05094537100294896,"score_gpt":0.31234528345582346,"score_spread":0.2613999124528745,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399022847","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9888554,0.000040503575,0.00017157919,0.0011854215,0.00061092555,0.00018514824,0.000016670607,0.00022995171,0.008704349],"genre_scores_gemma":[0.9981934,0.000014372789,0.000048871163,0.00082066096,0.00006504802,0.00001946602,0.00001186642,0.000010834895,0.0008155056],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9993248,0.000053359156,0.00012350186,0.0002464868,0.00010562968,0.00014620106],"domain_scores_gemma":[0.99979615,0.00007467177,0.00001063709,0.00006522906,0.000008541162,0.00004478243],"candidate_categories":["insufficient_payload"],"consensus_categories":["insufficient_payload"],"category_scores_codex":[0.000041263313,0.000070897506,0.00006305177,0.00011470545,0.000049761242,0.00010550699,0.00006631647,0.000033889504,0.00094524963],"category_scores_gemma":[0.000045104243,0.00006535913,0.00003778139,0.00035882305,0.00004326576,0.00021376625,0.000018491437,0.0001572303,0.0014464337],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000051907537,0.00036276283,0.013773453,0.00033201446,0.000006000319,0.00044381223,0.003372322,0.0008679136,0.6318487,0.03814347,0.016373051,0.29442462],"study_design_scores_gemma":[0.0009054602,0.00023264858,0.40406814,0.00025624665,0.000016577509,0.00027422947,0.00024016488,0.5465247,0.01836222,0.010846948,0.017637381,0.0006352975],"about_ca_topic_score_codex":0.000013762505,"about_ca_topic_score_gemma":0.000037505408,"teacher_disagreement_score":0.61348647,"about_ca_system_score_codex":0.000028976143,"about_ca_system_score_gemma":0.000024273844,"threshold_uncertainty_score":0.999968},"labels":[],"label_agreement":null},{"id":"W4399326981","doi":"10.1093/cercor/bhae221","title":"The large-scale organization of shape processing in the ventral and dorsal pathways is dissociable from attention","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund","keywords":"Psychology; Neuroscience; Dorsum; Visual system; Perception; Vision for perception and vision for action; Visual processing; Visual perception; Scrambling; Visual cortex; Cognitive psychology; Communication; Biology; Computer science; Anatomy","score_opus":0.02695419155987828,"score_gpt":0.2790410712038383,"score_spread":0.25208687964396004,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399326981","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977682,0.00023927892,0.0007820954,0.0006115487,0.00019423652,0.000112746144,0.000029321413,0.00004957738,0.00021300073],"genre_scores_gemma":[0.99923176,0.000039409104,0.000025792124,0.0004510834,0.000051799147,0.00000421952,0.000013220537,0.000013298823,0.00016939853],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99915737,0.000080556034,0.00016216781,0.00022982246,0.00020532467,0.0001647645],"domain_scores_gemma":[0.9997578,0.00005716624,0.000051801213,0.00008729356,0.000025835872,0.000020071539],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002113303,0.00007913197,0.00007589204,0.000026286501,0.00029441496,0.00028532854,0.00014962142,0.00005074336,0.00020194828],"category_scores_gemma":[0.000066986926,0.00004810753,0.000023560227,0.0004283294,0.00006151516,0.00022828382,0.000036494006,0.00013679921,0.000022242126],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000021246053,0.00012486114,0.009234317,0.00014329472,0.0000035366415,0.00000845091,0.028754864,0.0000019277606,0.89700377,0.004262012,0.0005744013,0.059867322],"study_design_scores_gemma":[0.0012922636,0.00027987894,0.6021593,0.0007487444,0.00010535557,0.000042421772,0.015086144,0.22192223,0.11300358,0.040467367,0.0042316224,0.0006610796],"about_ca_topic_score_codex":0.000013164698,"about_ca_topic_score_gemma":0.000017309754,"teacher_disagreement_score":0.78400016,"about_ca_system_score_codex":0.000017555198,"about_ca_system_score_gemma":0.000040161463,"threshold_uncertainty_score":0.27514297},"labels":[],"label_agreement":null},{"id":"W4399352117","doi":"10.1093/cercor/bhae224","title":"Meta-regression of sulcal patterns, clinical and environmental factors on neurodevelopmental outcomes in participants with multiple CHD types","year":2024,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Congenital Heart Disease Studies","field":"Medicine","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Health Canada","funders":"Eunice Kennedy Shriver National Institute of Child Health and Human Development; American Heart Association","keywords":"Tetralogy of Fallot; Great arteries; Cardiology; Medicine; Heart disease; Internal medicine; Neurocognitive; Heart rate; Cognition; Blood pressure; Psychiatry","score_opus":0.16265015667544702,"score_gpt":0.39020934431708343,"score_spread":0.2275591876416364,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399352117","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.5005431,0.4983046,8.328574e-8,0.000012330471,0.0001469726,0.0006117022,0.00034146925,0.000019709425,0.000020044074],"genre_scores_gemma":[0.5523102,0.44706875,0.000010830329,0.00002918567,0.0000263285,0.000045549634,0.00016635143,0.000046858662,0.0002959227],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99775594,0.00012954816,0.00083219405,0.0006134858,0.0003540403,0.00031480688],"domain_scores_gemma":[0.99906147,0.0002975638,0.00013746117,0.0002745227,0.000008308797,0.0002207078],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00011996968,0.00056801736,0.0029052747,0.00016867637,0.000032600536,0.000011353246,0.00007825218,0.00016210935,0.00012949063],"category_scores_gemma":[0.00007471197,0.00026972147,0.00054028956,0.00010241951,0.0002222398,0.00004209987,0.00021973114,0.00049271714,0.000036069323],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00010845859,0.00035102406,0.84955794,0.0046802,0.0030256934,0.00019860368,0.00009687584,1.2564842e-8,5.358236e-7,0.0000010614242,0.00005245319,0.14192714],"study_design_scores_gemma":[0.0011853586,0.00072796963,0.9609301,0.00687369,0.015961725,0.00002903427,0.0001861126,0.000015830909,0.000004220565,0.0000019680172,0.0136547405,0.00042926273],"about_ca_topic_score_codex":0.000022442284,"about_ca_topic_score_gemma":0.00010161053,"teacher_disagreement_score":0.14149788,"about_ca_system_score_codex":0.000062008956,"about_ca_system_score_gemma":0.00011666168,"threshold_uncertainty_score":0.9999755},"labels":[],"label_agreement":null},{"id":"W4399476164","doi":"10.1093/cercor/bhae238","title":"Disrupted cerebellar structural connectome in spinocerebellar ataxia type 3 and its association with transcriptional profiles","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic Neurodegenerative Diseases","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Montreal Neurological Institute and Hospital","funders":"Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China","keywords":"Spinocerebellar ataxia; White matter; Neuroscience; Connectome; Neurodegeneration; Biology; Ataxia; Transcriptome; Diffusion MRI; Pathology; Disease; Medicine; Magnetic resonance imaging; Genetics; Functional connectivity; Gene; Gene expression","score_opus":0.020500775476597417,"score_gpt":0.2599853221917617,"score_spread":0.23948454671516425,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399476164","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9971247,0.0010147227,0.000008248162,0.00037961433,0.00040698567,0.00043997384,0.00017420402,0.00012220044,0.000329355],"genre_scores_gemma":[0.9982382,0.000070251146,0.00004129027,0.0002813741,0.00009335712,0.000018394805,0.000039369505,0.000037477366,0.0011802851],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998168,0.0001560494,0.00022892388,0.00067893934,0.00041539795,0.00035272422],"domain_scores_gemma":[0.9994542,0.00013264765,0.000059234826,0.00013806444,0.00009266847,0.00012320718],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007620496,0.00023697758,0.00021058905,0.00011517441,0.00011208332,0.00017033803,0.00014196186,0.000080592814,0.00036117682],"category_scores_gemma":[0.00023921071,0.00019538646,0.000037087582,0.0006857109,0.00006538584,0.0002670219,0.00003856032,0.00022844029,0.00009233763],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0001201384,0.000033598277,0.083601154,0.00015348071,0.000020825575,0.00008936495,0.0003005074,0.00009169844,0.907393,0.007406341,0.0003631143,0.0004267695],"study_design_scores_gemma":[0.0008675749,0.00032869048,0.53536177,0.00009147073,0.000055688295,0.00006252008,0.000052331772,0.008232412,0.45280248,0.0006609651,0.0010218386,0.00046227558],"about_ca_topic_score_codex":0.000009533118,"about_ca_topic_score_gemma":0.000045032702,"teacher_disagreement_score":0.45459053,"about_ca_system_score_codex":0.000107496475,"about_ca_system_score_gemma":0.00015059533,"threshold_uncertainty_score":0.7967628},"labels":[],"label_agreement":null},{"id":"W4399718315","doi":"10.1093/cercor/bhae250","title":"Reduced gyrification in fetal growth restriction with prenatal magnetic resonance images","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Pregnancy and preeclampsia studies","field":"Medicine","cited_by":9,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; University of Ottawa","funders":"Israel Innovation Authority; Tel Aviv University; Thrasher Research Fund","keywords":"Gyrification; Fetus; Gestational age; Small for gestational age; Intrauterine growth restriction; Medicine; Internal medicine; Gestation; Pregnancy; Endocrinology; Cardiology; Obstetrics; Cerebral cortex; Biology","score_opus":0.012179151996242055,"score_gpt":0.24651364207669854,"score_spread":0.23433449008045648,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399718315","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9372326,0.03723279,0.00016940257,0.0018523232,0.0003196779,0.00059524225,0.000022377371,0.0002710716,0.022304477],"genre_scores_gemma":[0.9962495,0.0012857901,0.00049446314,0.000052718162,0.00013028726,0.00006796806,0.000042546002,0.000020357058,0.0016563457],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.999033,0.00003446947,0.00018837942,0.00035352653,0.00018492357,0.00020575352],"domain_scores_gemma":[0.9996281,0.00004292312,0.000033212196,0.0002000229,0.000045084624,0.00005061493],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008428902,0.00013739866,0.00017290562,0.0001340289,0.000054695276,0.000031230174,0.000061245286,0.00006663322,0.000050838575],"category_scores_gemma":[0.00006200818,0.000106149615,0.000041187228,0.0004515767,0.00008716973,0.00018979222,0.000025874675,0.00025811268,0.0000485478],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0030544687,0.00055282965,0.43182212,0.0031987333,0.00019961556,0.0019030225,0.0035083701,0.0000051585826,0.036184754,0.02474908,0.017042236,0.47777963],"study_design_scores_gemma":[0.0008638113,0.0005306177,0.9892753,0.0013746747,0.000071741175,0.00014404132,0.0001237518,0.00036314625,0.0050692162,0.00092582684,0.0010896386,0.0001682514],"about_ca_topic_score_codex":0.00008013923,"about_ca_topic_score_gemma":0.0000385505,"teacher_disagreement_score":0.55745316,"about_ca_system_score_codex":0.000068249494,"about_ca_system_score_gemma":0.000089010595,"threshold_uncertainty_score":0.43286556},"labels":[],"label_agreement":null},{"id":"W4399835759","doi":"10.1093/cercor/bhae220","title":"Structural connectivity changes in unilateral hearing loss","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Hospital for Sick Children; University Health Network; University of Toronto; University of New Brunswick; Canada Research Chairs; Toronto Western Hospital; Krembil Foundation","funders":"Canadian Institutes of Health Research","keywords":"Hearing loss; Connectome; Connectomics; Audiology; Diffusion MRI; Node (physics); Unilateral hearing loss; Psychology; Medicine; Neuroscience; Magnetic resonance imaging; Functional connectivity; Physics","score_opus":0.07232046924430291,"score_gpt":0.35845888716737523,"score_spread":0.2861384179230723,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399835759","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99371666,0.00011910883,0.0004048711,0.0040729814,0.00010499773,0.00023574558,0.0000068066097,0.00037984486,0.00095900096],"genre_scores_gemma":[0.9981441,0.000018827659,0.0007885761,0.00037940283,0.00010996575,0.00002415189,0.00001514904,0.000020327856,0.0004995175],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9993875,0.000009665507,0.00009487713,0.0002563743,0.00007380276,0.00017776855],"domain_scores_gemma":[0.99971056,0.00002643178,0.000013125516,0.00017966381,0.000015012556,0.000055198616],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00004090562,0.000094316114,0.00013620715,0.000087568245,0.000034853467,0.000024978244,0.00004984511,0.000036501573,0.000080417274],"category_scores_gemma":[0.000011656872,0.0000813173,0.00003485711,0.00021819385,0.000047265683,0.00007667058,0.0000464001,0.00024377146,0.000014844933],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015730126,0.00010764093,0.67590755,0.0007057946,0.00005483506,0.0012505028,0.00077712396,0.000032293847,0.11463452,0.09551401,0.00200473,0.10885371],"study_design_scores_gemma":[0.00047637487,0.00015827375,0.9489156,0.00030607733,0.000027803577,0.0005135131,0.00003369697,0.014482591,0.009999396,0.01618561,0.008650341,0.00025069978],"about_ca_topic_score_codex":0.00003933587,"about_ca_topic_score_gemma":0.00005510784,"teacher_disagreement_score":0.27300808,"about_ca_system_score_codex":0.00006248605,"about_ca_system_score_gemma":0.000024079092,"threshold_uncertainty_score":0.33160233},"labels":[],"label_agreement":null},{"id":"W4399873316","doi":"10.1093/cercor/bhae255","title":"Compensatory thickening of cortical thickness in early stage of schizophrenia","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Tryptophan and brain disorders","field":"Neuroscience","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Douglas Mental Health University Institute","funders":"Hunan Provincial Innovation Foundation for Postgraduate; Fundamental Research Funds for Central Universities of the Central South University; National Key Research and Development Program of China; China Scholarship Council; National Natural Science Foundation of China","keywords":"Psychosis; Schizophrenia (object-oriented programming); Cortex (anatomy); Abnormality; Temporal cortex; Medicine; Drug-naïve; Internal medicine; Psychology; Pathology; Audiology; Neuroscience; Psychiatry; Drug","score_opus":0.025607936664931732,"score_gpt":0.2734438354830349,"score_spread":0.2478358988181032,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4399873316","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99615985,0.00017332165,0.00011533073,0.00006922121,0.0003323819,0.00015341076,0.000030299534,0.000078733916,0.0028874474],"genre_scores_gemma":[0.999265,0.000011734863,0.00012227384,0.00011801472,0.000024059402,0.0000039540955,0.0000014152088,0.000021562264,0.00043196048],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985633,0.00013591483,0.00038263644,0.0003539054,0.00031454986,0.00024972623],"domain_scores_gemma":[0.9992511,0.0003581943,0.00006905449,0.00023232348,0.000023783037,0.000065505315],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018263476,0.00013490368,0.0002582468,0.00018510083,0.000035825553,0.000030950563,0.00027568903,0.000093860785,0.00026877804],"category_scores_gemma":[0.00024800483,0.00012224572,0.000092337374,0.0005315107,0.00036317736,0.00018079225,0.00009611675,0.00040874307,0.000050331128],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002177673,0.0001287108,0.017160634,0.0004805284,0.000008175658,0.00010180341,0.0015009622,0.000021893033,0.84642506,0.13150728,0.00010303381,0.0023441273],"study_design_scores_gemma":[0.0015039801,0.00030001727,0.68255585,0.0004484549,0.000013953501,0.000016436143,0.00054527784,0.003500247,0.30689815,0.0032085418,0.0005995531,0.00040951563],"about_ca_topic_score_codex":0.000079583326,"about_ca_topic_score_gemma":0.00005008787,"teacher_disagreement_score":0.66539526,"about_ca_system_score_codex":0.000019058089,"about_ca_system_score_gemma":0.0001279857,"threshold_uncertainty_score":0.49850357},"labels":[],"label_agreement":null},{"id":"W4400691151","doi":"10.1093/cercor/bhae289","title":"Co-learning companionship benefits word learning in a new language: Evidence from a dual-brain EEG examination","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Wilfrid Laurier University","funders":"National Natural Science Foundation of China","keywords":"Psychology; Interpersonal relationship; Context (archaeology); Language acquisition; Interpersonal communication; Cognitive psychology; Social psychology","score_opus":0.052749701430286906,"score_gpt":0.32089617415910965,"score_spread":0.26814647272882275,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400691151","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99477947,0.0020014488,0.00005406766,0.0011518934,0.00042345544,0.00022139953,0.000010244227,0.0004915496,0.0008664452],"genre_scores_gemma":[0.99270195,0.000054107317,0.000109807996,0.00083348283,0.00029311026,0.000008816982,0.00004729774,0.000038879145,0.0059125694],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9973863,0.00075570814,0.0003373201,0.0008217057,0.00027077732,0.00042819596],"domain_scores_gemma":[0.9971264,0.0024120638,0.00009222961,0.00022216055,0.000018468998,0.00012869532],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005067708,0.00024129597,0.00026212548,0.00026697945,0.00017026071,0.00021735852,0.00027651907,0.00014982652,0.00055695453],"category_scores_gemma":[0.0030243832,0.00022567544,0.00008710182,0.0006488188,0.00009930695,0.00041754657,0.00009364449,0.0010724107,0.0004124998],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000047472826,0.000039575167,0.010878098,0.000050570037,0.0000080313675,0.0025117078,0.016139025,0.00024152988,0.86587375,0.00062688877,0.001037364,0.10254596],"study_design_scores_gemma":[0.0023824014,0.0010424476,0.7255682,0.0036982915,0.000102395294,0.0012266156,0.0071075866,0.01752749,0.22532922,0.0010246127,0.01291709,0.0020736672],"about_ca_topic_score_codex":0.0006206485,"about_ca_topic_score_gemma":0.00038597258,"teacher_disagreement_score":0.7146901,"about_ca_system_score_codex":0.000069220565,"about_ca_system_score_gemma":0.00015669396,"threshold_uncertainty_score":0.9202777},"labels":[],"label_agreement":null},{"id":"W4400984413","doi":"10.1093/cercor/bhae299","title":"The characteristic pattern of functional connectivity density influenced by postmenopausal females in the preclinical stage of dementia","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Mental Health Research Topics","field":"Psychology","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institutes of Health Research; National Institutes of Health; Genentech; IXICO; H. Lundbeck A/S; Servier; Eisai; Northern California Institute for Research and Education; Pfizer; Novartis Pharmaceuticals Corporation; University of Southern California; Biogen; Eli Lilly and Company; Bristol-Myers Squibb; BioClinica; U.S. Department of Defense; Meso Scale Diagnostics; National Institute on Aging; Alzheimer's Association","keywords":"Stage (stratigraphy); Functional connectivity; Dementia; Neuroscience; Psychology; Medicine; Developmental psychology; Biology; Disease; Internal medicine","score_opus":0.0845724618563252,"score_gpt":0.41058281958694204,"score_spread":0.3260103577306168,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4400984413","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99641806,0.00083879655,0.00015018547,0.00071837945,0.0006152883,0.00047437495,0.00017246358,0.000014803363,0.00059765176],"genre_scores_gemma":[0.9988793,0.000022585256,0.0000044140525,0.0002494829,0.00006240039,0.00004635787,0.000038169193,0.000009999428,0.00068726565],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9980128,0.00059456815,0.00048317187,0.00026226026,0.0003512233,0.00029599536],"domain_scores_gemma":[0.9978918,0.0015266489,0.00012008508,0.0003478696,0.0000569813,0.000056649045],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0012274131,0.00010627939,0.00018929085,0.000042815234,0.00009016509,0.00002732908,0.00026866433,0.00008418551,0.00095791824],"category_scores_gemma":[0.00015880541,0.00006568409,0.000053004318,0.00016468047,0.0002765706,0.00006412857,0.000090445756,0.0004129213,0.000058991074],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00071318075,0.0006412336,0.9266548,0.0005760283,0.0002626352,0.000051074392,0.0018741073,8.7243984e-7,0.009546748,0.011084606,0.0037799843,0.04481473],"study_design_scores_gemma":[0.00032302353,0.0004335012,0.99649584,0.000036783673,0.000016969387,0.0000081105945,0.00040100145,0.00012950995,0.00024196348,0.00030533673,0.0015478696,0.00006008117],"about_ca_topic_score_codex":0.0006146521,"about_ca_topic_score_gemma":0.00055164297,"teacher_disagreement_score":0.06984105,"about_ca_system_score_codex":0.00004135727,"about_ca_system_score_gemma":0.000098700344,"threshold_uncertainty_score":0.99995536},"labels":[],"label_agreement":null},{"id":"W4401041116","doi":"10.1093/cercor/bhae292","title":"Auditory hemispheric asymmetry for actions and objects","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Centre for Research on Brain Language and Music; Montreal Neurological Institute and Hospital","funders":"Agence Nationale de la Recherche","keywords":"Categorization; Asymmetry; Functional magnetic resonance imaging; Psychology; Perception; Neuroscience; Computer science; Auditory scene analysis; Auditory system; Speech recognition; Cognitive psychology; Artificial intelligence; Physics","score_opus":0.04691075258644631,"score_gpt":0.3096189385354941,"score_spread":0.26270818594904777,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401041116","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98602253,0.000048277278,0.001065362,0.0003259685,0.003735315,0.00025035464,0.000021850681,0.0002644575,0.008265887],"genre_scores_gemma":[0.99327517,0.00004594299,0.00010027658,0.0011373151,0.0004893066,0.00003641937,0.0000016650099,0.000015593732,0.0048982915],"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","domain_scores_codex":[0.9990848,0.000018128323,0.00009492824,0.0004552909,0.00012859765,0.00021829682],"domain_scores_gemma":[0.9996271,0.00012398482,0.000018806384,0.00013543486,0.000010787588,0.00008388805],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005972447,0.00009605097,0.00007974576,0.000057427966,0.00020594246,0.00013931748,0.00009784584,0.00004498376,0.000105281],"category_scores_gemma":[0.00014869525,0.000085626016,0.000052610736,0.00029600752,0.000119553675,0.00034257147,0.000039793194,0.00011464532,0.00008862314],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000005585083,0.000013401605,0.000017040138,0.000038304435,7.991885e-7,0.0000064476726,0.00010111978,8.0350253e-7,0.9728089,0.0013034439,0.011524953,0.014179199],"study_design_scores_gemma":[0.00104121,0.000813458,0.0595975,0.00018543372,0.00010192774,0.00052693725,0.0006775028,0.020589905,0.36716467,0.008363625,0.5398153,0.0011225389],"about_ca_topic_score_codex":0.00000446955,"about_ca_topic_score_gemma":0.000004934088,"teacher_disagreement_score":0.6056442,"about_ca_system_score_codex":0.00003105345,"about_ca_system_score_gemma":0.00005919447,"threshold_uncertainty_score":0.34917277},"labels":[],"label_agreement":null},{"id":"W4401206819","doi":"10.1093/cercor/bhae316","title":"Cortical–subcortical interactions underlie processing of auditory predictions measured with 7T fMRI","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Concordia University; McGill University; International Laboratory for Brain, Music and Sound Research; Centre for Research on Brain Language and Music; Montreal Neurological Institute and Hospital","funders":"National Institute on Deafness and Other Communication Disorders; Canadian Institutes of Health Research; National Institutes of Health; Concordia University; Fondation Pour l'Audition; Canada Research Chairs; Natural Sciences and Engineering Research Council of Canada; Fonds de recherche du Québec; Fondation Brain Canada; McGill University","keywords":"Predictability; Auditory cortex; Neuroscience; Functional magnetic resonance imaging; Psychology; Predictive coding; Sensory system; Perception; Contrast (vision); Auditory perception; Cognitive psychology; Coding (social sciences); Computer science; Artificial intelligence; Physics","score_opus":0.03287570775490819,"score_gpt":0.2737547901080517,"score_spread":0.2408790823531435,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401206819","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9514572,0.00009857048,0.02921453,0.0014411875,0.0035566555,0.00046308275,0.000047284353,0.00068803085,0.013033449],"genre_scores_gemma":[0.9981989,0.000010357771,0.0001184143,0.00018035059,0.00026833036,0.000025952912,0.000007801587,0.00003335262,0.0011565351],"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9984598,0.00007368458,0.00031542577,0.00048247993,0.00039785905,0.00027076367],"domain_scores_gemma":[0.999268,0.00022654345,0.000072905124,0.00021663496,0.00008340012,0.00013253988],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000084985695,0.00016639344,0.00017947903,0.00014091682,0.00023349171,0.00015423994,0.00013830734,0.00006182083,0.00021214958],"category_scores_gemma":[0.00019814508,0.00012777314,0.00009038148,0.0005633991,0.0002751314,0.00053397944,0.00004455586,0.00045013413,0.000066334105],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021658927,0.0003491651,0.0010276121,0.0002864665,0.000049396036,0.00009784141,0.00023399909,0.00032359728,0.9587899,0.021488482,0.00364374,0.013493206],"study_design_scores_gemma":[0.0015871282,0.0024115504,0.14080968,0.0014205282,0.0006140885,0.0012248277,0.0007437738,0.75006056,0.07506238,0.0063919104,0.018288685,0.0013849162],"about_ca_topic_score_codex":0.000008863838,"about_ca_topic_score_gemma":0.00003789121,"teacher_disagreement_score":0.88372755,"about_ca_system_score_codex":0.00008833232,"about_ca_system_score_gemma":0.00018677462,"threshold_uncertainty_score":0.5210437},"labels":[],"label_agreement":null},{"id":"W4401412876","doi":"10.1093/cercor/bhae315","title":"Interaction of the dorsolateral prefrontal cortex with the precuneal medial parietal cortex for the monitoring of information in working memory in the macaque monkey","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Rogue Research (Canada); McGill University; Montreal Neurological Institute and Hospital","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Working memory; Dorsolateral prefrontal cortex; Prefrontal cortex; Neuroscience; Posterior parietal cortex; Precuneus; Consumer neuroscience; Neuroanatomy of memory; Psychology; Inferior parietal lobule; Retrosplenial cortex; Self-reference effect; Spatial memory; Parietal lobe; Macaque; Hippocampus; Functional magnetic resonance imaging; Cognition","score_opus":0.044926986888332604,"score_gpt":0.28683746163584706,"score_spread":0.24191047474751445,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401412876","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99524605,0.000044050892,0.00018811856,0.0006188225,0.0021126987,0.0013654144,0.000019091354,0.000024674582,0.00038106824],"genre_scores_gemma":[0.99930847,0.00001671541,0.00002243572,0.0002093462,0.00019569305,0.00015316784,0.000003918047,0.00001568961,0.00007459309],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99827504,0.00025215757,0.0004854457,0.00024892416,0.00045078024,0.00028765184],"domain_scores_gemma":[0.9984345,0.0009004344,0.00025763773,0.0003513252,0.000029541228,0.000026554426],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004275363,0.00019612756,0.0001998421,0.00008693053,0.0001986128,0.00012320692,0.0006893128,0.000084204934,0.000022813312],"category_scores_gemma":[0.00012948104,0.0000838769,0.000119453696,0.00049402425,0.00019227472,0.0006696876,0.00011575333,0.00060244655,0.0000035825065],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0030719715,0.00019106832,0.012090443,0.0004401134,0.00006315345,0.000029053874,0.047025613,0.0014584643,0.8940236,0.0039529684,0.00028391829,0.037369616],"study_design_scores_gemma":[0.001440366,0.0006524184,0.21562456,0.00069562974,0.0001063906,0.00015605957,0.008056959,0.04835962,0.7231874,0.00097598275,0.00041335745,0.00033126242],"about_ca_topic_score_codex":0.000091835005,"about_ca_topic_score_gemma":0.00032404377,"teacher_disagreement_score":0.20353411,"about_ca_system_score_codex":0.000058683658,"about_ca_system_score_gemma":0.00007883525,"threshold_uncertainty_score":0.34204006},"labels":[],"label_agreement":null},{"id":"W4401866494","doi":"10.1093/cercor/bhae343","title":"Intracortical myelin across laminae in adult individuals with 47,XXX: a 7 Tesla MRI study","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic and Clinical Aspects of Sex Determination and Chromosomal Abnormalities","field":"Biochemistry, Genetics and Molecular Biology","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University Health Network","funders":"National Institute of Mental Health","keywords":"Inferior temporal gyrus; Supernumerary; Aneuploidy; Biology; Gyrus; Temporal cortex; Parahippocampal gyrus; Cortex (anatomy); Neuroscience; Superior temporal gyrus; Temporal lobe; Chromosome; Anatomy; Genetics; Epilepsy","score_opus":0.008368361589824038,"score_gpt":0.28549200712637846,"score_spread":0.27712364553655444,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4401866494","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9972013,0.0002872468,0.000070587186,0.0004700462,0.00015230766,0.00030947407,0.00003706659,0.000040138486,0.0014318142],"genre_scores_gemma":[0.9956852,0.000047916583,0.00018916959,0.0005727036,0.00025178518,0.000058441867,0.000057652058,0.000027048576,0.0031100682],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9983919,0.00006511451,0.0003887065,0.0005382641,0.00023636692,0.00037960894],"domain_scores_gemma":[0.99945515,0.000032986678,0.000042641415,0.00026598814,0.00008166419,0.000121547346],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018870707,0.00021693239,0.00022045668,0.00004118078,0.000067987705,0.00012207784,0.00022431971,0.00015565562,0.00013899933],"category_scores_gemma":[0.00005733661,0.00016643695,0.00007618047,0.00017778328,0.00015926547,0.000008082741,0.00014352282,0.000226646,0.00007270844],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0006122326,0.0028638588,0.8937962,0.0003431769,0.0005545154,0.0009392494,0.005246378,0.00006679201,0.012806451,0.0030447084,0.0041097905,0.07561664],"study_design_scores_gemma":[0.003194187,0.0057916795,0.9539958,0.00018884357,0.000097039934,0.00014388571,0.012938452,0.00057492015,0.011702978,0.0006369885,0.009807059,0.0009281394],"about_ca_topic_score_codex":0.000038342092,"about_ca_topic_score_gemma":0.00042520824,"teacher_disagreement_score":0.0746885,"about_ca_system_score_codex":0.000013708136,"about_ca_system_score_gemma":0.00008187305,"threshold_uncertainty_score":0.67871016},"labels":[],"label_agreement":null},{"id":"W4402266104","doi":"10.1093/cercor/bhae356","title":"iTBS reveals the roles of domain-general cognitive control and language-specific brain regions during word formation rule learning","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neurobiology of Language and Bilingualism","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Wilfrid Laurier University","funders":"","keywords":"Stimulation; Functional magnetic resonance imaging; Psychology; Neuroscience; Brain stimulation; Broca's area; Insula; Brain activity and meditation; Cognition; Electroencephalography","score_opus":0.015380995124856788,"score_gpt":0.2629116702741362,"score_spread":0.2475306751492794,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402266104","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9958123,0.0013909728,0.00012727555,0.0013565519,0.00015054458,0.0002656166,0.000035426685,0.00010786363,0.0007534539],"genre_scores_gemma":[0.9975123,0.00007696791,0.000023361023,0.00083015143,0.00019012761,0.000013077051,0.000010694531,0.000017196568,0.001326142],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9987923,0.00029630668,0.00023605731,0.00031307933,0.00012598709,0.00023625724],"domain_scores_gemma":[0.99908674,0.0006136532,0.000095387106,0.00013330202,0.000025759122,0.000045151784],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00022134812,0.00013478722,0.00017360983,0.000089598565,0.00024725078,0.00007766562,0.0001360774,0.00006246254,0.000047345136],"category_scores_gemma":[0.00024885614,0.00009290794,0.00007588729,0.00018671862,0.0002420291,0.00019164801,0.00006317921,0.0002997023,0.00002280021],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000062177576,0.000011887535,0.00022265641,0.000047288122,0.0000100148245,0.00025119304,0.007197813,0.0000034090233,0.98653007,0.0016083416,0.00028746467,0.0037676757],"study_design_scores_gemma":[0.0059040175,0.0007172954,0.033113677,0.0012576714,0.00020831477,0.0056360746,0.030996097,0.0017476152,0.90008044,0.011744767,0.007231217,0.0013628241],"about_ca_topic_score_codex":0.0000059164545,"about_ca_topic_score_gemma":0.000019182038,"teacher_disagreement_score":0.08644965,"about_ca_system_score_codex":0.000012849061,"about_ca_system_score_gemma":0.000015775977,"threshold_uncertainty_score":0.37886757},"labels":[],"label_agreement":null},{"id":"W4402926658","doi":"10.1093/cercor/bhae369","title":"Left motor cortex contributes to auditory phonological discrimination","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":8,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; William Demant Fonden","keywords":"Magnetoencephalography; Primary motor cortex; Neurocomputational speech processing; Motor cortex; Auditory cortex; Superior temporal gyrus; Psychology; Neuroscience; Premotor cortex; Speech perception; Cortex (anatomy); Sensory system; Temporal cortex; Inferior frontal gyrus; Perception; Functional magnetic resonance imaging; Biology; Anatomy; Dorsum; Electroencephalography","score_opus":0.03446161344225197,"score_gpt":0.2922611008595986,"score_spread":0.25779948741734665,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402926658","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9865142,0.000027770082,0.0017503803,0.001980728,0.0056814128,0.0004216854,0.000046575657,0.00048159444,0.0030956536],"genre_scores_gemma":[0.989213,0.000027013168,0.000034664135,0.004354188,0.0004407927,0.000031344498,0.000007374735,0.000019565949,0.005872088],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9981194,0.000078923265,0.00023799813,0.0008078541,0.00033384544,0.00042197778],"domain_scores_gemma":[0.99936306,0.00014478368,0.000034095643,0.00026530444,0.000034593482,0.00015816867],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00014044082,0.00018646104,0.00017269961,0.00020520287,0.00022190795,0.00027642635,0.00034124104,0.00009671688,0.0005735853],"category_scores_gemma":[0.0004914954,0.00015168132,0.00010037283,0.00040599666,0.00020792373,0.00046043386,0.00013816838,0.00023851091,0.0017629137],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000020723808,0.00004230325,0.00008157754,0.000015658508,0.0000013047422,0.00004497018,0.00017457028,0.0000015158581,0.9753374,0.0033882644,0.0141839,0.006707853],"study_design_scores_gemma":[0.0005091151,0.0007997662,0.7251236,0.00015681505,0.000050956733,0.00013869638,0.00023759285,0.0063046888,0.11080054,0.0055430406,0.14962548,0.0007097146],"about_ca_topic_score_codex":0.000011706925,"about_ca_topic_score_gemma":0.000015890171,"teacher_disagreement_score":0.8645368,"about_ca_system_score_codex":0.00012494587,"about_ca_system_score_gemma":0.000081029255,"threshold_uncertainty_score":0.9990143},"labels":[],"label_agreement":null},{"id":"W4402939082","doi":"10.1093/cercor/bhae386","title":"Aβ remotely and locally facilitates Alzheimer’s disease tau spreading","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Canadian Institutes of Health Research; National Institutes of Health; Genentech; IXICO; H. Lundbeck A/S; Servier; Eisai; Northern California Institute for Research and Education; Pfizer; Novartis Pharmaceuticals Corporation; University of Southern California; Biogen; Eli Lilly and Company; Bristol-Myers Squibb; BioClinica; U.S. Department of Defense; Alzheimer's Disease Neuroimaging Initiative; Meso Scale Diagnostics; Alzheimer's Association","keywords":"Amyloid (mycology); Neuroscience; Magnetic resonance imaging; Functional magnetic resonance imaging; Amyloid beta; Alzheimer's disease; Connectome; BETA (programming language); Pathology; Psychology; Medicine; Disease; Functional connectivity; Computer science","score_opus":0.04999069755085119,"score_gpt":0.28072511103053877,"score_spread":0.23073441347968757,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4402939082","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9688376,0.00653451,0.0006167734,0.013771812,0.0017717191,0.00048189663,0.00015930583,0.0007982545,0.007028094],"genre_scores_gemma":[0.9960595,0.000064036045,0.000076970544,0.0020223635,0.00014239496,0.000013447219,0.0000034638097,0.000025459056,0.0015923686],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99845207,0.000071433824,0.00016301833,0.0007457609,0.00026595578,0.00030178274],"domain_scores_gemma":[0.9973877,0.0021612258,0.000023324372,0.00021439863,0.000027986573,0.00018538056],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010510064,0.0001970272,0.00016326334,0.00009995216,0.00024203653,0.00017847307,0.00013251217,0.00003874983,0.00011600889],"category_scores_gemma":[0.0025671222,0.00017466051,0.00007722891,0.00026409756,0.0002647252,0.00036359488,0.00018042151,0.00018831714,0.0003531055],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00089587,0.00033087432,0.031006837,0.0010838736,0.00047447602,0.002539863,0.0039746356,0.0002050584,0.3333099,0.14906462,0.17444552,0.30266848],"study_design_scores_gemma":[0.0015357466,0.00091234216,0.56994015,0.00082453416,0.00059087126,0.00037164395,0.000788562,0.059771635,0.043012314,0.08795982,0.23164813,0.0026442492],"about_ca_topic_score_codex":0.000032778036,"about_ca_topic_score_gemma":0.00001738164,"teacher_disagreement_score":0.53893334,"about_ca_system_score_codex":0.000039021103,"about_ca_system_score_gemma":0.00007137741,"threshold_uncertainty_score":0.7122449},"labels":[],"label_agreement":null},{"id":"W4403295081","doi":"10.1093/cercor/bhae406","title":"Neural representations of beat and rhythm in motor and association regions","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canada First Research Excellence Fund; James S. McDonnell Foundation","keywords":"Rhythm; Beat (acoustics); Association (psychology); Neuroscience; Psychology; Cognitive psychology; Medicine; Physics; Internal medicine","score_opus":0.03209072395666388,"score_gpt":0.297589686793738,"score_spread":0.2654989628370741,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403295081","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99781847,0.00003401053,0.000023576617,0.00090675044,0.00025904097,0.00013617518,0.000015752425,0.00003718526,0.0007690561],"genre_scores_gemma":[0.998076,0.000114934606,0.000016598311,0.00029571608,0.00003907653,0.000009082468,0.0000014258665,0.000005565933,0.0014415522],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9992586,0.00004853432,0.00013252618,0.00029380235,0.00014063835,0.00012593534],"domain_scores_gemma":[0.9996937,0.00012860085,0.00003535872,0.00009174056,0.0000106219595,0.000039983966],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000084191764,0.000058041413,0.00007957036,0.000115534946,0.000060127604,0.000061547034,0.000042111125,0.00003509081,0.000019243613],"category_scores_gemma":[0.00023429317,0.000054042972,0.000020943786,0.0002939606,0.00008661967,0.00035810887,0.00004276617,0.00010177514,0.0000050911076],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000006026455,0.00001689366,0.012423047,0.000023706514,7.0646064e-7,0.00001910492,0.0005376086,0.0000023736322,0.97988915,0.0035599798,0.00063252717,0.0028888693],"study_design_scores_gemma":[0.00026683076,0.00011529219,0.9731734,0.00004853802,0.000013803429,0.00009491757,0.00016326085,0.011983884,0.01075217,0.002363825,0.0008928985,0.00013117453],"about_ca_topic_score_codex":0.00006289147,"about_ca_topic_score_gemma":0.000044610526,"teacher_disagreement_score":0.969137,"about_ca_system_score_codex":0.00002825288,"about_ca_system_score_gemma":0.00001642723,"threshold_uncertainty_score":0.22038084},"labels":[],"label_agreement":null},{"id":"W4403319443","doi":"10.1093/cercor/bhae407","title":"Functional specialization and distributed processing across marmoset lateral prefrontal subregions","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Robarts Clinical Trials; Western University","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Canada First Research Excellence Fund","keywords":"Marmoset; Prefrontal cortex; Neuroscience; Functional specialization; Psychology; Primate; Working memory; Callithrix; Ventrolateral prefrontal cortex; Cognitive psychology; Cognition; Biology","score_opus":0.029799228955800526,"score_gpt":0.26777598589100926,"score_spread":0.23797675693520873,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403319443","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.990635,0.00008099063,0.0061639138,0.00071211054,0.0012088608,0.000175238,0.00028982697,0.00025049082,0.00048357653],"genre_scores_gemma":[0.99676174,0.000015414138,0.000018021408,0.00028788036,0.00032355342,0.000010633436,0.00025409437,0.000020401605,0.0023082749],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9989193,0.00003331291,0.00016197748,0.0004461491,0.00018901666,0.00025021308],"domain_scores_gemma":[0.9997317,0.00004031529,0.000036433037,0.000088935514,0.000025355665,0.00007724509],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005806451,0.00013702754,0.000098313205,0.0000408995,0.00031754666,0.0004224129,0.00006648349,0.000062738676,0.00016960688],"category_scores_gemma":[0.000043454274,0.00011803138,0.000044759738,0.00029513988,0.00011366869,0.00048568365,0.00007214718,0.00015092663,0.000047623354],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00042392028,0.00024076081,0.021439888,0.00054431317,0.00003555617,0.00031039584,0.00129476,0.00023111778,0.7718017,0.040628612,0.022534722,0.14051422],"study_design_scores_gemma":[0.00089638395,0.00024750503,0.7088408,0.00016980816,0.000046573376,0.0006614591,0.00012719174,0.23999482,0.0074598487,0.0077456073,0.03309613,0.0007138779],"about_ca_topic_score_codex":0.000011233135,"about_ca_topic_score_gemma":0.000031447707,"teacher_disagreement_score":0.7643419,"about_ca_system_score_codex":0.000058371483,"about_ca_system_score_gemma":0.00003669824,"threshold_uncertainty_score":0.481318},"labels":[],"label_agreement":null},{"id":"W4403481707","doi":"10.1093/cercor/bhae417","title":"On role models and Joe LeDoux","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; Hospital for Sick Children; University of Toronto","funders":"National Institute of Mental Health; Canadian Institutes of Health Research; Natural Sciences and Engineering Research Council of Canada; Fondation Brain Canada","keywords":"Popularity; TRACE (psycholinguistics); Cognitive science; Neuroscience; Amygdala; Psychology; Social psychology","score_opus":0.07745763050782453,"score_gpt":0.30190709354077766,"score_spread":0.22444946303295313,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403481707","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9730676,0.00013113757,0.00024909608,0.00031902912,0.00064590765,0.0001339464,0.000010116756,0.00021647377,0.025226686],"genre_scores_gemma":[0.9933325,0.000025505213,0.000024947469,0.0014966085,0.000080816,0.000008557878,8.556457e-7,0.000018617222,0.005011614],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9990434,0.000045927067,0.00010523551,0.00043610856,0.00016276716,0.0002065547],"domain_scores_gemma":[0.99957865,0.00012847515,0.000014863925,0.00017216554,0.000005285641,0.00010057609],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000059127542,0.00012202563,0.00010279762,0.000061458915,0.000106634245,0.000114349175,0.00012314066,0.000049598562,0.0003494221],"category_scores_gemma":[0.000046434943,0.00009694713,0.000040652383,0.0001370399,0.000043021748,0.00025368814,0.000058404843,0.00018354144,0.00045528635],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000026629996,0.000016759263,0.0000028713896,0.000023885172,0.0000016487729,0.00008652168,0.00012510599,0.000027143256,0.69156784,0.29841223,0.00072663446,0.008982752],"study_design_scores_gemma":[0.00012987098,0.00020768077,0.000056024433,0.000040898733,0.000007102235,0.000060334383,0.000017576367,0.0443347,0.72218347,0.23213267,0.0006796014,0.00015006348],"about_ca_topic_score_codex":0.0000016974061,"about_ca_topic_score_gemma":0.0000013733354,"teacher_disagreement_score":0.066279545,"about_ca_system_score_codex":0.000011067929,"about_ca_system_score_gemma":0.000015956044,"threshold_uncertainty_score":0.5851937},"labels":[],"label_agreement":null},{"id":"W4403663151","doi":"10.1093/cercor/bhae423","title":"Longitudinal association of depressive symptoms with cognition and neuroimaging biomarkers in cognitively unimpaired older adults, mild cognitive impairment, and Alzheimer’s disease","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Dementia and Cognitive Impairment Research","field":"Medicine","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"West China Hospital, Sichuan University; National Institutes of Health; H. Lundbeck A/S; Servier; Eisai; Genentech; IXICO; National Natural Science Foundation of China; Northern California Institute for Research and Education; Pfizer; Novartis Pharmaceuticals Corporation; University of Southern California; Sichuan University; Biogen; BioClinica; Eli Lilly and Company; Bristol-Myers Squibb; U.S. Department of Defense; Meso Scale Diagnostics; Alzheimer's Association; Canadian Institutes of Health Research; National Science Foundation","keywords":"Montreal Cognitive Assessment; Dementia; Cognition; Geriatric Depression Scale; Clinical Dementia Rating; Psychology; Neuroimaging; Depression (economics); Mini–Mental State Examination; Clinical psychology; Alzheimer's disease; Cognitive decline; Disease; Psychiatry; Medicine; Internal medicine; Cognitive impairment; Depressive symptoms","score_opus":0.014263107378847043,"score_gpt":0.28640853989842086,"score_spread":0.2721454325195738,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4403663151","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99347305,0.0033098918,0.00008377871,0.0005472159,0.00004846678,0.001609098,0.00018468019,0.00006944684,0.0006743889],"genre_scores_gemma":[0.9990316,0.0002192051,0.000023371787,0.00016792698,0.00004996753,0.00011671946,0.00025809713,0.000038688373,0.00009440201],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9979766,0.0001462712,0.00031657206,0.000629108,0.0005024687,0.00042898985],"domain_scores_gemma":[0.9988047,0.00030260984,0.00012440943,0.00008844112,0.00036909743,0.00031074317],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026418196,0.00026768295,0.00033643073,0.0004084226,0.000082895116,0.000093251554,0.000041214847,0.00007281803,0.00013011273],"category_scores_gemma":[0.00010531788,0.00022801601,0.00006893279,0.0004681774,0.00026055885,0.00035571234,0.00008330525,0.0002732156,0.000007931506],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0030084716,0.00031941582,0.97441304,0.0005118291,0.0009855113,0.00049390073,0.00040385366,5.8127153e-8,0.00029461234,0.00001767166,0.0001194247,0.019432236],"study_design_scores_gemma":[0.008048821,0.00092801586,0.98151857,0.00400428,0.001723269,0.00007076068,0.00085773214,0.0014024867,0.0011323844,0.00006804228,0.000006397665,0.00023923059],"about_ca_topic_score_codex":0.00007687533,"about_ca_topic_score_gemma":0.00003327866,"teacher_disagreement_score":0.019193005,"about_ca_system_score_codex":0.000071183,"about_ca_system_score_gemma":0.00019632181,"threshold_uncertainty_score":0.9298223},"labels":[],"label_agreement":null},{"id":"W4404183562","doi":"10.1093/cercor/bhae434","title":"Oculomotor functional connectivity associated with motor sequence learning","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Vestibular and auditory disorders","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"GF Strong Rehabilitation Centre; University of British Columbia","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Neuroscience; Functional connectivity; Sequence (biology); Motor learning; Psychology; Biology; Genetics","score_opus":0.03511758338864712,"score_gpt":0.2530935889041864,"score_spread":0.21797600551553925,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404183562","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99110687,0.000058873156,0.0023024636,0.00026327762,0.0010500235,0.00019610475,0.000037709622,0.000633904,0.004350773],"genre_scores_gemma":[0.9943721,0.000003941474,0.000018505278,0.0003116952,0.00018254717,0.000020983862,0.00001694227,0.000032057065,0.0050412156],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.998563,0.00014160674,0.0001226698,0.00052669365,0.00034133648,0.00030471155],"domain_scores_gemma":[0.9993891,0.00029650558,0.000049462153,0.0001292988,0.00003563616,0.000099961624],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00012850553,0.00017001799,0.00014202899,0.00007299271,0.00026417075,0.0001575716,0.00012594971,0.00007143634,0.0005947079],"category_scores_gemma":[0.00075658655,0.00014028956,0.00007029685,0.00038327626,0.00016579585,0.00035335464,0.000038002167,0.00041146367,0.00034920595],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015126621,0.00021113928,0.027965724,0.00008541076,0.00008375615,0.000513746,0.00035420895,0.0029680377,0.9492433,0.0065257396,0.0056798123,0.0062178457],"study_design_scores_gemma":[0.0043853335,0.0045435387,0.4902152,0.0013217771,0.00035645007,0.00071673584,0.0005501395,0.28598163,0.12862296,0.0065344456,0.072805405,0.003966378],"about_ca_topic_score_codex":0.000014475056,"about_ca_topic_score_gemma":0.000016247222,"teacher_disagreement_score":0.82062036,"about_ca_system_score_codex":0.00009470864,"about_ca_system_score_gemma":0.00015590558,"threshold_uncertainty_score":0.65116346},"labels":[],"label_agreement":null},{"id":"W4404226359","doi":"10.1093/cercor/bhae433","title":"Specific inhibition and disinhibition in the higher-order structure of a cortical connectome","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Mila - Quebec Artificial Intelligence Institute","funders":"Alliance de recherche numérique du Canada; Fonds de Recherche du Québec - Santé; Board of the Swiss Federal Institutes of Technology; Centre de recherche du CHU Sainte-Justine; Institut de Valorisation des Données; École Polytechnique Fédérale de Lausanne; Canadian Institute for Advanced Research; Google","keywords":"Disinhibition; Connectome; Neuroscience; Psychology; Order (exchange); Connectomics; Functional connectivity","score_opus":0.027233800964128894,"score_gpt":0.2598484340266119,"score_spread":0.232614633062483,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404226359","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9928257,0.0003020603,0.00007127553,0.005027949,0.000432268,0.00022735079,0.000058386802,0.000051688643,0.0010033572],"genre_scores_gemma":[0.9986308,0.000026983342,0.000025324036,0.0010980092,0.00013114298,0.000007991072,0.000007075583,0.000011877772,0.00006076366],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99882776,0.00015152393,0.0001931438,0.00039353702,0.0002688414,0.00016521917],"domain_scores_gemma":[0.9976724,0.0021012821,0.00003203296,0.00014193093,0.00002661641,0.000025774158],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000115183466,0.00012292134,0.00014498355,0.000105286075,0.000097367214,0.000074561634,0.00006322823,0.000056644905,0.00018122178],"category_scores_gemma":[0.0005998211,0.000085238615,0.000037463218,0.00057327177,0.0002890326,0.00020785649,0.00005527939,0.000273858,0.000015401143],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005866014,0.00005978983,0.0016263997,0.00008597312,0.00000693574,0.00007149349,0.0010739003,0.000007104484,0.826351,0.16546355,0.0039154775,0.0012797376],"study_design_scores_gemma":[0.0014076015,0.0006078664,0.7303464,0.00033758243,0.00004364965,0.0003540639,0.00069932174,0.0010123064,0.15484442,0.0995843,0.010213611,0.00054886984],"about_ca_topic_score_codex":0.000011333632,"about_ca_topic_score_gemma":0.000039214727,"teacher_disagreement_score":0.72872,"about_ca_system_score_codex":0.000034361397,"about_ca_system_score_gemma":0.000021752652,"threshold_uncertainty_score":0.34759298},"labels":[],"label_agreement":null},{"id":"W4404260599","doi":"10.1093/cercor/bhae443","title":"Effects of parental socioeconomic status on offspring’s fetal neurodevelopment","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Birth, Development, and Health","field":"Medicine","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University","funders":"Fondation pour la Recherche Médicale; Agence Nationale de la Recherche","keywords":"Socioeconomic status; Offspring; Brain size; Psychology; Anterior cingulate cortex; Developmental psychology; Birth weight; Brain morphometry; Structural equation modeling; Cognition; Pregnancy; Magnetic resonance imaging; Medicine; Neuroscience; Biology; Population; Genetics","score_opus":0.013406245913279088,"score_gpt":0.270408733736295,"score_spread":0.2570024878230159,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404260599","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99257225,0.0004583887,0.000023037115,0.0004380185,0.0013604722,0.00045460224,0.000012025677,0.0001251359,0.004556071],"genre_scores_gemma":[0.9955321,0.002514127,0.00042171148,0.0009576988,0.0001430662,0.000020466905,0.000046584944,0.0000385048,0.00032576144],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9986491,0.000025511632,0.00034559754,0.00037517265,0.0002031214,0.00040147666],"domain_scores_gemma":[0.99945575,0.00006399306,0.00006241311,0.00015945458,0.000025413008,0.00023298772],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000097430355,0.00019150019,0.00034927524,0.00014092246,0.000060175982,0.000020312691,0.000068402354,0.00008551965,0.00031050996],"category_scores_gemma":[0.000017659704,0.0001668469,0.00010233844,0.00008244929,0.00006350045,0.000057636797,0.000050045004,0.00029199108,0.000531065],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0013449106,0.0014362691,0.47935352,0.015455476,0.0012413987,0.0010046546,0.0067414423,0.000006447926,0.05602582,0.20271292,0.03516794,0.1995092],"study_design_scores_gemma":[0.0011890841,0.0004776068,0.9826191,0.00031321877,0.00005445757,0.00002408288,0.000073536925,0.00010997011,0.011624333,0.0013092818,0.0020285647,0.00017678377],"about_ca_topic_score_codex":0.000074657306,"about_ca_topic_score_gemma":0.00001787454,"teacher_disagreement_score":0.50326556,"about_ca_system_score_codex":0.00028191865,"about_ca_system_score_gemma":0.0006539588,"threshold_uncertainty_score":0.68259436},"labels":[],"label_agreement":null},{"id":"W4404320921","doi":"10.1093/cercor/bhae415","title":"Neural signatures of visual awareness independent of postperceptual processing","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":19,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Templeton World Charity Foundation; Canadian Institute for Advanced Research; American Psychological Foundation; National Science Foundation","keywords":"P3b; Psychology; Perception; Stimulus (psychology); Consciousness; Preconscious; Electroencephalography; Cognitive psychology; Backward masking; Neural correlates of consciousness; Visual perception; Event-related potential; Neuroscience; Cognition; Unconscious mind","score_opus":0.024264640861577976,"score_gpt":0.29263734656378354,"score_spread":0.26837270570220556,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404320921","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99789417,0.00018173047,0.0001556813,0.000106147105,0.00088037405,0.00014064428,0.00002742575,0.00008504802,0.00052880996],"genre_scores_gemma":[0.99939144,0.000007777768,0.000013540387,0.00015348532,0.000097486634,0.0000038243334,0.000008358994,0.000022652323,0.00030141053],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998704,0.000057679124,0.00029130097,0.00037698873,0.00036951623,0.0002004766],"domain_scores_gemma":[0.99958336,0.00009676241,0.00009056263,0.00011963018,0.000055937937,0.00005376615],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00008028423,0.00014294105,0.00019464873,0.00014107922,0.00006607604,0.000056623172,0.00018816597,0.00008488482,0.00012264689],"category_scores_gemma":[0.00008300894,0.00011477508,0.00010272818,0.00038809457,0.00014333264,0.0002661821,0.00008941551,0.00022699012,0.000008517654],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005583524,0.00006402067,0.000989565,0.00020137282,0.0000039502584,0.000022580625,0.0001863327,0.00012665511,0.9789636,0.0015362941,0.00008614715,0.01776361],"study_design_scores_gemma":[0.00048069752,0.0009734238,0.073927395,0.00029693884,0.000051583123,0.00008825302,0.00028283647,0.259385,0.66239023,0.0014218491,0.0002736739,0.00042814424],"about_ca_topic_score_codex":0.000032048894,"about_ca_topic_score_gemma":0.000010331208,"teacher_disagreement_score":0.3165734,"about_ca_system_score_codex":0.000022508868,"about_ca_system_score_gemma":0.000092802686,"threshold_uncertainty_score":0.46803918},"labels":[],"label_agreement":null},{"id":"W4404571497","doi":"10.1093/cercor/bhae444","title":"Monitoring of nonspatial information within working memory in the common marmoset (<i>Callithrix jacchus</i>)","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Rogue Research (Canada); Montreal Neurological Institute and Hospital","funders":"Canada First Research Excellence Fund; Natural Sciences and Engineering Research Council of Canada; Mitacs; McGill University","keywords":"Marmoset; Callithrix; Working memory; Macaque; Primate; Cognition; Neuroscience; Dorsolateral prefrontal cortex; Psychology; Dorsolateral; Cognitive psychology; Prefrontal cortex; Biology","score_opus":0.0650329418853288,"score_gpt":0.3034505279868961,"score_spread":0.2384175861015673,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404571497","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9947132,0.00006134838,0.00018477126,0.00018436195,0.0017839619,0.0003057393,0.000010328708,0.00008203371,0.0026742627],"genre_scores_gemma":[0.99921894,0.000018689761,0.000104458355,0.0004251882,0.00014633326,0.000022434831,0.0000035566363,0.000010891127,0.000049522594],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99855083,0.00019915872,0.0004323053,0.00021169688,0.00037718267,0.0002288025],"domain_scores_gemma":[0.9992536,0.00031782134,0.00010816353,0.00026566884,0.000012299381,0.000042453],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00043088372,0.00014569283,0.00016638108,0.00012885798,0.00010458362,0.00013309135,0.0004056017,0.000072817966,0.00005178078],"category_scores_gemma":[0.000121822784,0.000103827544,0.00006474568,0.00051567185,0.000063003856,0.00060494203,0.00007740271,0.00040771734,0.00006928575],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0002518599,0.000107643966,0.006897163,0.00040536706,0.000010274524,0.00021285428,0.0144938035,0.00029100868,0.84036106,0.01881827,0.00032279541,0.11782793],"study_design_scores_gemma":[0.0003079881,0.00014297775,0.0077911858,0.00036091023,0.0000137596335,0.00006113456,0.00073006307,0.004839834,0.98176837,0.0035569572,0.00023913107,0.00018767208],"about_ca_topic_score_codex":0.000025123456,"about_ca_topic_score_gemma":0.000020013478,"teacher_disagreement_score":0.14140736,"about_ca_system_score_codex":0.000028001721,"about_ca_system_score_gemma":0.000037197544,"threshold_uncertainty_score":0.42339644},"labels":[],"label_agreement":null},{"id":"W4404597328","doi":"10.1093/cercor/bhae455","title":"Introspective psychophysics for the study of subjective experience","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":10,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research","funders":"","keywords":"Introspection; Psychophysics; Psychology; Cognitive psychology; Perception; Phenomenology (philosophy); Cognitive science; Neuroscience; Epistemology","score_opus":0.03135590771844033,"score_gpt":0.3058260289288665,"score_spread":0.2744701212104262,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404597328","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9944737,0.000030667554,0.0020834247,0.00015914718,0.001638869,0.00090538495,0.000021450212,0.00006603336,0.0006213526],"genre_scores_gemma":[0.9990614,0.0000069034036,0.000010577981,0.0001542557,0.00015541163,0.00014101164,6.931958e-7,0.000015612408,0.00045411428],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99911433,0.00003435267,0.00014559757,0.00038035135,0.00017728344,0.00014809147],"domain_scores_gemma":[0.99919677,0.00046824882,0.000047117195,0.00021885833,0.00004457582,0.00002444314],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006155523,0.00010364784,0.00011075494,0.000037519876,0.00015542199,0.00006790725,0.00020469989,0.000021725704,0.000024171099],"category_scores_gemma":[0.00011019381,0.00006558752,0.00007556429,0.00038925765,0.00009967888,0.00016068325,0.00004592256,0.00012420276,0.000010519801],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00052693207,0.00085274165,0.0029902305,0.000079185666,0.00007511032,0.000017594019,0.019161055,0.00016409007,0.8157683,0.1131281,0.0012268773,0.046009786],"study_design_scores_gemma":[0.0041242214,0.011028071,0.29960248,0.00014042533,0.00026385603,0.000060933227,0.027399246,0.27978313,0.26468828,0.10695317,0.0046551125,0.0013010773],"about_ca_topic_score_codex":0.00003450841,"about_ca_topic_score_gemma":0.000024574905,"teacher_disagreement_score":0.55108,"about_ca_system_score_codex":0.000031795407,"about_ca_system_score_gemma":0.000019463125,"threshold_uncertainty_score":0.26745814},"labels":[],"label_agreement":null},{"id":"W4404650976","doi":"10.1093/cercor/bhae454","title":"When emotion and time meet from human and rodent perspectives: a central role for the amygdala?","year":2024,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Centre National de la Recherche Scientifique; York University; City University of New York; National Science Foundation","keywords":"Amygdala; Time perception; Stimulus (psychology); Neuroscience; Psychology; Arousal; Cognitive psychology; Perception; Prefrontal cortex; Context (archaeology); Cognition; Biology","score_opus":0.051707680783926666,"score_gpt":0.32063117519539824,"score_spread":0.26892349441147156,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404650976","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.018685933,0.9767303,0.00005427533,0.00027025997,0.0008233662,0.00214139,0.00047810617,0.00015229644,0.0006641092],"genre_scores_gemma":[0.014338306,0.9820432,0.00002190968,0.00027122188,0.0006265412,0.0001212202,0.000033885117,0.000057099194,0.0024866352],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99797,0.00011725657,0.00028445,0.0010342073,0.00023554477,0.00035854493],"domain_scores_gemma":[0.9992506,0.00016083645,0.00013855442,0.00031744488,0.000017606988,0.000114958915],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013019342,0.00033876594,0.00053637585,0.00009484858,0.00038974962,0.00040568583,0.00030910556,0.00013423162,0.00013091342],"category_scores_gemma":[0.000096075,0.0002131119,0.00021501574,0.00014779072,0.00029959113,0.00022372065,0.00020074543,0.0002659196,0.000054925484],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000024594981,0.00015333481,0.000009821059,0.0030723799,0.00007069997,0.000031560303,0.011412117,3.8128397e-7,0.031885672,0.008735192,0.015157222,0.929447],"study_design_scores_gemma":[0.0003933911,0.0003201588,0.00092325034,0.002608876,0.001643236,0.00014339064,0.0010007524,0.0010362911,0.000051964354,0.006572578,0.9845661,0.0007400093],"about_ca_topic_score_codex":0.00007209301,"about_ca_topic_score_gemma":0.00002137694,"teacher_disagreement_score":0.96940887,"about_ca_system_score_codex":0.00008934855,"about_ca_system_score_gemma":0.000072812414,"threshold_uncertainty_score":0.8690451},"labels":[],"label_agreement":null},{"id":"W4404650993","doi":"10.1093/cercor/bhae442","title":"Cardiac cycle modulates alpha and beta suppression during motor imagery","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":12,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Quest University Canada","funders":"Agencia Estatal de Investigación; Eusko Jaurlaritza; University of London","keywords":"Diastole; Systole; Alpha (finance); Cardiac cycle; Electroencephalography; Neuroscience; Isometric exercise; Psychology; Cardiology; Internal medicine; Medicine; Blood pressure; Developmental psychology","score_opus":0.013214103513914232,"score_gpt":0.2518263434244289,"score_spread":0.23861223991051467,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404650993","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9958305,0.0008671438,0.000033867196,0.00030804533,0.0013279793,0.0001451224,0.00004597681,0.00028548692,0.0011558966],"genre_scores_gemma":[0.9974142,0.000058483274,0.00009138226,0.00012216828,0.0002570699,0.000007725962,0.0000029134796,0.000027324524,0.0020187483],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99875563,0.000060863476,0.00016724791,0.00055182446,0.00017441977,0.0002900128],"domain_scores_gemma":[0.9994941,0.00014346994,0.000026121683,0.00021915654,0.000011358663,0.00010584332],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00006554572,0.000166169,0.00017605316,0.00008741084,0.00014696094,0.0003081743,0.00018026885,0.000057841342,0.000090834976],"category_scores_gemma":[0.000030181744,0.00013386115,0.00009011686,0.00012696025,0.000096218275,0.00042310776,0.00023169069,0.00018589152,0.00009598539],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000012404988,0.000013232593,0.001460874,0.00010053597,0.000008628691,0.00006085016,0.00026923718,0.000008343972,0.99325293,0.00021829605,0.00105705,0.0035376188],"study_design_scores_gemma":[0.00017244328,0.00006910168,0.06731784,0.00017576355,0.000018400848,0.00005754033,0.0000393223,0.016001875,0.91307664,0.00070740085,0.0020865893,0.00027709434],"about_ca_topic_score_codex":0.000014940824,"about_ca_topic_score_gemma":7.214367e-7,"teacher_disagreement_score":0.0801763,"about_ca_system_score_codex":0.000019191713,"about_ca_system_score_gemma":0.000014896343,"threshold_uncertainty_score":0.54586995},"labels":[],"label_agreement":null},{"id":"W4404681640","doi":"10.1093/cercor/bhae465","title":"Neuronal viability/astrocyte activity ratio in the dorsolateral prefrontal cortex as a biomarker of Alzheimer’s dementia: a proton magnetic resonance spectroscopy study","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canada Research Chairs; University of Toronto; Centre for Addiction and Mental Health; University of New Brunswick","funders":"W. Garfield Weston Foundation; Brain and Behavior Research Foundation","keywords":"Dorsolateral prefrontal cortex; Dementia; Neuroscience; Prefrontal cortex; Astrocyte; Proton magnetic resonance; Psychology; Biomarker; Dorsolateral; Alzheimer's disease; Nuclear magnetic resonance; Medicine; Chemistry; Pathology; Central nervous system; Cognition; Disease; Biochemistry; Physics","score_opus":0.02756484026067625,"score_gpt":0.32588911096835604,"score_spread":0.2983242707076798,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404681640","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9828559,0.010164964,0.00001086742,0.00024094776,0.000106040454,0.0056762835,0.0000555539,0.0000574453,0.0008320056],"genre_scores_gemma":[0.9989808,0.00003484109,0.00007413674,0.00006486804,0.00006932806,0.00067129516,0.00003854138,0.000034991466,0.000031202984],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99722975,0.00035135777,0.00040951185,0.00068344845,0.00079302385,0.00053291844],"domain_scores_gemma":[0.9990448,0.0000768984,0.00006901057,0.0005482232,0.00006628182,0.00019481973],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00034433737,0.00031085947,0.00041151996,0.0001637241,0.00009360911,0.00008615262,0.00020547876,0.0000690613,0.0006458825],"category_scores_gemma":[0.00003333593,0.00020959417,0.0001883241,0.00045185772,0.00020502786,0.00024861953,0.00011554585,0.0004065258,0.00008344515],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0101557225,0.010072785,0.9125249,0.00046053636,0.009892806,0.0024282688,0.0022786667,5.5900864e-7,0.03611014,0.000102519516,0.0006129645,0.015360134],"study_design_scores_gemma":[0.0027774796,0.005080006,0.98464495,0.00010614778,0.0012424608,0.000068487905,0.00023551167,0.0017721555,0.003686809,0.00011022992,0.000120804216,0.00015494342],"about_ca_topic_score_codex":0.00050099276,"about_ca_topic_score_gemma":0.00015823332,"teacher_disagreement_score":0.07212006,"about_ca_system_score_codex":0.000096244396,"about_ca_system_score_gemma":0.00048192093,"threshold_uncertainty_score":0.85470027},"labels":[],"label_agreement":null},{"id":"W4404704275","doi":"10.1093/cercor/bhae426","title":"Temporal complexity of the BOLD-signal in preterm versus term infants","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"BC Children's Hospital; University of British Columbia","funders":"European Commission","keywords":"Connectome; Gestational age; Neuroscience; Psychology; Brain development; Resting state fMRI; Neurophysiology; Hurst exponent; Diffusion MRI; Functional connectivity; Medicine; Magnetic resonance imaging; Biology; Mathematics","score_opus":0.08287500023914068,"score_gpt":0.2979227345698329,"score_spread":0.21504773433069224,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4404704275","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9901801,0.00008014948,0.000009730326,0.0014739498,0.0016969491,0.00025710327,0.00005798575,0.00007289936,0.006171139],"genre_scores_gemma":[0.9990124,0.0000030912165,0.000019781148,0.0004899627,0.000086615546,0.00001407997,0.0000014703851,0.000013840185,0.00035872945],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9986986,0.00011761478,0.00022046368,0.00041534434,0.00032229332,0.00022567075],"domain_scores_gemma":[0.9984222,0.0012042378,0.000053279175,0.00027127095,0.000020227037,0.000028782626],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013596416,0.0001381579,0.00017714122,0.00008178878,0.00010559497,0.000042558266,0.00030276502,0.00004625254,0.00015459255],"category_scores_gemma":[0.0009032443,0.0001002031,0.00010694289,0.00045337575,0.000485893,0.00019582706,0.00026590872,0.00025019844,0.000037011923],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0015781918,0.0004247007,0.5233919,0.0005658184,0.000113786264,0.00016887883,0.0028464166,0.000057113553,0.36697173,0.06987038,0.021635048,0.012376069],"study_design_scores_gemma":[0.0009160266,0.00023312835,0.9421833,0.00015376763,0.00001601289,0.000019252953,0.000056981557,0.002148999,0.04653858,0.005188908,0.0023132898,0.00023171431],"about_ca_topic_score_codex":0.00008209771,"about_ca_topic_score_gemma":0.00032243776,"teacher_disagreement_score":0.41879147,"about_ca_system_score_codex":0.000076930715,"about_ca_system_score_gemma":0.000091546666,"threshold_uncertainty_score":0.40861636},"labels":[],"label_agreement":null},{"id":"W4405765238","doi":"10.1093/cercor/bhae480","title":"Identification of <i>Pappa</i> and <i>Sall3</i> as Gli3 direct target genes acting downstream of cilia signaling in corticogenesis","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Genetic and Kidney Cyst Diseases","field":"Biochemistry, Genetics and Molecular Biology","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Discovery Centre","funders":"Biotechnology and Biological Sciences Research Council; Directorate for Biological Sciences; Simons Initiative for the Developing Brain; Simons Foundation Autism Research Initiative","keywords":"GLI3; Corticogenesis; Cilium; Biology; Homeobox; Hedgehog signaling pathway; Transcription factor; Enhancer; Cell biology; Neuroscience; Signal transduction; Gene; Genetics; Repressor; Embryonic stem cell","score_opus":0.005409134522037961,"score_gpt":0.2356718154164933,"score_spread":0.23026268089445534,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4405765238","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9897828,0.0090640485,0.00013222767,0.000028920527,0.00013174785,0.000145905,0.00007470007,0.000013162075,0.00062649103],"genre_scores_gemma":[0.9989904,0.00039607994,0.000176501,0.000040671403,0.000063292086,0.000012889647,0.00008378494,0.000019745312,0.00021660209],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.998927,0.000043012304,0.0003944361,0.00034549835,0.00012745259,0.00016259881],"domain_scores_gemma":[0.99951124,0.000023717706,0.00011199162,0.00020904395,0.000064977,0.00007904169],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014075151,0.0001357104,0.00019348993,0.0000655377,0.000026813623,0.000021900694,0.000105013685,0.000093236034,0.00002645423],"category_scores_gemma":[0.000089766705,0.00013173216,0.000086063825,0.00015119181,0.00008702906,0.0000070578667,0.000068093956,0.00004159476,0.0000033802796],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000048975835,0.00004363259,0.020929959,0.0002138628,0.000051285708,0.000004113461,0.000060838316,0.00005467187,0.97459805,0.00001695014,0.00012756149,0.003850075],"study_design_scores_gemma":[0.00021773543,0.0001077658,0.0131653575,0.000074264484,0.00006164418,0.0000073054516,0.0001970238,0.00024843006,0.9848714,0.00012429818,0.00078248506,0.00014232194],"about_ca_topic_score_codex":0.00006987702,"about_ca_topic_score_gemma":0.0000152331995,"teacher_disagreement_score":0.0102732945,"about_ca_system_score_codex":0.000007197242,"about_ca_system_score_gemma":0.00012757353,"threshold_uncertainty_score":0.5371881},"labels":[],"label_agreement":null},{"id":"W4406081136","doi":"10.1093/cercor/bhae502","title":"The microgravity environment affects sensorimotor adaptation and its neural correlates","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Spaceflight effects on biology","field":"Medicine","cited_by":6,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"Natural Sciences and Engineering Research Council of Canada; National Institute on Aging; National Institutes of Health; National Aeronautics and Space Administration","keywords":"Adaptation (eye); Weightlessness; Neuroscience; Task (project management); Psychology; Physics; Engineering","score_opus":0.014071921344327458,"score_gpt":0.24731814107308625,"score_spread":0.23324621972875878,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406081136","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9861892,0.00935567,0.0000341388,0.0026973702,0.0007289457,0.00060393877,0.000006678149,0.00012295683,0.000261141],"genre_scores_gemma":[0.99750775,0.00033834673,0.00007094573,0.00021364535,0.00018891819,0.00002445909,0.000022214868,0.000022945354,0.0016107546],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991413,0.00008112258,0.00011296203,0.00029946625,0.00011838906,0.00024679536],"domain_scores_gemma":[0.9993705,0.00030715234,0.00003139012,0.00016451518,0.000013608126,0.000112818045],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014880185,0.00015188116,0.0001644217,0.00004285114,0.00011789372,0.000049987844,0.000046382782,0.00010589664,0.00005696666],"category_scores_gemma":[0.000055721852,0.000093709416,0.000064499116,0.0000766206,0.00010615659,0.00005292682,0.000046120553,0.00023816859,0.00020345247],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010007402,0.00018301832,0.061091363,0.0006577077,0.0006368609,0.00083353854,0.0014712107,0.000022308262,0.6756809,0.0070431433,0.013314364,0.23806489],"study_design_scores_gemma":[0.0020312949,0.0027422202,0.76137197,0.00022171486,0.00049874553,0.0016617922,0.00035777202,0.14872384,0.019993387,0.0004163558,0.061437868,0.00054304174],"about_ca_topic_score_codex":0.000010455756,"about_ca_topic_score_gemma":0.000008521822,"teacher_disagreement_score":0.7002806,"about_ca_system_score_codex":0.000056274883,"about_ca_system_score_gemma":0.000024331168,"threshold_uncertainty_score":0.3821359},"labels":[],"label_agreement":null},{"id":"W4406116363","doi":"10.1093/cercor/bhae492","title":"Identifying causal neural oscillations underlying working memory","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Cognitive Science and Mapping","field":"Computer Science","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health","funders":"National Institute of Mental Health; Ontario Ministry of Research and Innovation; National Institutes of Health; Ontario Ministry of Health and Long-Term Care; MagVenture; Canadian Institutes of Health Research; Weston Brain Institute; Centre for Addiction and Mental Health Foundation; BrainsWay; BrightFocus Foundation; Fondation Brain Canada; Indivior; University of Toronto; Biogen","keywords":"Working memory; Neuroscience; Cognitive psychology; Psychology; Computer science; Cognitive science; Cognition","score_opus":0.07202576221098084,"score_gpt":0.3200042342191549,"score_spread":0.24797847200817408,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4406116363","genre_codex":"methods","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":null,"domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.1563897,0.00024842357,0.7827198,0.0017579116,0.0026546184,0.0002380367,8.260411e-7,0.0004125153,0.055578187],"genre_scores_gemma":[0.99362946,0.0000040498385,0.0031310774,0.0011111987,0.000058347083,0.000008749108,0.0000019562317,0.000004939614,0.0020502023],"study_design_codex":"design_other","study_design_gemma":"observational","domain_scores_codex":[0.99858934,0.00005319364,0.00022656919,0.0004872786,0.00024832363,0.00039532044],"domain_scores_gemma":[0.99928,0.00011528306,0.0000700625,0.00036746342,0.000088100416,0.00007909818],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00025309378,0.00013407037,0.00013956695,0.00027123193,0.000579318,0.0004983538,0.0006900451,0.00004571125,0.000029498982],"category_scores_gemma":[0.00007577765,0.00013578859,0.00008327921,0.0012218104,0.00007565026,0.00082299893,0.00048686043,0.00018868141,0.000055284087],"study_design_candidate":"design_other","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000006902643,0.000057863886,0.03152677,0.000059302714,0.00006592088,0.00006991385,0.0022093721,0.0003516656,0.01887611,0.25692147,0.0022337793,0.68762094],"study_design_scores_gemma":[0.0010470301,0.000063352825,0.6386879,0.0004665163,0.00005146962,0.000049212384,0.0017972334,0.28507534,0.001558842,0.06581011,0.0044609057,0.00093207054],"about_ca_topic_score_codex":0.000047629175,"about_ca_topic_score_gemma":0.000084373845,"teacher_disagreement_score":0.8372398,"about_ca_system_score_codex":0.00006998337,"about_ca_system_score_gemma":0.00013813423,"threshold_uncertainty_score":0.5537298},"labels":[],"label_agreement":null},{"id":"W4408143982","doi":"10.1093/cercor/bhae464","title":"The interactive effects of divided attention and semantic elaboration on associative recognition memory: an fMRI study","year":2024,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory Processes and Influences","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Baycrest Hospital; University of Toronto","funders":"Canadian Institutes of Health Research","keywords":"Elaboration; Associative property; Cognitive psychology; Psychology; Semantic memory; Content-addressable memory; Computer science; Cognition; Neuroscience; Artificial intelligence; Artificial neural network","score_opus":0.02669049652386811,"score_gpt":0.30401420638584664,"score_spread":0.2773237098619785,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408143982","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99802643,0.00006333345,0.00003414935,0.00018524709,0.00055673916,0.0005737403,0.00000818627,0.000052359326,0.00049984216],"genre_scores_gemma":[0.99956805,0.000044578745,0.0000045094885,0.00011291396,0.000059403537,0.000037200094,0.0000048466613,0.00000976183,0.00015874383],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9987902,0.0003191137,0.00018568207,0.0003412882,0.00024174732,0.00012195498],"domain_scores_gemma":[0.99889034,0.0007431121,0.0001322409,0.00011847491,0.00008101953,0.000034789828],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00026787483,0.000107174776,0.00012195602,0.00006035162,0.00022175712,0.00020149948,0.00009767755,0.00003330947,0.000013001277],"category_scores_gemma":[0.00077117956,0.000070931485,0.000028208658,0.00028300387,0.0000716596,0.0006954897,0.000032534474,0.00015265575,0.000028612894],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00052035024,0.0010204343,0.009725096,0.00070901884,0.00015165174,0.00006666597,0.01693061,0.000008570015,0.7202178,0.0023578394,0.0004674596,0.24782449],"study_design_scores_gemma":[0.0012049368,0.0061747856,0.49698943,0.0006899713,0.00022511941,0.000009679637,0.008625116,0.008336744,0.46536434,0.011901265,0.00005821189,0.00042040087],"about_ca_topic_score_codex":0.000021394895,"about_ca_topic_score_gemma":0.00004667073,"teacher_disagreement_score":0.48726434,"about_ca_system_score_codex":0.000030818886,"about_ca_system_score_gemma":0.000027023218,"threshold_uncertainty_score":0.2892502},"labels":[],"label_agreement":null},{"id":"W4408256448","doi":"10.1093/cercor/bhaf051","title":"Perception of short, but not long, time intervals is modality specific: EEG evidence using vibrotactile stimuli","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neuroscience and Music Perception","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; International Laboratory for Brain, Music and Sound Research; Centre for Research on Brain Language and Music; Université Laval","funders":"","keywords":"Oddball paradigm; Modality (human–computer interaction); Perception; Psychology; Electroencephalography; Contingent negative variation; Deviance (statistics); Time perception; Cognition; Cognitive psychology; Audiology; Neuroscience; Event-related potential; Computer science; Medicine; Artificial intelligence","score_opus":0.10574748187372879,"score_gpt":0.3505361807413635,"score_spread":0.2447886988676347,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408256448","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99222267,0.000011056504,0.004637282,0.00029744153,0.00071206037,0.00042693928,0.000042685253,0.00009610348,0.0015537658],"genre_scores_gemma":[0.99419296,0.00006508199,0.00020718043,0.0021399816,0.00007845399,0.00000908788,0.0000026149326,0.000017004639,0.003287613],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99746513,0.00018850787,0.0005136556,0.0009055407,0.0005249534,0.00040218572],"domain_scores_gemma":[0.99884015,0.00015361003,0.00014805648,0.0006515172,0.00009789496,0.000108740445],"candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00028358254,0.00024359494,0.0003368175,0.00020501578,0.00022884148,0.00011718642,0.0005600104,0.000112578855,0.0017395583],"category_scores_gemma":[0.00029329016,0.00023465825,0.00018675337,0.0006325501,0.00039620575,0.0010338948,0.0002658008,0.00025068776,0.00020973444],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00008929061,0.000086325126,0.001924502,0.000046924793,0.000002072241,0.0000075972725,0.00022439184,0.000034880522,0.9890667,0.00006806734,0.0010655563,0.007383668],"study_design_scores_gemma":[0.0002899422,0.00020422814,0.4042685,0.0004195739,0.000043641336,0.000034022836,0.00016958102,0.023488356,0.5699853,0.00032921493,0.00039321993,0.00037444005],"about_ca_topic_score_codex":0.00012003061,"about_ca_topic_score_gemma":0.0000044418593,"teacher_disagreement_score":0.41908142,"about_ca_system_score_codex":0.00016404722,"about_ca_system_score_gemma":0.00012032375,"threshold_uncertainty_score":0.999173},"labels":[],"label_agreement":null},{"id":"W4408420871","doi":"10.1093/cercor/bhaf035","title":"Hubs and interaction: the brain’s meta-loop","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"National Institute of Mental Health; Deutsche Forschungsgemeinschaft","keywords":"Neuroscience; Connectome; Human Connectome Project; Psychology; Association (psychology); Frontal lobe; Connectomics; Cognition; Default mode network; Dorsum; Brain mapping; Functional connectivity; Anatomy; Biology","score_opus":0.06291070698150351,"score_gpt":0.3040758264840012,"score_spread":0.2411651195024977,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4408420871","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.6299027,0.0009149073,0.0004089414,0.28255957,0.0029851114,0.00059281685,0.000019109259,0.00027535018,0.08234145],"genre_scores_gemma":[0.9482378,0.000016471626,0.000016976715,0.03435003,0.00007342152,0.00004991589,5.144276e-7,0.0000073209767,0.017247552],"study_design_codex":"not_applicable","study_design_gemma":"not_applicable","domain_scores_codex":[0.9990163,0.00012971823,0.00013386183,0.0004018403,0.0001515213,0.00016676022],"domain_scores_gemma":[0.99482584,0.0048153037,0.000047448728,0.00024720194,0.00003488327,0.00002934403],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016418644,0.00013266964,0.00018135029,0.00006231654,0.00043362536,0.000089865316,0.00017071079,0.000032418822,0.0002428752],"category_scores_gemma":[0.004003071,0.000084396386,0.00009806181,0.00029677709,0.00021427855,0.00019859902,0.00021743707,0.00020289996,0.00006395351],"study_design_candidate":"not_applicable","study_design_consensus":"not_applicable","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00021621057,0.00016622558,0.004964335,0.00008411283,0.0009775502,0.000030001593,0.0007262009,0.000039460607,0.065511644,0.31616095,0.5892605,0.02186282],"study_design_scores_gemma":[0.0011079623,0.00023298767,0.10687736,0.000034800127,0.0007268569,0.00014266488,0.0009870166,0.001813112,0.04599424,0.02301641,0.8185292,0.0005374218],"about_ca_topic_score_codex":0.000025615487,"about_ca_topic_score_gemma":0.00007716094,"teacher_disagreement_score":0.31833506,"about_ca_system_score_codex":0.000030619183,"about_ca_system_score_gemma":0.000030484178,"threshold_uncertainty_score":0.47923395},"labels":[],"label_agreement":null},{"id":"W4409781994","doi":"10.1093/cercor/bhaf071","title":"Evaluating the evolution and inter-individual variability of infant functional module development from 0 to 5 yr old","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research","funders":"National Natural Science Foundation of China","keywords":"Modular design; Development (topology); Computer science; Brain development; QUIET; Function (biology); Psychology; Developmental psychology; Cognitive psychology; Neuroscience; Artificial intelligence; Biology; Evolutionary biology; Mathematics; Programming language; Physics","score_opus":0.047578600870071104,"score_gpt":0.2948904460098423,"score_spread":0.24731184513977122,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409781994","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9862392,0.000007723456,0.011674774,0.0005553665,0.00068201247,0.00029342272,0.00003124632,0.000026580676,0.00048966834],"genre_scores_gemma":[0.9978806,5.350891e-7,0.0006797772,0.0008226082,0.000038508977,0.000024474057,0.000011836799,0.0000048960437,0.0005367568],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9987763,0.00014736339,0.00027183967,0.00039215985,0.00026747995,0.0001448488],"domain_scores_gemma":[0.99924165,0.00036303356,0.00007879169,0.00021492317,0.000060283513,0.00004134117],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004886404,0.000103812585,0.00012133268,0.00006362827,0.00020350926,0.000044243003,0.00015139999,0.000041729632,0.000080724254],"category_scores_gemma":[0.00072159985,0.0000753431,0.000033424796,0.00026470216,0.00007047283,0.000096759475,0.00024911042,0.00012959757,0.000008629613],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034406097,0.00015908632,0.10500867,0.000047003476,0.000045930068,9.1023696e-7,0.0006810198,0.00074753596,0.78812605,0.036223937,0.00067801576,0.0679378],"study_design_scores_gemma":[0.0003135186,0.00012192126,0.9414369,0.000036699334,0.000022627853,0.000001739036,0.000057327816,0.03571636,0.012339114,0.009618154,0.00023283881,0.00010283635],"about_ca_topic_score_codex":0.00015588984,"about_ca_topic_score_gemma":0.00006365044,"teacher_disagreement_score":0.83642817,"about_ca_system_score_codex":0.00009755965,"about_ca_system_score_gemma":0.000111371715,"threshold_uncertainty_score":0.30724025},"labels":[],"label_agreement":null},{"id":"W4409961717","doi":"10.1093/cercor/bhaf089","title":"Framing major depressive disorder as a condition of network imbalance at the compartment level: a proof-of-concept study","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"National Institutes of Health; Government of Ontario","keywords":"Functional magnetic resonance imaging; Correlation; Hypoactivity; Major depressive disorder; Neuroscience; Neuroimaging; Psychology; Resting state fMRI; Magnetic resonance imaging; Medicine; Amygdala; Mathematics","score_opus":0.029154978444622233,"score_gpt":0.2958267740286777,"score_spread":0.26667179558405546,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409961717","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9941629,0.00050542067,0.0006503764,0.0011257045,0.00052957895,0.0013225543,0.00005790752,0.000034673852,0.0016108546],"genre_scores_gemma":[0.99707144,0.0000020960033,0.00002099168,0.0009569742,0.000050799816,0.00016564941,0.0000055658857,0.000010891781,0.0017156022],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99841434,0.0002366567,0.00031763464,0.000447661,0.00033873506,0.00024496418],"domain_scores_gemma":[0.99685866,0.0024243481,0.00025478902,0.00033937962,0.00009682791,0.000025998292],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015321738,0.00016938396,0.00032497352,0.000044544835,0.00041190253,0.000017706552,0.00026087643,0.000037813883,0.00010976184],"category_scores_gemma":[0.0012977577,0.00012487952,0.00008805548,0.00044035527,0.0003693163,0.00009817012,0.00036153468,0.00015046974,0.000009700559],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0009747895,0.0022980506,0.89587915,0.0002321725,0.00054784265,0.000028902994,0.004894482,0.008542083,0.02049937,0.018235818,0.039875492,0.0079918485],"study_design_scores_gemma":[0.0026406618,0.00081620726,0.84892946,0.00015930145,0.0001463184,0.00000887574,0.0014600985,0.0012314878,0.13488083,0.006831177,0.002605234,0.00029034686],"about_ca_topic_score_codex":0.00010245005,"about_ca_topic_score_gemma":0.00051624805,"teacher_disagreement_score":0.114381455,"about_ca_system_score_codex":0.00006839601,"about_ca_system_score_gemma":0.000073936586,"threshold_uncertainty_score":0.50924385},"labels":[],"label_agreement":null},{"id":"W4409962125","doi":"10.1093/cercor/bhaf086","title":"Impact of visual and auditory deprivation on speech perception: an EEG study","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University Health Centre; Université de Montréal; Université Laval; Cégep Marie-Victorin; Centre for Interdisciplinary Research in Rehabilitation; Centre for Research on Brain Language and Music; Université du Québec à Montréal","funders":"Social Sciences and Humanities Research Council of Canada; Government of Canada","keywords":"Mismatch negativity; P3a; Audiology; Psychology; Stimulus (psychology); Sensory system; Oddball paradigm; Perception; Sensory deprivation; Speech perception; Electroencephalography; Neuroscience; Event-related potential; Cognitive psychology; Medicine","score_opus":0.025253093596945556,"score_gpt":0.35292887462424966,"score_spread":0.3276757810273041,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409962125","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99881744,0.0000015748765,0.000055894412,0.000040833092,0.00023353392,0.00028184228,0.0000024351168,0.0000347033,0.00053173536],"genre_scores_gemma":[0.9996551,0.000001587716,0.000035300403,0.00006148377,0.000057609668,0.0000054215284,0.0000017244231,0.0000058817836,0.0001758759],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9991791,0.00012328046,0.00016089372,0.00027724763,0.00015576644,0.00010366235],"domain_scores_gemma":[0.9996053,0.00010049427,0.00004461913,0.00016741191,0.000037850892,0.00004431747],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00013808056,0.00008124198,0.00011157821,0.00011061543,0.00010244183,0.000029238774,0.000069733345,0.000044856548,0.000068683104],"category_scores_gemma":[0.00020872739,0.00006481295,0.000038823335,0.00019365539,0.00007222416,0.00015401594,0.00003185872,0.000093334755,0.000011163354],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00007435606,0.0006385104,0.28892186,0.000019179719,0.000005146783,0.0000017320158,0.00077153003,0.00003100438,0.6718428,0.00020332044,0.00009200335,0.037398502],"study_design_scores_gemma":[0.0003581667,0.0018010311,0.9948205,0.000016267042,0.00000664558,0.0000011670824,0.00028018962,0.0012552158,0.001166478,0.00022661878,0.0000066907182,0.00006104111],"about_ca_topic_score_codex":0.00009405029,"about_ca_topic_score_gemma":0.000006563639,"teacher_disagreement_score":0.70589864,"about_ca_system_score_codex":0.00006137792,"about_ca_system_score_gemma":0.0000520439,"threshold_uncertainty_score":0.26429954},"labels":[],"label_agreement":null},{"id":"W4409987090","doi":"10.1093/cercor/bhaf094","title":"Unraveling white matter alterations in autism: the role of oligodendrocytes, microglia, and neuroinflammation","year":2025,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":true,"ca_institutions":"","funders":"Autism Research Institute","keywords":"Neuroinflammation; Microglia; White matter; Autism; Neuroscience; Oligodendrocyte; Autism spectrum disorder; Multiple sclerosis; Psychology; Neuroimaging; Medicine; Central nervous system; Myelin; Psychiatry; Immunology; Magnetic resonance imaging; Inflammation","score_opus":0.022633715761939278,"score_gpt":0.3000445035091183,"score_spread":0.27741078774717903,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4409987090","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.0013996711,0.9904235,0.000043762164,0.0008000776,0.00014405286,0.0015421094,0.00008952706,0.000036865164,0.005520452],"genre_scores_gemma":[0.0151651325,0.9823489,0.000038485687,0.00010388908,0.000029103632,0.00011784504,0.0000293815,0.00004415257,0.0021230949],"study_design_codex":"design_other","study_design_gemma":"not_applicable","domain_scores_codex":[0.99756515,0.0004469776,0.000700596,0.0006082101,0.0002884485,0.0003906344],"domain_scores_gemma":[0.9987121,0.0004071921,0.00027911327,0.0005381105,0.000009735342,0.000053730488],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00018817694,0.00031235642,0.0007316667,0.00042412482,0.00016686053,0.00014333737,0.00057626085,0.00016001577,0.00019072571],"category_scores_gemma":[0.00012357319,0.00023966825,0.0001555193,0.0007893573,0.00016554329,0.0001660224,0.00038012155,0.0006580733,0.00011324881],"study_design_candidate":"not_applicable","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00003052133,0.00017784869,0.0021691609,0.020561881,0.000050370658,0.000060761817,0.0014312915,0.000022408609,0.0014266106,0.08800255,0.00041343237,0.8856532],"study_design_scores_gemma":[0.0017748438,0.0002765356,0.017197803,0.033260733,0.0009002588,0.00075253507,0.00022197841,0.006263676,0.005794902,0.03802973,0.89271516,0.002811854],"about_ca_topic_score_codex":0.0000923019,"about_ca_topic_score_gemma":0.00017767637,"teacher_disagreement_score":0.89230174,"about_ca_system_score_codex":0.00006706539,"about_ca_system_score_gemma":0.00030049498,"threshold_uncertainty_score":0.9773388},"labels":[],"label_agreement":null},{"id":"W4410504929","doi":"10.1093/cercor/bhaf114","title":"Neural state changes during movie watching relate to episodic memory in younger and older adults","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Brock University","funders":"Canadian Institutes of Health Research; Alliance de recherche numérique du Canada; Natural Sciences and Engineering Research Council of Canada; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; Canada Research Chairs","keywords":"Perception; Psychology; Neural correlates of consciousness; Cognitive psychology; Episodic memory; Feature (linguistics); Cognition; Neuroscience","score_opus":0.021258285155719182,"score_gpt":0.26969925962707936,"score_spread":0.24844097447136018,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4410504929","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.995969,0.000111272406,0.000014361515,0.0017112447,0.0007536394,0.0005843243,0.000009912335,0.00011377218,0.0007325018],"genre_scores_gemma":[0.9917791,0.000057510082,0.00003289909,0.0036648226,0.000040797848,0.000044587152,0.0000012733664,0.000023351135,0.0043556886],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9981149,0.00015471097,0.0002765822,0.0007390465,0.00019586601,0.0005189026],"domain_scores_gemma":[0.9993507,0.00011336646,0.00006572341,0.00029415629,0.000016355809,0.00015964994],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00015182246,0.00024145342,0.00026757436,0.00026439683,0.00021129177,0.000071601906,0.0002481583,0.00007390793,0.00009458339],"category_scores_gemma":[0.00016157128,0.00022009817,0.00004090847,0.0003975283,0.00005091161,0.00033432545,0.00027547946,0.00036344936,0.0000594523],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00034697773,0.000046277262,0.0011341128,0.00018256097,0.000003711973,0.00027411216,0.0016759664,0.00004110543,0.97656226,0.00040007773,0.000051893956,0.019280935],"study_design_scores_gemma":[0.0014579702,0.00011542625,0.11436477,0.0003435771,0.000010397422,0.000048929145,0.00018885055,0.0013098334,0.8803657,0.0014134907,0.000034403038,0.00034661376],"about_ca_topic_score_codex":0.000036717338,"about_ca_topic_score_gemma":0.00013054843,"teacher_disagreement_score":0.11323066,"about_ca_system_score_codex":0.000043077114,"about_ca_system_score_gemma":0.000017392902,"threshold_uncertainty_score":0.89753425},"labels":[],"label_agreement":null},{"id":"W4411112592","doi":"10.1093/cercor/bhaf121","title":"Neural responses to shared positive and negative experiences: unveiling the social feedback processing dynamics","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"National Natural Science Foundation of China","keywords":"Psychology; Negative feedback; Valence (chemistry); Positive feedback; Negativity effect; Electroencephalography; Stimulus (psychology); Social acceptance; Social rejection; Social cognition; Cognitive psychology; Developmental psychology; Social relation; Social psychology; Cognition; Neuroscience","score_opus":0.07544470374133772,"score_gpt":0.3798326263156365,"score_spread":0.3043879225742988,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411112592","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.989372,0.00005136841,0.000027774868,0.008429367,0.00033266973,0.0003407403,0.00003121378,0.00007262258,0.0013422138],"genre_scores_gemma":[0.99274915,0.00000327233,0.000036002213,0.005427162,0.000054302614,0.00006539957,0.0000013953048,0.000009097368,0.0016542336],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9986516,0.0001602753,0.00019230851,0.0005275605,0.00015101375,0.0003171919],"domain_scores_gemma":[0.9994677,0.0002377344,0.000069780384,0.00011195385,0.000061419974,0.00005144797],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007427131,0.0001857154,0.0001933426,0.00007193341,0.0012128704,0.00016199063,0.000280158,0.000055435215,0.000018975876],"category_scores_gemma":[0.00022709362,0.00012282254,0.000049630715,0.00055064174,0.00061298336,0.00022245626,0.0002466426,0.00022404324,0.000008668196],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0039378526,0.0004369169,0.05948413,0.00010765466,0.00005103153,0.00021657662,0.19771914,0.0000078905305,0.45270962,0.0031761047,0.005351575,0.2768015],"study_design_scores_gemma":[0.0015367011,0.0006444009,0.7880633,0.00018348276,0.000102199774,0.00007229392,0.11326079,0.0031521323,0.08950006,0.002335651,0.0002744672,0.0008745155],"about_ca_topic_score_codex":0.000029701183,"about_ca_topic_score_gemma":0.00006021842,"teacher_disagreement_score":0.72857916,"about_ca_system_score_codex":0.000045769808,"about_ca_system_score_gemma":0.000034452692,"threshold_uncertainty_score":0.9328541},"labels":[],"label_agreement":null},{"id":"W4411223905","doi":"10.1093/cercor/bhaf138","title":"The fractal dimension of resting state EEG increases over age in children","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":5,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Holland Bloorview Kids Rehabilitation Hospital; University of Toronto","funders":"","keywords":"Resting state fMRI; Fractal dimension; Electroencephalography; Dimension (graph theory); Neuroscience; Psychology; Audiology; Fractal; Medicine; Mathematics; Mathematical analysis; Pure mathematics","score_opus":0.01236767846876297,"score_gpt":0.2656955134224477,"score_spread":0.2533278349536847,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411223905","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9978025,0.000071795905,0.000016805448,0.00011360251,0.0001570277,0.00016460357,0.000008892999,0.000037276244,0.0016275186],"genre_scores_gemma":[0.99890363,0.000014900317,0.000042055995,0.00045169078,0.00001587869,0.0000030485103,0.0000019446552,0.0000069637676,0.0005598804],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998991,0.00012318093,0.00025235827,0.0002629117,0.00015540191,0.00021511338],"domain_scores_gemma":[0.99912035,0.0005132149,0.000094552706,0.00022651762,0.00001556114,0.000029781328],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00014580396,0.0001043046,0.00013679502,0.0000752961,0.00012389991,0.000058306472,0.00029354994,0.000030797066,0.000010443576],"category_scores_gemma":[0.00036862423,0.00007144099,0.000044046894,0.00026649455,0.00013185614,0.0001191473,0.00023118177,0.00017389664,0.000006417187],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015540376,0.00019413159,0.5175814,0.000028448474,0.000018164967,0.000046652887,0.00036968317,0.00013546235,0.44918332,0.0023560252,0.002460483,0.0274708],"study_design_scores_gemma":[0.00037528542,0.000058593992,0.8705447,0.00011307384,0.000004446567,0.0000074336067,0.000020398904,0.0012616552,0.12530427,0.0020219514,0.00019661225,0.00009161015],"about_ca_topic_score_codex":0.00041761636,"about_ca_topic_score_gemma":0.00014352152,"teacher_disagreement_score":0.35296324,"about_ca_system_score_codex":0.000019692894,"about_ca_system_score_gemma":0.000035531775,"threshold_uncertainty_score":0.2913279},"labels":[],"label_agreement":null},{"id":"W4411469177","doi":"10.1093/cercor/bhaf145","title":"The sulcal patterns of the occipito-temporal and anterior cingulate cortices influence reading and writing in children and adults","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Writing and Handwriting Education","field":"Social Sciences","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; J. D. Irving (Canada); McGill University Health Centre","funders":"Centre National de la Recherche Scientifique; Agence Nationale de la Recherche","keywords":"Reading (process); Psychology; Neuroscience; Audiology; Medicine; Linguistics","score_opus":0.0053046540942803784,"score_gpt":0.27686099252301327,"score_spread":0.2715563384287329,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411469177","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99803996,0.00045659955,0.0000012725257,0.0009145966,0.00008599182,0.00018308747,0.000004974137,0.000015170194,0.0002983207],"genre_scores_gemma":[0.9995001,0.00021477848,0.000017295524,0.00008390967,0.000060957776,0.000004413894,0.0000010714801,0.0000038018713,0.00011366783],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99916834,0.00012471862,0.00023103772,0.00018066028,0.00010908541,0.000186133],"domain_scores_gemma":[0.99950284,0.00020413674,0.00011583821,0.000093941206,0.000046112043,0.00003714944],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005543107,0.000070671296,0.00011298178,0.00003894357,0.0005792929,0.00015682336,0.000117827076,0.000049537986,0.0000017974629],"category_scores_gemma":[0.00024781463,0.000050338047,0.000015777734,0.00013038721,0.00029452503,0.00012673283,0.00008955977,0.00012313378,1.3812324e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000009684041,0.000005785896,0.98378813,0.00002441466,0.000004837412,1.9123232e-7,0.0039274585,1.7973338e-7,0.00013988528,0.0013753475,0.0000061619753,0.010717917],"study_design_scores_gemma":[0.00024137684,0.000013290981,0.9917137,0.00056850293,0.000009777241,0.0000026166927,0.0069110612,0.000059652033,0.00005755025,0.00034245223,0.000022312413,0.000057705827],"about_ca_topic_score_codex":0.006452678,"about_ca_topic_score_gemma":0.0051627536,"teacher_disagreement_score":0.010660212,"about_ca_system_score_codex":0.000017511247,"about_ca_system_score_gemma":0.00006159364,"threshold_uncertainty_score":0.9754562},"labels":[],"label_agreement":null},{"id":"W4411622842","doi":"10.1093/cercor/bhaf134","title":"Learning to combine top-down context and feed-forward representations under ambiguity with apical and basal dendrites","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":7,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research; McGill University; Mila - Quebec Artificial Intelligence Institute; Montreal Neurological Institute and Hospital; Université de Montréal; Centre Hospitalier Universitaire Sainte-Justine","funders":"Fonds de Recherche du Québec - Santé; Alliance de recherche numérique du Canada; Natural Sciences and Engineering Research Council of Canada; Institut de Valorisation des Données; Canada First Research Excellence Fund; Centre hospitalier universitaire Sainte-Justine; McGill University; Canadian Institute for Advanced Research; Nvidia; Google","keywords":"Context (archaeology); Computer science; Top-down and bottom-up design; Sensory system; Ambiguity; Neuroscience; Leverage (statistics); Process (computing); Biology; Artificial intelligence","score_opus":0.01486105500011545,"score_gpt":0.2655339300072597,"score_spread":0.25067287500714425,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411622842","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9922425,0.00001800977,0.0013480826,0.003992776,0.00017133422,0.000244482,0.0000064575484,0.0000664897,0.0019098409],"genre_scores_gemma":[0.99071634,0.0000119009455,0.000097074066,0.0034598806,0.000023304225,0.000013054217,0.0000054510565,0.000010006419,0.0056629987],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998986,0.000075862656,0.0001471406,0.00045049083,0.00013999495,0.0002005139],"domain_scores_gemma":[0.9994323,0.000227416,0.000039823524,0.00014369731,0.000039053848,0.00011766537],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000067402114,0.00012552907,0.0001584429,0.000090220645,0.0003001991,0.00015036351,0.000079839054,0.00004517412,0.000040827854],"category_scores_gemma":[0.00024823908,0.00010335616,0.000023396631,0.0002901931,0.00014715634,0.00014722541,0.00013938473,0.00021223951,0.0000096797485],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0007853963,0.00022609757,0.43035913,0.00011835847,0.000056199253,0.000060589824,0.0007275505,0.00039943066,0.415126,0.10971488,0.004568171,0.037858203],"study_design_scores_gemma":[0.001738439,0.00078007526,0.9626648,0.00007136134,0.000047506768,0.00005316826,0.0009177178,0.010415202,0.015342834,0.005883678,0.0017450423,0.00034020838],"about_ca_topic_score_codex":0.00010246791,"about_ca_topic_score_gemma":0.00020234442,"teacher_disagreement_score":0.53230566,"about_ca_system_score_codex":0.000021621612,"about_ca_system_score_gemma":0.000025577847,"threshold_uncertainty_score":0.4214742},"labels":[],"label_agreement":null},{"id":"W4411638887","doi":"10.1093/cercor/bhaf161","title":"It’s all connected! Multivariate pattern analysis of inter-network connectivity distinguishes between reappraisal and passive viewing of emotional scenes","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"York University; University of Manitoba","funders":"","keywords":"Insula; Default mode network; Psychology; Amygdala; Functional connectivity; Salience (neuroscience); Functional magnetic resonance imaging; Ventromedial prefrontal cortex; Dorsolateral prefrontal cortex; Prefrontal cortex; Neuroscience; Cognitive psychology; Cognition","score_opus":0.04724708509101229,"score_gpt":0.3146894025676777,"score_spread":0.2674423174766654,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4411638887","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9824398,0.000057976988,0.012186375,0.0027353512,0.000526523,0.00027376413,0.0002884694,0.0000661503,0.0014255701],"genre_scores_gemma":[0.99860257,0.000011922722,0.00012101655,0.0010108793,0.000117279924,0.000015599317,0.000029281528,0.000014562298,0.000076878016],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.997669,0.000381908,0.0005807216,0.0007453583,0.00029558802,0.0003274681],"domain_scores_gemma":[0.98668677,0.012218316,0.00043520995,0.0003218204,0.00026835687,0.00006952106],"candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0003255356,0.00026829878,0.00086770655,0.00031404712,0.0002058114,0.00003478237,0.0002408638,0.00010003409,0.00006275217],"category_scores_gemma":[0.012688218,0.00025335152,0.00023684038,0.0012049427,0.00044564708,0.00016501977,0.00041486038,0.00021419508,0.0000019316249],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000091121015,0.00014621722,0.97046554,0.0001740279,0.0016592063,0.0000069902094,0.0007696131,0.00027468835,0.011881945,0.0034381205,0.0014220497,0.009670501],"study_design_scores_gemma":[0.00059036765,0.00012250071,0.9831338,0.00022323364,0.0008148401,0.0000019820811,0.00014736291,0.004877706,0.008273645,0.0008616761,0.0007155974,0.00023731659],"about_ca_topic_score_codex":0.00047002375,"about_ca_topic_score_gemma":0.00047813207,"teacher_disagreement_score":0.01616276,"about_ca_system_score_codex":0.000039203784,"about_ca_system_score_gemma":0.00006493392,"threshold_uncertainty_score":0.9999919},"labels":[],"label_agreement":null},{"id":"W4412110783","doi":"10.1093/cercor/bhaf163","title":"Neural networks underlying magnitude perception: a specific meta-analysis of fMRI studies","year":2025,"lang":"en","type":"review","venue":"Cerebral Cortex","topic":"Cognitive and developmental aspects of mathematical skills","field":"Mathematics","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Manitoba","funders":"Türkiye Bilimsel ve Teknolojik Araştırma Kurumu","keywords":"Functional magnetic resonance imaging; Salience (neuroscience); Perception; Psychology; Cognitive psychology; Neuroimaging; Interoception; Posterior parietal cortex; Neural correlates of consciousness; Neuroscience; Cognition","score_opus":0.32893721446207697,"score_gpt":0.437383270872381,"score_spread":0.10844605641030403,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412110783","genre_codex":"review","genre_gemma":"review","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"review","genre_consensus":"review","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.000019031222,0.992418,0.002074963,0.00003997288,0.00018660513,0.0010453302,0.00008642834,0.000095138625,0.0040345625],"genre_scores_gemma":[0.0003221691,0.9911727,0.004209297,0.00009101997,0.00008266488,0.00018747975,0.00015990563,0.000057737416,0.0037170642],"study_design_codex":"design_other","study_design_gemma":"meta_analysis","domain_scores_codex":[0.9961211,0.00032186162,0.0017661826,0.0007767961,0.000553336,0.00046068724],"domain_scores_gemma":[0.99443924,0.0036067711,0.00081105746,0.00068831764,0.00033438348,0.0001202509],"candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.00052918197,0.0008286293,0.00819215,0.00068100967,0.00015502976,0.00007649026,0.00052799686,0.00029239524,0.0032507626],"category_scores_gemma":[0.0004478256,0.00056288886,0.0055064387,0.00198572,0.00020024904,0.00011129507,0.0005032098,0.0005116782,0.00005554579],"study_design_candidate":"meta_analysis","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000011044456,0.00037842334,0.0000034930574,0.03567883,0.43042275,0.000057322064,0.0003368246,0.0000048989314,1.5827962e-7,0.012145729,0.005290215,0.5156703],"study_design_scores_gemma":[0.00023183117,0.00008415616,0.000060542025,0.0034680949,0.9423629,0.000020764679,0.0007004865,0.0001721754,2.3718648e-7,0.026172083,0.025627082,0.001099619],"about_ca_topic_score_codex":0.0000037649806,"about_ca_topic_score_gemma":0.00003402746,"teacher_disagreement_score":0.5145707,"about_ca_system_score_codex":0.0001755949,"about_ca_system_score_gemma":0.00008800451,"threshold_uncertainty_score":0.99968225},"labels":[],"label_agreement":null},{"id":"W4412487473","doi":"10.1093/cercor/bhaf178","title":"Alterations in cortical 40-Hz auditory steady-state response dynamics in children with mild-to-severe hearing loss are related to hearing aid use","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hearing Loss and Rehabilitation","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Simon Fraser University","funders":"National Institute of General Medical Sciences; National Institute on Deafness and Other Communication Disorders; National Institutes of Health","keywords":"Magnetoencephalography; Audiology; Auditory cortex; Hearing loss; Psychology; Hearing aid; Stimulus (psychology); Lateralization of brain function; Cognition; Unilateral hearing loss; Population; Neuroscience; Electroencephalography; Medicine; Cognitive psychology","score_opus":0.019938100547646238,"score_gpt":0.2779795660203763,"score_spread":0.2580414654727301,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412487473","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99662477,0.00000492425,0.0003027189,0.0016148933,0.00027716547,0.00091409317,0.00003096352,0.00009915222,0.00013129687],"genre_scores_gemma":[0.99705887,0.000002366624,0.00055581523,0.0007873305,0.000018994404,0.000054766962,0.000008023599,0.00003186909,0.0014819596],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9974386,0.00046145468,0.00053435616,0.00075319776,0.0002867358,0.00052565703],"domain_scores_gemma":[0.99868464,0.0005441571,0.0000650082,0.00044248876,0.00005978501,0.00020391557],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00044822894,0.0002253577,0.0003046393,0.000581809,0.0002285957,0.00016657557,0.00022002366,0.00011996241,0.000013199121],"category_scores_gemma":[0.0014374895,0.00021413028,0.00005130968,0.0014206895,0.00011188284,0.00036871334,0.00017639996,0.0006274631,0.00005828778],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0014103799,0.0001730572,0.962464,0.000027386035,0.000009759117,0.00004956923,0.0012549479,0.014519511,0.018557308,0.00093589374,0.00007043949,0.00052776415],"study_design_scores_gemma":[0.000989953,0.00021023452,0.9882758,0.00039898284,0.0000067236133,0.000020319681,0.00018406886,0.008965948,0.00047387808,0.00018302837,0.00003168338,0.00025933413],"about_ca_topic_score_codex":0.0005602578,"about_ca_topic_score_gemma":0.0014397263,"teacher_disagreement_score":0.025811862,"about_ca_system_score_codex":0.00069899985,"about_ca_system_score_gemma":0.00021332175,"threshold_uncertainty_score":0.873198},"labels":[],"label_agreement":null},{"id":"W4412569914","doi":"10.1093/cercor/bhag071","title":"Cortical Functional Connectivity in Mouse Models of Early Blindness: Enucleation vs. Anophthalmia","year":2025,"lang":"en","type":"preprint","venue":"Cerebral Cortex","topic":"Neuroscience and Neuropharmacology Research","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Trois-Rivières","funders":"Fonds de recherche du Québec – Nature et technologies; Natural Sciences and Engineering Research Council of Canada","keywords":"Anophthalmia; Enucleation; Blindness; Cortical blindness; Neuroscience; Functional connectivity; Medicine; Ophthalmology; Biology; Optometry; Surgery; Genetics; Microphthalmia","score_opus":0.10309284452562555,"score_gpt":0.3480071691410964,"score_spread":0.24491432461547086,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412569914","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9953798,0.000014093391,0.00022484081,0.0002183507,0.00125198,0.00077981706,0.00020372316,0.000083215826,0.0018441495],"genre_scores_gemma":[0.9970786,0.00007021203,0.0000134720085,0.0005573691,0.000072309485,0.00008732808,0.0000062505037,0.000024627745,0.0020898317],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99605584,0.0007317451,0.00058572757,0.0013178607,0.0007531581,0.0005556831],"domain_scores_gemma":[0.9981767,0.00072801334,0.00023602402,0.00055639783,0.00014610343,0.0001567922],"candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.00037654382,0.00032836964,0.0005568764,0.0005924182,0.00016624753,0.00008003297,0.0007770239,0.00035281794,0.00020495644],"category_scores_gemma":[0.0007644825,0.00033762486,0.00017580819,0.0007246382,0.00061615935,0.00037985935,0.0011582247,0.001887505,0.000037147638],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0010820007,0.0007551461,0.015547351,0.00019302062,0.000008018418,0.00014746317,0.00015869405,0.0030056948,0.9748329,0.003688913,0.00021881728,0.00036196847],"study_design_scores_gemma":[0.0018679863,0.00071061123,0.13854404,0.0001249567,0.000039525436,0.000037706075,0.000021380378,0.07620242,0.77457285,0.007274795,0.000035208883,0.00056854705],"about_ca_topic_score_codex":0.000096427604,"about_ca_topic_score_gemma":0.000013123935,"teacher_disagreement_score":0.20026009,"about_ca_system_score_codex":0.00011557917,"about_ca_system_score_gemma":0.00069748814,"threshold_uncertainty_score":0.99990755},"labels":[],"label_agreement":null},{"id":"W4412838354","doi":"10.1093/cercor/bhaf159","title":"Two premotor areas (6aα and 6aγ) involved in motor preparation and execution during visually guided locomotion in the cat","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université du Québec à Montréal","funders":"Canadian Institutes of Health Research","keywords":"Supplementary motor area; Premotor cortex; Motor area; Posterior parietal cortex; Cortex (anatomy); Motor cortex; Gait; Neuroscience; Primary motor cortex; Psychology; Computer science; Anatomy; Biology; Physical medicine and rehabilitation; Medicine","score_opus":0.02266738217309903,"score_gpt":0.29151780721626186,"score_spread":0.2688504250431628,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412838354","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9977222,0.000049214297,0.00024073242,0.0005244963,0.00010333596,0.00093187304,0.0000049479313,0.000033828637,0.0003893541],"genre_scores_gemma":[0.9990603,0.000028325763,0.000055904133,0.00032085594,0.00003664994,0.000070107446,0.000006651804,0.0000061154233,0.0004151256],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9988056,0.00022181935,0.00027678034,0.00036734104,0.00015383116,0.00017465858],"domain_scores_gemma":[0.99961334,0.000096343145,0.000083410545,0.00015204314,0.000023121038,0.00003175398],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00024028416,0.00012325718,0.00013206576,0.00016507687,0.00011357285,0.00008535733,0.000102531194,0.00005477318,0.0000056785993],"category_scores_gemma":[0.00022551886,0.00010111569,0.00002129243,0.00020830648,0.0000478661,0.00035771073,0.0000446451,0.00010051622,0.0000023295688],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00033125278,0.00012251666,0.03448327,0.000104110615,0.0000030111578,0.000012685434,0.0018366224,0.00009235805,0.9569369,0.0030535709,0.00004457833,0.0029791042],"study_design_scores_gemma":[0.0019695822,0.00009523108,0.93162,0.00007773176,0.000009851988,0.000008006939,0.00018615641,0.05724309,0.0067957537,0.001813848,0.00006003906,0.00012069224],"about_ca_topic_score_codex":0.00028855645,"about_ca_topic_score_gemma":0.0014154436,"teacher_disagreement_score":0.9501412,"about_ca_system_score_codex":0.00009261847,"about_ca_system_score_gemma":0.000038738828,"threshold_uncertainty_score":0.41233784},"labels":[],"label_agreement":null},{"id":"W4412855354","doi":"10.1093/cercor/bhaf203","title":"Activity of CaMKII-expressing neurons in medial prefrontal cortex of male and female Long-Evans rats is necessary for encoding odor information and novelty recognition in an odor-based incidental memory test","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Memory and Neural Mechanisms","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Foothills Medical Centre; University of Calgary; University of Saskatchewan","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Odor; Novelty; Prefrontal cortex; Neuroscience; Memory test; Psychology; Encoding (memory); Recognition memory; Cognition; Social psychology","score_opus":0.060153848687310926,"score_gpt":0.30693478916175265,"score_spread":0.2467809404744417,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412855354","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.998186,0.000011792208,0.0002878886,0.00006333133,0.00023608893,0.00073579623,0.0002567117,0.000019485053,0.00020293999],"genre_scores_gemma":[0.9993912,0.000011565709,0.00020688823,0.0002733623,0.000017856555,0.000033128195,0.000031721975,0.00001016011,0.000024094294],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.99863625,0.00012937962,0.00045418195,0.00035819682,0.00018939452,0.000232597],"domain_scores_gemma":[0.9989261,0.0005155209,0.00027765083,0.00016403038,0.000042499836,0.0000741676],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0002458423,0.00017797048,0.00031189466,0.00030879592,0.000104561586,0.00004498881,0.00013948999,0.00011533162,0.00003460062],"category_scores_gemma":[0.0004963839,0.00018534948,0.00004095294,0.00028344156,0.00015632101,0.0014544396,0.00009402794,0.00019645783,7.5045284e-7],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0004665215,0.00016478806,0.031216357,0.0003129653,0.0000012895646,0.000007178876,0.0005250342,0.000009457761,0.9590471,0.000009799048,0.0000066941793,0.008232863],"study_design_scores_gemma":[0.0014040852,0.0003350522,0.25943416,0.00018587918,0.000013929716,0.000011120455,0.00023823805,0.009064626,0.7290775,0.000111046524,6.876431e-7,0.00012367193],"about_ca_topic_score_codex":0.000079324585,"about_ca_topic_score_gemma":0.0006130567,"teacher_disagreement_score":0.22996956,"about_ca_system_score_codex":0.000045642933,"about_ca_system_score_gemma":0.000108083776,"threshold_uncertainty_score":0.75583327},"labels":[],"label_agreement":null},{"id":"W4412946471","doi":"10.1093/cercor/bhaf204","title":"Amygdala and cortical substrates of subjective well-being: pathways to reduced aggression in emotional processing contexts","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Education and Early Childhood Development","funders":"","keywords":"Psychology; Amygdala; Aggression; Functional magnetic resonance imaging; Anger; Insula; Anxiety; Neural correlates of consciousness; Neuropsychology; Mood; Neuroimaging; Anterior cingulate cortex; Affective neuroscience; Developmental psychology; Clinical psychology; Neuroscience; Cognition; Psychiatry","score_opus":0.018809137768065285,"score_gpt":0.28413060750356045,"score_spread":0.26532146973549514,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4412946471","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9966017,0.00021655465,0.00009993506,0.00018619657,0.00013051995,0.00028650105,0.000007955413,0.00003355095,0.0024370898],"genre_scores_gemma":[0.9993025,0.00007294582,0.000049482587,0.00028239813,0.000018863047,0.00002032711,0.0000017654384,0.000010327662,0.00024138684],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99858123,0.00012478828,0.000338826,0.00046475595,0.00021622473,0.0002741448],"domain_scores_gemma":[0.9993725,0.00021777322,0.00009881319,0.00014581742,0.00006289162,0.00010224042],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000046951314,0.00015267234,0.0002430505,0.00019821068,0.00012108419,0.000050877657,0.00015405992,0.000080386184,0.00004769657],"category_scores_gemma":[0.00052484404,0.00013657869,0.000043115495,0.0005052734,0.00015836644,0.00012424497,0.0001072835,0.00019546902,0.000006876596],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00077504024,0.00014811214,0.10089371,0.00007234525,0.0000037830732,0.000049676113,0.0007567687,0.000009552314,0.85301715,0.007842808,0.00004389751,0.03638716],"study_design_scores_gemma":[0.00049607345,0.00013024814,0.6559202,0.0006624844,0.0000061207897,0.000012293804,0.00018112177,0.0010269016,0.33977726,0.0016547678,0.00001703502,0.00011552099],"about_ca_topic_score_codex":0.000024817042,"about_ca_topic_score_gemma":0.000029178607,"teacher_disagreement_score":0.5550265,"about_ca_system_score_codex":0.000038248603,"about_ca_system_score_gemma":0.00015796101,"threshold_uncertainty_score":0.5569517},"labels":[],"label_agreement":null},{"id":"W4413355225","doi":"10.1093/cercor/bhaf230","title":"Motor cortical excitability and inhibition are differentially modulated by aerobic exercise intensity","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":3,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Montréal; Institut Universitaire de Gériatrie de Montréal; Cegep Edouard Montpetit","funders":"Fonds de Recherche du Québec - Santé; Natural Sciences and Engineering Research Council of Canada; Université de Montréal","keywords":"Primary motor cortex; Transcranial magnetic stimulation; Neuroplasticity; Motor cortex; High-intensity interval training; Intensity (physics); Neuroscience; Stimulation; Physical medicine and rehabilitation; Psychology; Medicine; Physical therapy","score_opus":0.01593888266141295,"score_gpt":0.24557076253945284,"score_spread":0.2296318798780399,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413355225","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9963355,0.00009883674,0.0015913907,0.00056486455,0.00036114964,0.0005140476,0.000043480457,0.00018740597,0.00030334556],"genre_scores_gemma":[0.998898,0.000031000076,0.00005236343,0.00047441357,0.000017462313,0.000022291031,0.000006888445,0.000011626158,0.00048594616],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9985187,0.0000928794,0.00032442802,0.0005927347,0.00020736661,0.00026390253],"domain_scores_gemma":[0.9992968,0.000180951,0.00006835078,0.00024993293,0.0001040508,0.00009993171],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000065498585,0.00020249847,0.00033461532,0.00007385402,0.0002597563,0.00006789083,0.00009504221,0.0001007027,0.00013878215],"category_scores_gemma":[0.00041529408,0.00018927583,0.00006629215,0.0002832563,0.00037505533,0.00012474076,0.00012288734,0.00020564032,0.00002086077],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0003647319,0.00015401797,0.017033981,0.00005695173,0.0000068922263,0.000006197114,0.00009511288,0.000002757055,0.97997713,0.00042109186,0.0004909445,0.0013902065],"study_design_scores_gemma":[0.0011760073,0.00008197243,0.9757606,0.00007195603,0.000052373718,0.0000027088372,0.000041802003,0.0024989466,0.018316174,0.0017708752,0.00004683125,0.00017977253],"about_ca_topic_score_codex":0.00003759408,"about_ca_topic_score_gemma":0.000019272613,"teacher_disagreement_score":0.9616609,"about_ca_system_score_codex":0.000039570037,"about_ca_system_score_gemma":0.000018759232,"threshold_uncertainty_score":0.77184445},"labels":[],"label_agreement":null},{"id":"W4413355409","doi":"10.1093/cercor/bhaf229","title":"Generalized learning induced by training and tDCS is predicted by prefrontal cortical morphology","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Canadian Institute for Advanced Research","funders":"National Health and Medical Research Council; Australian Research Council; Motor Neurone Disease Research Australia; Australian Government","keywords":"Transcranial direct-current stimulation; Human multitasking; Prefrontal cortex; Stimulation; Cognition; Psychology; Neuroscience; Brain stimulation; Effects of sleep deprivation on cognitive performance; Neuroplasticity; Cognitive training; Executive functions; Working memory; Physical medicine and rehabilitation; Medicine","score_opus":0.03438427358987901,"score_gpt":0.2841182740230452,"score_spread":0.24973400043316618,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4413355409","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99482226,0.00018078196,0.0009540445,0.0008495498,0.00029334126,0.00029242248,0.000085694606,0.00019530048,0.0023265716],"genre_scores_gemma":[0.99563426,0.00003495164,0.00014980875,0.0019137244,0.000028910676,0.000026515947,0.000016807748,0.000019167624,0.0021758797],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.9983093,0.00019552703,0.00032753323,0.0005814624,0.00021009796,0.0003760849],"domain_scores_gemma":[0.9993512,0.00029786417,0.000068303,0.00014386109,0.00003283322,0.00010593383],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007639697,0.00020678337,0.000322918,0.000072180446,0.00032287702,0.000053864125,0.00015001032,0.00013965495,0.00035052592],"category_scores_gemma":[0.00045852954,0.00020316696,0.000047882048,0.00027570152,0.00026666222,0.00009928162,0.00009254906,0.0003682024,0.0000105549],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009581237,0.000044601664,0.0047046873,0.000010204617,0.000016549306,0.0000047128774,0.00095129927,0.000003818901,0.9857662,0.0005874491,0.0043369858,0.0034777077],"study_design_scores_gemma":[0.016474264,0.0019603483,0.82456535,0.00009955689,0.0003203752,0.00007906065,0.0011049814,0.027532175,0.09833641,0.0013949827,0.026802389,0.0013301214],"about_ca_topic_score_codex":0.000053821528,"about_ca_topic_score_gemma":0.0000045909046,"teacher_disagreement_score":0.8874298,"about_ca_system_score_codex":0.00002695496,"about_ca_system_score_gemma":0.000042400603,"threshold_uncertainty_score":0.8284908},"labels":[],"label_agreement":null},{"id":"W4414045202","doi":"10.1093/cercor/bhag067","title":"Language laterality and cognitive skills: does anatomy matter?","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Université de Sherbrooke","funders":"Biotechnology and Biological Sciences Research Council; Directorate for Biological Sciences","keywords":"Cognition; Corpus callosum; Arcuate fasciculus; Splenium; Fractional anisotropy; White matter; Laterality; Neuropsychology; Superior longitudinal fasciculus; Neuroimaging","score_opus":0.007042467838029172,"score_gpt":0.2892371220413176,"score_spread":0.2821946542032884,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414045202","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9738005,0.000032148382,0.00025187968,0.0006563084,0.00043311997,0.00022171735,0.00004344189,0.000116368654,0.024444522],"genre_scores_gemma":[0.9845854,0.000009419437,0.000081157195,0.0079409955,0.000026848831,0.000014370386,0.0000015899154,0.000011535557,0.0073286914],"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","domain_scores_codex":[0.9984523,0.00012656329,0.0002051911,0.0006644873,0.0002004274,0.0003510376],"domain_scores_gemma":[0.9992033,0.0003294617,0.00006618166,0.00026460984,0.000026394,0.00011003911],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00010570438,0.00017508477,0.00018464791,0.00006239426,0.00018452927,0.00012687471,0.0002880042,0.00006228017,0.00034137597],"category_scores_gemma":[0.00057435397,0.00013312548,0.000040839826,0.0005573317,0.00038937927,0.00025830834,0.00024745127,0.00020105838,0.00011662145],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00005674575,0.00027199357,0.36643437,0.00018452616,0.000013980429,0.00025835782,0.001337913,6.6512393e-7,0.590493,0.0035663382,0.0024433131,0.03493882],"study_design_scores_gemma":[0.0006655699,0.000039916842,0.47830385,0.00009496281,0.00002598074,0.000037774345,0.00036588023,0.00035304515,0.51685727,0.0012820009,0.001641125,0.00033259808],"about_ca_topic_score_codex":0.000044231354,"about_ca_topic_score_gemma":0.0000082608685,"teacher_disagreement_score":0.11186951,"about_ca_system_score_codex":0.000024633693,"about_ca_system_score_gemma":0.000042096013,"threshold_uncertainty_score":0.5428699},"labels":[],"label_agreement":null},{"id":"W4414085028","doi":"10.1093/cercor/bhaf249","title":"Statistical parametric mapping and neurometrics—a 30-year dialogue","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"National Natural Science Foundation of China","keywords":"Generative grammar; Neuroinformatics; Convergence (economics); Joint (building); Parametric statistics; Bayesian probability; Trajectory; Generative model","score_opus":0.031205688089449346,"score_gpt":0.27704161101240293,"score_spread":0.2458359229229536,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414085028","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.97807336,0.00010236298,0.012089008,0.00035555643,0.00081245624,0.00019028735,0.000042107047,0.0001305034,0.008204333],"genre_scores_gemma":[0.9965323,0.00003072605,0.00092027994,0.0016259456,0.000053607,0.0000056635085,0.0000033660087,0.000011000495,0.0008171192],"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"observational","domain_scores_codex":[0.99861205,0.00011151335,0.0002368818,0.00052595156,0.0001912529,0.00032234952],"domain_scores_gemma":[0.99853635,0.0010579034,0.00005267264,0.00022187349,0.000025924723,0.00010529082],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001177934,0.0001524998,0.00021016249,0.0005200926,0.00013948377,0.00018644199,0.00027188877,0.000064698295,0.00014090394],"category_scores_gemma":[0.0013327939,0.00013703949,0.000036266123,0.0014491115,0.00014632917,0.000115376904,0.00023215414,0.0002442905,0.00011397803],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00015055852,0.0006992208,0.21156429,0.0006177576,0.00008625418,0.0005313028,0.00088771485,0.000055568125,0.11604745,0.34641692,0.06613185,0.2568111],"study_design_scores_gemma":[0.0017635204,0.00048690816,0.90793395,0.000107757136,0.0000434816,0.00006706063,0.00013568507,0.011929513,0.028392203,0.0174773,0.030919382,0.0007432462],"about_ca_topic_score_codex":0.000021080064,"about_ca_topic_score_gemma":0.0000015720185,"teacher_disagreement_score":0.69636965,"about_ca_system_score_codex":0.000027660946,"about_ca_system_score_gemma":0.000034653836,"threshold_uncertainty_score":0.5588308},"labels":[],"label_agreement":null},{"id":"W4414380054","doi":"10.1093/cercor/bhaf254","title":"The role of etiology in the identification of clinical markers of consciousness: comparing EEG alpha power, complexity, and spectral exponent","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"EEG and Brain-Computer Interfaces","field":"Neuroscience","cited_by":4,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal General Hospital","funders":"Natural Sciences and Engineering Research Council of Canada; Fonds de recherche du Québec – Nature et technologies; European Commission","keywords":"Electroencephalography; Alpha (finance); Identification (biology); Etiology; SIGNAL (programming language); Pattern recognition (psychology); Consciousness; Set (abstract data type)","score_opus":0.045403445107435804,"score_gpt":0.33755492527287595,"score_spread":0.2921514801654401,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4414380054","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.99652046,0.00018307965,0.0000882267,0.00047879806,0.00031426954,0.00021637803,0.000008357908,0.000007733158,0.0021826953],"genre_scores_gemma":[0.9997564,0.00004316413,0.000036149417,0.00011226468,0.00000879571,0.000003921409,0.0000012301962,0.0000030760257,0.000034985398],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9981834,0.00045733646,0.00083845155,0.00023325885,0.0001434967,0.00014403973],"domain_scores_gemma":[0.9981014,0.0011930458,0.00036144216,0.00028570485,0.000040366667,0.000018012128],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00092799426,0.000082844614,0.00029291294,0.00006304265,0.00006744444,0.000021828664,0.0004959272,0.000047993788,0.000008251133],"category_scores_gemma":[0.00028175415,0.000052811127,0.00007177971,0.00017806931,0.0010257737,0.000050113296,0.00015518794,0.0001678036,9.768653e-7],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00048091638,0.00034781487,0.55033684,0.00008086334,0.000036347763,0.0000022034162,0.0012935308,0.00002459446,0.3185843,0.12277553,0.0005556869,0.0054814084],"study_design_scores_gemma":[0.00048453154,0.00015912285,0.91454756,0.000048679183,0.0000113564865,0.000005612199,0.0011661802,0.004467258,0.067802124,0.011042131,0.00020920082,0.00005624264],"about_ca_topic_score_codex":0.00009842798,"about_ca_topic_score_gemma":0.00017663061,"teacher_disagreement_score":0.36421075,"about_ca_system_score_codex":0.0000071560266,"about_ca_system_score_gemma":0.000036761463,"threshold_uncertainty_score":0.37795058},"labels":[],"label_agreement":null},{"id":"W4415127282","doi":"10.1093/cercor/bhaf280","title":"Regional gray matter volume is associated with motor imagery performance in children with and without developmental coordination disorder","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Children's Physical and Motor Development","field":"Psychology","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of Calgary","funders":"Waterloo Foundation","keywords":"Laterality; Neuroimaging; Gray (unit); Typically developing; Motor imagery; Voxel-based morphometry; Brain size; Supplementary motor area; Motor coordination","score_opus":0.006124402624216499,"score_gpt":0.22410957967049905,"score_spread":0.21798517704628256,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4415127282","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9952324,0.000039478884,0.000090040405,0.00059726054,0.00006127658,0.0004943999,0.000017607932,0.00004459152,0.0034229525],"genre_scores_gemma":[0.982399,0.0000030788296,0.0003060209,0.0012507539,0.00002405496,0.00010077523,0.00013263182,0.000023431257,0.015760295],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.998755,0.000038658065,0.00023457747,0.00046268394,0.00018640269,0.00032270284],"domain_scores_gemma":[0.9996344,0.000014597741,0.000094833915,0.00013500586,0.00005834723,0.000062836334],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00007624148,0.0002360299,0.00025548166,0.00014002867,0.00011816237,0.000038573,0.00011702156,0.00008344481,0.00042158985],"category_scores_gemma":[0.0000037820992,0.00017867048,0.000025956855,0.00032582367,0.0001476596,0.00016650165,0.00005858874,0.00021155656,0.000087050015],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00019220398,0.00019135128,0.99134433,0.000007496921,0.00020323283,0.0000012693629,0.00041892027,3.7777534e-7,0.00004175541,0.00008338202,0.0041306047,0.0033850628],"study_design_scores_gemma":[0.0024519588,0.00011844264,0.9962283,0.000106947,0.000028710814,0.000028897332,0.000062234874,0.00005047357,0.000029573988,0.000056495028,0.00055656343,0.00028141928],"about_ca_topic_score_codex":0.0001368162,"about_ca_topic_score_gemma":0.00009236805,"teacher_disagreement_score":0.012833434,"about_ca_system_score_codex":0.000113784976,"about_ca_system_score_gemma":0.00008968839,"threshold_uncertainty_score":0.72859704},"labels":[],"label_agreement":null},{"id":"W4416055450","doi":"10.1093/cercor/bhaf295","title":"Building on models—a perspective for computational neuroscience","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Advanced Memory and Neural Computing","field":"Engineering","cited_by":2,"is_retracted":false,"has_abstract":true,"route_ca_aff":false,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"","funders":"European Research Council; Engineering and Physical Sciences Research Council; Conselho Nacional de Desenvolvimento Científico e Tecnológico; Forschungszentrum Jülich; Bundesministerium für Bildung und Forschung; Fundação de Amparo à Pesquisa do Estado de São Paulo; Deutsche Forschungsgemeinschaft; Natural Sciences and Engineering Research Council of Canada; RWTH Aachen University; European Commission; Government of Ontario","keywords":"Computational neuroscience; Computational model; Neuromorphic engineering; Perspective (graphical); Systems neuroscience; Block (permutation group theory); Correctness; Benchmark (surveying)","score_opus":0.02463626378916327,"score_gpt":0.2947754391518078,"score_spread":0.27013917536264453,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416055450","genre_codex":"methods","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":null,"domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.20356716,0.000063463376,0.7887516,0.00012531267,0.0006509355,0.0001921895,0.0000071706068,0.00028286327,0.006359297],"genre_scores_gemma":[0.9941099,0.0000014484112,0.005194782,0.00045534337,0.0000535302,0.000010116019,0.0000016602476,0.000011671574,0.0001615326],"study_design_codex":"simulation_or_modeling","study_design_gemma":"simulation_or_modeling","domain_scores_codex":[0.9994282,0.000006400432,0.000101763486,0.0002090157,0.000072291885,0.00018230235],"domain_scores_gemma":[0.99971867,0.00010297209,0.000014322096,0.00008409492,0.000046818026,0.000033102933],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000037375168,0.00009993723,0.00009464905,0.00007292685,0.00014423425,0.000023305352,0.00011702853,0.000025324634,0.0000023528662],"category_scores_gemma":[0.000031587693,0.00010284348,0.000047453435,0.00018008315,0.000026571235,0.00013557215,0.00002436423,0.00011456938,0.000002131602],"study_design_candidate":"simulation_or_modeling","study_design_consensus":"simulation_or_modeling","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000010046448,0.0000055872756,0.0000075045923,0.00001346064,0.0000026849423,8.818708e-7,0.000026011723,0.7868719,0.0040934198,0.20689256,0.00020418847,0.0018717535],"study_design_scores_gemma":[0.00022443153,0.000039892253,0.0008340134,0.000027851904,0.000004357195,0.0000019261895,0.00004091297,0.8649229,0.0033230358,0.13012707,0.0003495598,0.0001040854],"about_ca_topic_score_codex":7.4556266e-7,"about_ca_topic_score_gemma":5.363253e-7,"teacher_disagreement_score":0.7905427,"about_ca_system_score_codex":0.00007616959,"about_ca_system_score_gemma":0.00001590001,"threshold_uncertainty_score":0.41938356},"labels":[],"label_agreement":null},{"id":"W4416281975","doi":"10.1093/cercor/bhaf311","title":"Decoding the representational dynamics of emotion concepts and categories during facial emotion perception","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McMaster University; Wilfrid Laurier University","funders":"National Natural Science Foundation of China","keywords":"Categorization; Facial expression; Emotion perception; Perception; Emotion classification; Similarity (geometry); Emotional expression; Representation (politics)","score_opus":0.026428910726440127,"score_gpt":0.3095692267067987,"score_spread":0.2831403159803586,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4416281975","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9941218,0.0000072244356,0.0021144077,0.00072385557,0.00037724545,0.00020687515,0.000026117727,0.000045152676,0.0023773403],"genre_scores_gemma":[0.99870217,0.00007555881,0.000055621946,0.00014522871,0.000051998108,0.000007766667,0.000046230623,0.0000057140924,0.00090968603],"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","domain_scores_codex":[0.99912316,0.00012199269,0.0002148098,0.0002496313,0.00016719631,0.00012321961],"domain_scores_gemma":[0.99963146,0.00008045219,0.00009183835,0.0001089392,0.00006025831,0.000027070762],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001004941,0.00009205592,0.00010068464,0.00009357128,0.00032438306,0.000057390007,0.000077716344,0.00006464813,0.0003259197],"category_scores_gemma":[0.00017065293,0.000077492834,0.000047512396,0.00021640227,0.00021401039,0.00026631771,0.000047149522,0.000119309734,0.000019239404],"study_design_candidate":"observational","study_design_consensus":null,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.000199241,0.00009606565,0.07785258,0.0002163169,0.000015957807,0.0000023346608,0.0051997337,0.00021585874,0.78011185,0.026222302,0.00023863393,0.109629154],"study_design_scores_gemma":[0.0005537156,0.0000324417,0.9583734,0.000043844164,0.000019746596,0.000019687335,0.003574361,0.021470856,0.011923413,0.0038423678,0.000035242563,0.00011090243],"about_ca_topic_score_codex":0.000048574373,"about_ca_topic_score_gemma":0.000071311064,"teacher_disagreement_score":0.8805208,"about_ca_system_score_codex":0.000073570336,"about_ca_system_score_gemma":0.00002783094,"threshold_uncertainty_score":0.35685924},"labels":[],"label_agreement":null},{"id":"W4417221691","doi":"10.1093/cercor/bhaf327","title":"Early functional organization of the anterior and posterior hippocampus in the fetal brain","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Children’s Health Research Institute; Western University","funders":"Canadian Institutes of Health Research; Children's Health Foundation; Canada First Research Excellence Fund; Molly Towell Perinatal Research Foundation; Fondation Brain Canada","keywords":"Functional organization; Hippocampal formation; Functional specialization; Functional connectivity; Functional integration; Cognition; Hippocampus; Brain mapping","score_opus":0.014015896485278055,"score_gpt":0.23259446448971485,"score_spread":0.21857856800443679,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W4417221691","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.98286664,0.000040100396,0.000053960604,0.015505725,0.0005163366,0.00024566747,0.0000101511605,0.000017714494,0.00074371183],"genre_scores_gemma":[0.9918343,0.0000029539885,0.0000068491217,0.0075304434,0.000031543594,0.000008435557,8.176195e-7,0.000006468844,0.0005782038],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9990849,0.00017631325,0.00016675127,0.0002568498,0.00019380094,0.00012136511],"domain_scores_gemma":[0.9983521,0.00132643,0.000068193905,0.00019216682,0.000049554536,0.000011559401],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00016591442,0.00009492237,0.0001160597,0.00006847601,0.0002095092,0.000043816064,0.00018828952,0.000037484286,0.000036465583],"category_scores_gemma":[0.0033729803,0.000058877737,0.00003514588,0.00069290656,0.0002205423,0.0001305513,0.00017689008,0.000131857,0.0000061389705],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00009981206,0.00012367958,0.56920004,0.000057976107,0.000018225188,0.00000528335,0.0012193581,0.000008008423,0.4100681,0.007697304,0.0041768476,0.007325374],"study_design_scores_gemma":[0.00039652124,0.000047570742,0.9906829,0.00003452694,0.000007662014,0.000026317555,0.00015811528,0.00006340985,0.0066787754,0.0016128683,0.0002332155,0.00005809395],"about_ca_topic_score_codex":0.00003473936,"about_ca_topic_score_gemma":0.000071708375,"teacher_disagreement_score":0.4214829,"about_ca_system_score_codex":0.000027983895,"about_ca_system_score_gemma":0.00005802067,"threshold_uncertainty_score":0.40380162},"labels":[],"label_agreement":null},{"id":"W7117415366","doi":"10.1093/cercor/bhaf339","title":"Sex effects on cortical alterations in infants with complex congenital heart disease","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Congenital Heart Disease Studies","field":"Medicine","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"University of British Columbia; TRIUMF","funders":"Fundamental Research Funds for the Central Universities; National Natural Science Foundation of China","keywords":"Heart disease; Magnetic resonance imaging; Brain size; Disease; Brain development; Brain morphometry; Neuroimaging","score_opus":0.01540829097694523,"score_gpt":0.2955183351270895,"score_spread":0.2801100441501443,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7117415366","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.987827,0.00016410025,0.000022622782,0.002039857,0.00013779177,0.000986134,0.000037862497,0.0000980704,0.008686542],"genre_scores_gemma":[0.9933611,0.0000021783762,0.00009567457,0.004184087,0.000090963345,0.00011095854,0.0000589489,0.00001946071,0.002076619],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99868625,0.00007459204,0.00024672633,0.00038413602,0.0002604464,0.00034784077],"domain_scores_gemma":[0.99898475,0.00025591368,0.000017412303,0.00034690398,0.000082182174,0.00031283413],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.000052393665,0.00021790955,0.00039178657,0.00018962339,0.00014597141,0.00003019925,0.000057110527,0.000043522206,0.00015216462],"category_scores_gemma":[0.000201024,0.00017817607,0.00008072615,0.00035795363,0.00016324845,0.00007344841,0.00006933933,0.0002595632,0.00012469212],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.002909306,0.0005801834,0.9832115,0.00026981943,0.00017412128,0.00049721764,0.00015459977,0.0000020871819,0.0012657866,0.0010916628,0.0058159255,0.0040277615],"study_design_scores_gemma":[0.0028950076,0.00046540136,0.9937886,0.00025942893,0.00018470731,0.00001138517,0.00008261926,0.0011643633,0.00020040518,0.00016744617,0.0006064563,0.00017418143],"about_ca_topic_score_codex":0.00003586139,"about_ca_topic_score_gemma":0.00024829165,"teacher_disagreement_score":0.01057707,"about_ca_system_score_codex":0.00009849487,"about_ca_system_score_gemma":0.00025890212,"threshold_uncertainty_score":0.72658086},"labels":[],"label_agreement":null},{"id":"W7123363786","doi":"10.1093/cercor/bhaf342","title":"Adolescent and adult stress alter excitatory-inhibitory network dynamics in the medial prefrontal cortex","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Stress Responses and Cortisol","field":"Neuroscience","cited_by":0,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":false,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"Western University","funders":"Conselho Nacional de Desenvolvimento Científico e Tecnológico; Coordenação de Aperfeiçoamento de Pessoal de Nível Superior; Fundação de Amparo à Pesquisa do Estado de São Paulo","keywords":"Prefrontal cortex; Interneuron; Local field potential; Inhibitory postsynaptic potential; Electrophysiology; Glutamate receptor; Pyramidal cell; Affect (linguistics); Glutamatergic; Neuron","score_opus":0.010748499376485289,"score_gpt":0.25056686035786147,"score_spread":0.23981836098137618,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7123363786","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9939603,0.00038162476,0.000117373726,0.00046853826,0.0010016258,0.0005061995,0.0000563604,0.00005307183,0.0034548969],"genre_scores_gemma":[0.9956898,0.00026320544,0.000017459666,0.003132916,0.00027041728,0.00005275077,0.00001132797,0.00001791879,0.00054418034],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.9979782,0.0002832026,0.00034241783,0.00055748754,0.00034210162,0.00049657776],"domain_scores_gemma":[0.9991337,0.00025706686,0.000096844415,0.00038854018,0.000032705775,0.00009113854],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00005931615,0.00023665793,0.00023166544,0.00008660156,0.00020123487,0.00011894412,0.00043605472,0.000112972026,0.000044342854],"category_scores_gemma":[0.0001585652,0.00017970399,0.00007963277,0.00032141362,0.00025855744,0.00013222313,0.00018819845,0.00041104594,0.0000141317005],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.0029905902,0.0009833823,0.7846293,0.00040460672,0.000042537467,0.000828655,0.0019925814,0.0001335509,0.026405886,0.07030353,0.022284754,0.08900066],"study_design_scores_gemma":[0.0012592281,0.00015320779,0.9839771,0.0002292221,0.000027622917,0.000026269518,0.000907451,0.00991329,0.001332234,0.00094928744,0.0009181912,0.00030691133],"about_ca_topic_score_codex":0.00007721786,"about_ca_topic_score_gemma":0.0020698356,"teacher_disagreement_score":0.19934781,"about_ca_system_score_codex":0.00012492546,"about_ca_system_score_gemma":0.00009617265,"threshold_uncertainty_score":0.7328116},"labels":[],"label_agreement":null},{"id":"W7124538523","doi":"10.1093/cercor/bhaf331","title":"The inferior frontal sulcus in the chimpanzee brain: morphological examination and association with oro-facial communication","year":2025,"lang":"en","type":"article","venue":"Cerebral Cortex","topic":"Hemispheric Asymmetry in Neuroscience","field":"Neuroscience","cited_by":1,"is_retracted":false,"has_abstract":true,"route_ca_aff":true,"route_ca_fund":true,"route_ca_venue":false,"route_about_ca":false,"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Association (psychology); Sulcus; Lateralization of brain function; Brain morphometry; Morphology (biology); Human evolution; Brain mapping; Human brain; Right hemisphere","score_opus":0.014238252840347887,"score_gpt":0.26178932181700276,"score_spread":0.24755106897665488,"validation_status":"score_only:v0-immature-baseline","prediction":{"id":"W7124538523","genre_codex":"empirical","genre_gemma":"empirical","domain_codex":null,"domain_gemma":null,"model_version":"codex-gemma-dda1882f352a","genre_candidate":"empirical","genre_consensus":"empirical","domain_candidate":null,"domain_consensus":null,"prediction_status":"machine_predicted_unvalidated","genre_scores_codex":[0.9855493,0.000031891388,0.000085543325,0.0038211206,0.00012120245,0.0003892898,0.0000048140855,0.000034188983,0.009962706],"genre_scores_gemma":[0.9962551,0.000038877246,0.0000468306,0.0029643804,0.0000183905,0.00004878227,0.0000020724906,0.000005730946,0.00061981374],"study_design_codex":"observational","study_design_gemma":"observational","domain_scores_codex":[0.99809235,0.00069639797,0.00022149438,0.0003247953,0.0003900705,0.00027489488],"domain_scores_gemma":[0.9976718,0.0017446424,0.0001442227,0.00037367482,0.000034735003,0.000030923467],"candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.00093847804,0.0001252125,0.00012146495,0.0000352957,0.00057463045,0.00023950978,0.00061426783,0.000086123255,0.000014758366],"category_scores_gemma":[0.0029540288,0.00007090918,0.0000217883,0.0007028655,0.000327016,0.00019968614,0.00015438418,0.00038420365,0.000007363392],"study_design_candidate":"observational","study_design_consensus":"observational","about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_system_candidate":false,"about_ca_system_consensus":false,"study_design_scores_codex":[0.00018512325,0.00031475088,0.6310421,0.00002199285,0.00000925937,0.000049568902,0.0029019513,0.00003086703,0.26711267,0.026619762,0.0030518458,0.06866007],"study_design_scores_gemma":[0.00046976973,0.00009813177,0.9899606,0.000012747948,0.0000063571756,0.000026056667,0.00036466372,0.0013392046,0.005332233,0.00070036505,0.0015892336,0.0001006338],"about_ca_topic_score_codex":0.000039702805,"about_ca_topic_score_gemma":0.00014327062,"teacher_disagreement_score":0.3589185,"about_ca_system_score_codex":0.00014558205,"about_ca_system_score_gemma":0.0000654165,"threshold_uncertainty_score":0.44196507},"labels":[],"label_agreement":null}]}