{"meta":{"page":1,"per_page":50,"max_per_page":100,"total":810,"total_is_capped":false,"direct_labels_cover":1,"predictions_cover":810,"direct_label_status":"direct model label, unvalidated","prediction_status":"machine_predicted_unvalidated (Codex and Gemma teacher distillation)","score_status":"score_only:v0-immature-baseline (scores rank; they never assert a category)","snapshot":{"source":"OpenAlex, pinned release, all 482 partitions","release":"2026-06-24","frame_built":"2026-07-12"},"query_hash":"982d69bb5546","filters":{"venue":"Human Brain Mapping"}},"results":[{"id":"W2134610285","doi":"10.1002/hbm.20345","title":"Bias between MNI and Talairach coordinates analyzed using the ICBM‐152 brain template","year":2007,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":1512,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute on Drug Abuse; National Institute of Mental Health","keywords":"Neuroscience; Artificial intelligence; Psychology; Pattern recognition (psychology); Computer science; Computer vision","retraction":null,"screen_n_in":null,"score":{"opus":0.1732876367138594,"gpt":0.3369146299333498,"spread":0.1636269932194903,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.002875008,0.0003049413,0.0003633935,0.0003362258,0.002249337,0.0002149086,0.0003296261,0.00009698049,0.00004170979],"category_scores_gemma":[0.007893923,0.000251875,0.0001142823,0.00077341,0.0005504491,0.000311693,0.0003733827,0.000398709,0.00001920896],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001039873,"about_ca_system_score_gemma":0.00002444974,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001221612,"about_ca_topic_score_gemma":0.000068838,"domain_scores_codex":[0.9973783,0.0003724023,0.0004400966,0.000757776,0.0004300863,0.0006213243],"domain_scores_gemma":[0.9806784,0.01858155,0.0002354042,0.0003361524,0.0000618256,0.0001066495],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00002317856,0.00003955141,0.08369476,0.00006219101,0.00008316228,0.0000609573,0.002569259,0.0000729782,0.9005641,0.00399384,0.006903814,0.001932234],"study_design_scores_gemma":[0.001686185,0.0001745553,0.9104298,0.0002308669,0.00007180801,0.0002045632,0.003509801,0.002207259,0.02071447,0.01315248,0.04648001,0.001138241],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9797186,0.000101832,0.005399577,0.01202712,0.0001443806,0.0003817859,0.00001338442,0.0001793725,0.002033987],"genre_scores_gemma":[0.9927267,0.000002437052,0.0002173203,0.005386534,0.0004027112,0.000008442017,0.000003444792,0.00004019606,0.00121226],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8798496,"threshold_uncertainty_score":0.9999933,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2108337682","doi":"10.1002/hbm.20426","title":"A meta‐analytic study of changes in brain activation in depression","year":2007,"lang":"en","type":"review","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":911,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"Centre for Addiction and Mental Health","funders":"National Institute of Mental Health","keywords":"Neuroscience; Psychology; Dorsolateral prefrontal cortex; Insula; Anterior cingulate cortex; Precuneus; Brain activity and meditation; Basal ganglia; Superior frontal gyrus; Neuroimaging; Prefrontal cortex; Parahippocampal gyrus; Cerebellum; Depression (economics); Resting state fMRI; Functional magnetic resonance imaging; Electroencephalography; Temporal lobe; Central nervous system; Cognition; Epilepsy","retraction":null,"screen_n_in":null,"score":{"opus":0.4007786472384696,"gpt":0.4143897878473243,"spread":0.01361114060885471,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.002559549,0.0005278654,0.002360322,0.002530848,0.0001943076,0.00003851426,0.0004626863,0.0002261609,0.00005646475],"category_scores_gemma":[0.009052197,0.0004673933,0.0003033751,0.002157654,0.00009291459,0.0001886473,0.0003593402,0.0007277345,0.000009447532],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0003301765,"about_ca_system_score_gemma":0.00007257535,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0002110363,"about_ca_topic_score_gemma":0.002831822,"domain_scores_codex":[0.9953926,0.001338746,0.0009943491,0.001174629,0.0006410395,0.0004586794],"domain_scores_gemma":[0.980651,0.01797214,0.0007368107,0.0005546053,0.00003941018,0.00004604732],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"design_other","study_design_gemma":"not_applicable","study_design_scores_codex":[0.0001293595,0.006819298,0.001825413,0.06044402,0.004448711,0.0005230629,0.02505223,0.0003371301,0.03346711,0.003184835,0.004748669,0.8590202],"study_design_scores_gemma":[0.003840616,0.0009480595,0.01167264,0.03806534,0.002480188,0.00003923391,0.003914865,0.00009915367,0.0003844525,0.002285612,0.9335105,0.002759332],"study_design_candidate":"not_applicable","study_design_consensus":null,"genre_codex":"review","genre_gemma":"review","genre_scores_codex":[0.01444547,0.9752224,0.0001577023,0.001184345,0.0003215622,0.006217388,0.00001387087,0.0001650265,0.002272217],"genre_scores_gemma":[0.2055538,0.7812711,0.000118109,0.005666432,0.0008247199,0.003026578,0.00005758715,0.0004462888,0.003035329],"genre_candidate":"review","genre_consensus":"review","teacher_disagreement_score":0.9287618,"threshold_uncertainty_score":0.9997778,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1552598564","doi":"10.1002/hbm.22058","title":"Resting-state networks show dynamic functional connectivity in awake humans and anesthetized macaques","year":2012,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":779,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Robarts Clinical Trials; York University; Western University","funders":"Canadian Institutes of Health Research","keywords":"Dynamic functional connectivity; Neuroscience; Functional magnetic resonance imaging; Resting state fMRI; Functional connectivity; Synchronization (alternating current); Wakefulness; Psychology; Arousal; Electrophysiology; Computer science; Electroencephalography","retraction":null,"screen_n_in":null,"score":{"opus":0.05607597448031474,"gpt":0.2786506313633868,"spread":0.2225746568830721,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.001276219,0.000313859,0.0003598044,0.0003136747,0.0009161414,0.0001064754,0.0001546802,0.00009728646,0.0000743904],"category_scores_gemma":[0.003922324,0.000334568,0.00007574994,0.000418388,0.0003684177,0.0005439578,0.0002237095,0.0004872639,0.00001915348],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001734085,"about_ca_system_score_gemma":0.00002351703,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0000664121,"about_ca_topic_score_gemma":0.0003549627,"domain_scores_codex":[0.9973436,0.0005136923,0.0003479711,0.0007226344,0.0003329454,0.0007391769],"domain_scores_gemma":[0.9936444,0.005741546,0.0001595154,0.0002837215,0.00004232704,0.0001284713],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.0001223979,0.0004650852,0.5433439,0.0001593321,0.00004923746,0.00009566196,0.0049452,0.003270065,0.4110726,0.02719004,0.006247379,0.0030391],"study_design_scores_gemma":[0.001072002,0.00005429756,0.9806658,0.0001072354,0.000007128255,0.00009735549,0.0002827854,0.006219918,0.0002223955,0.006285319,0.004497921,0.0004878542],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9903088,0.0002327913,0.00319012,0.003219599,0.0003870977,0.0003921079,0.000006559317,0.0002530509,0.002009868],"genre_scores_gemma":[0.9951904,0.00001600248,0.00009260089,0.003335437,0.0002296045,0.00007949727,0.000007298518,0.00004189768,0.001007207],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.4373219,"threshold_uncertainty_score":0.9999107,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2149754624","doi":"10.1002/hbm.20705","title":"Two systems of resting state connectivity between the insula and cingulate cortex","year":2008,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":679,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Toronto; University Health Network","funders":"Canadian Institutes of Health Research","keywords":"Insula; Anterior cingulate cortex; Neuroscience; Psychology; Insular cortex; Resting state fMRI; Cingulate cortex; Interoception; Posterior cingulate; Default mode network; Functional connectivity; Cortex (anatomy); Cognition; Perception; Central nervous system","retraction":null,"screen_n_in":null,"score":{"opus":0.09050565740310684,"gpt":0.2903349686159007,"spread":0.1998293112127939,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.0009725218,0.0001845077,0.0003412127,0.0001312206,0.001437433,0.00004653108,0.0001994064,0.00003300628,0.000005329648],"category_scores_gemma":[0.007451901,0.0001526631,0.00005274216,0.0003443857,0.0005992216,0.0001720362,0.0002567179,0.0002515965,0.000006436235],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004604673,"about_ca_system_score_gemma":0.00003331517,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0003632512,"about_ca_topic_score_gemma":0.00003565962,"domain_scores_codex":[0.9980245,0.0004577348,0.00035917,0.0004988199,0.0003509433,0.0003088226],"domain_scores_gemma":[0.9876876,0.0115788,0.0002822128,0.0003217736,0.00007575814,0.00005388136],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00001588319,0.00003249915,0.1580904,0.0001480117,0.00005077448,0.0000472026,0.004629999,0.0005728046,0.8272052,0.007906702,0.0009984856,0.0003019717],"study_design_scores_gemma":[0.0006163401,0.00007713697,0.9925302,0.000135982,0.000009145457,0.00008897212,0.000354893,0.0008210806,0.001872262,0.002075409,0.001196321,0.0002222668],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9953562,0.0001088929,0.0005765736,0.0009933282,0.0001579664,0.00037409,0.00001673099,0.000108682,0.00230753],"genre_scores_gemma":[0.9987535,0.000008218611,0.00003077241,0.0005499544,0.000162996,0.00001783901,7.965758e-7,0.00002193471,0.0004540107],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8344398,"threshold_uncertainty_score":0.9998626,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1996630013","doi":"10.1002/hbm.20623","title":"Parcellation‐dependent small‐world brain functional networks: A resting‐state fMRI study","year":2008,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":672,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Key Research and Development Program of China; National High-tech Research and Development Program; National Natural Science Foundation of China","keywords":"Resting state fMRI; Neuroscience; Functional connectivity; Thresholding; Human brain; Neuroimaging; Degree distribution; Complex network; Small-world network; Psychology; Artificial intelligence; Pattern recognition (psychology); Computer science","retraction":null,"screen_n_in":null,"score":{"opus":0.1276827600574583,"gpt":0.2785235060700825,"spread":0.1508407460126242,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.001279822,0.0004165341,0.0004046929,0.0005020917,0.003010112,0.0001361352,0.0003740225,0.000059172,0.0002808023],"category_scores_gemma":[0.007024882,0.0004471662,0.0001509591,0.001018397,0.0003150506,0.0002778687,0.0004124177,0.00057432,0.0001663253],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0002145359,"about_ca_system_score_gemma":0.00008208855,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00009686314,"about_ca_topic_score_gemma":0.0008315313,"domain_scores_codex":[0.9958249,0.0007198402,0.0006377435,0.001271529,0.0008294586,0.0007164924],"domain_scores_gemma":[0.9887555,0.01009429,0.000294285,0.0005721161,0.0001279774,0.0001558091],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"not_applicable","study_design_gemma":"observational","study_design_scores_codex":[0.0003974441,0.002227838,0.2575583,0.0001215166,0.0003279553,0.001523769,0.01447813,0.1171127,0.2045053,0.01145663,0.3881212,0.002169307],"study_design_scores_gemma":[0.003125543,0.0004548064,0.9395958,0.0001134244,0.00002281371,0.0002452056,0.001089968,0.007584327,0.0004400028,0.005943105,0.04020864,0.00117634],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9569551,0.00007129989,0.01370182,0.01231152,0.0009932541,0.001331688,0.00000906271,0.0007207712,0.01390547],"genre_scores_gemma":[0.9610714,0.000004072426,0.0001392806,0.008824601,0.0007791719,0.0001418206,0.000009037012,0.00006293001,0.02896774],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.6820376,"threshold_uncertainty_score":0.999798,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2046078181","doi":"10.1002/1097-0193(200102)12:2<100::aid-hbm1007>3.0.co;2-6","title":"Event-related fMRI study of response inhibition","year":2001,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":621,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"University of British Columbia","funders":"Killam Trusts","keywords":"Dorsolateral prefrontal cortex; Functional magnetic resonance imaging; Neuroscience; Anterior cingulate cortex; Psychology; Supplementary motor area; Prefrontal cortex; Go/no go; Primary motor cortex; Motor cortex; Cerebellum; Brain activity and meditation; Cingulate cortex; Posterior parietal cortex; Central nervous system; Electroencephalography; Cognition; Computer science","retraction":null,"screen_n_in":null,"score":{"opus":0.1837359064392717,"gpt":0.3917433351478425,"spread":0.2080074287085708,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003754069,0.0001181479,0.0001690565,0.0001605129,0.000357682,0.00001372468,0.0001169828,0.00004374249,0.0001187332],"category_scores_gemma":[0.0001865986,0.0001055992,0.0000493453,0.0003944614,0.0001311862,0.0001076571,0.00008148045,0.0001596623,0.0000486454],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00001799728,"about_ca_system_score_gemma":0.000004371437,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00001324656,"about_ca_topic_score_gemma":0.00001441523,"domain_scores_codex":[0.9985105,0.0004340579,0.0003233748,0.0003480945,0.000179715,0.0002042248],"domain_scores_gemma":[0.9994292,0.0001772231,0.0001305111,0.0002051115,0.00002473356,0.00003319528],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0001091584,0.0004722102,0.008300048,0.000003318297,0.000003725052,0.0001454394,0.002178084,0.000005353786,0.9873526,0.00008075589,0.001085375,0.0002640026],"study_design_scores_gemma":[0.003193008,0.001612487,0.9440307,0.00009052258,0.00002157581,0.00009480007,0.004430615,0.00001199409,0.04173428,0.002380613,0.002044617,0.0003547768],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9968529,0.000009640597,0.000008148168,0.001688284,0.0001351618,0.000327863,0.00000138893,0.0000923219,0.0008842383],"genre_scores_gemma":[0.9965391,0.000001931145,0.00000317704,0.0005417943,0.00002366115,0.00001682595,7.742701e-7,0.000009995579,0.002862738],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.9456183,"threshold_uncertainty_score":0.4306209,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2136838610","doi":"10.1002/hbm.20580","title":"Neuronal correlates of spontaneous fluctuations in fMRI signals in monkey visual cortex: Implications for functional connectivity at rest","year":2008,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":596,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Max-Planck-Gesellschaft; European Molecular Biology Organization","keywords":"Neuroscience; Premovement neuronal activity; Resting state fMRI; Functional magnetic resonance imaging; Voxel; Visual cortex; Local field potential; Neurophysiology; Functional connectivity; Brain activity and meditation; Cortex (anatomy); Brain mapping; Blood-oxygen-level dependent; Psychology; Physics; Electroencephalography; Computer science; Artificial intelligence","retraction":null,"screen_n_in":null,"score":{"opus":0.08410879262548808,"gpt":0.3015647193065407,"spread":0.2174559266810526,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0004245966,0.0002323139,0.0003731724,0.0005158033,0.000840174,0.00001683187,0.0001856928,0.00009498725,0.00008590896],"category_scores_gemma":[0.009128981,0.0002723178,0.0001267472,0.0006793029,0.0004055138,0.0002238391,0.0001564797,0.0002561187,0.00001710797],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0003274023,"about_ca_system_score_gemma":0.0001282161,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00007994082,"about_ca_topic_score_gemma":0.001271704,"domain_scores_codex":[0.9977403,0.0002408725,0.0005785471,0.0007468179,0.0002912338,0.0004021708],"domain_scores_gemma":[0.9835932,0.01573718,0.0002305754,0.0002524717,0.0001226724,0.00006384896],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0001312778,0.0003295701,0.07965523,0.00003104956,0.00001161161,0.00003859306,0.0006464213,0.005110849,0.9017618,0.01031244,0.001901394,0.00006980563],"study_design_scores_gemma":[0.00102045,0.0001685471,0.9864562,0.00004346062,0.000005253167,0.0002480845,0.0001038859,0.002825429,0.001607027,0.0067163,0.0005611512,0.0002442087],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9924671,0.00002922023,0.001734782,0.00390205,0.0001908554,0.0008142713,0.00008341139,0.00007447582,0.0007038417],"genre_scores_gemma":[0.9977505,0.000007487965,0.00007062336,0.00112417,0.00009141822,0.0002858274,0.00003510853,0.00002996746,0.0006049534],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.906801,"threshold_uncertainty_score":0.9999729,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2044043911","doi":"10.1002/hbm.20658","title":"Brain activity during visual versus kinesthetic imagery: An fMRI study","year":2008,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Action Observation and Synchronization","field":"Psychology","cited_by":568,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Université Laval; Research Canada; Canadian Institutes of Health Research; Centre for Interdisciplinary Research in Rehabilitation; Université de Montréal","funders":"Canadian Institutes of Health Research","keywords":"Kinesthetic learning; Psychology; Mental image; Brain activity and meditation; Neuroscience; Cognitive psychology; Electroencephalography; Developmental psychology; Cognition","retraction":null,"screen_n_in":null,"score":{"opus":0.09816683289967719,"gpt":0.366738660368361,"spread":0.2685718274686838,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.0003964212,0.0002044023,0.0002218279,0.000242284,0.0009410505,0.00005492718,0.0001757953,0.0001012567,0.001907675],"category_scores_gemma":[0.0001140224,0.0002336882,0.00006519322,0.0003705489,0.00008698765,0.0004128575,0.00004921817,0.0002446791,0.0002738532],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001277278,"about_ca_system_score_gemma":0.00002770112,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001058189,"about_ca_topic_score_gemma":0.00006585332,"domain_scores_codex":[0.9981247,0.0004935603,0.0002931111,0.0004970551,0.0002611743,0.0003304209],"domain_scores_gemma":[0.9990813,0.0001445734,0.0001708711,0.0004180585,0.00007836791,0.0001067923],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.001318144,0.00852058,0.4089068,0.0001095633,0.0005691543,0.00100673,0.1443215,0.0004120637,0.3885686,0.005327122,0.03214371,0.008796132],"study_design_scores_gemma":[0.003141871,0.0003062242,0.9896509,0.000007872617,0.000007646127,0.00003589675,0.003846297,0.0002540326,0.00003870901,0.00003014942,0.002414398,0.0002660062],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9908199,0.000006195684,0.002496108,0.001500308,0.0006273831,0.0004114314,0.000001008548,0.0003371774,0.003800536],"genre_scores_gemma":[0.9932488,4.672905e-7,0.00004986147,0.0004516146,0.0004714073,0.00004874474,0.00002820828,0.00004473028,0.005656152],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.5807441,"threshold_uncertainty_score":0.9990047,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1981033842","doi":"10.1002/hbm.10014","title":"Areas of brain activation in males and females during viewing of erotic film excerpts","year":2002,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Sexuality, Behavior, and Technology","field":"Psychology","cited_by":523,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Institut Universitaire de Gériatrie de Montréal; McGill University; Montreal Neurological Institute and Hospital; Université de Montréal","funders":"Université de Montréal","keywords":"Psychology; Sexual arousal; Functional magnetic resonance imaging; Amygdala; Orbitofrontal cortex; Arousal; Sexual dimorphism; Blood-oxygen-level dependent; Brain activity and meditation; Hypothalamus; Thalamus; Sex characteristics; Anterior cingulate cortex; Brain mapping; Ventral striatum; Audiology; Neuroscience; Prefrontal cortex; Striatum; Internal medicine; Cognition; Medicine; Electroencephalography","retraction":null,"screen_n_in":null,"score":{"opus":0.1155044357969465,"gpt":0.3379765932497847,"spread":0.2224721574528382,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003471884,0.0001454883,0.0003319432,0.0004842874,0.00008515074,0.000009154924,0.0001546798,0.000173518,0.0005739668],"category_scores_gemma":[0.0001646565,0.0001662002,0.00004336277,0.0002632033,0.0001855185,0.0000762062,0.00007303905,0.0001857883,0.000006183597],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00003184822,"about_ca_system_score_gemma":0.000003799666,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001279959,"about_ca_topic_score_gemma":0.00006642861,"domain_scores_codex":[0.9986777,0.0001598424,0.000472973,0.0003113611,0.0001142445,0.0002639203],"domain_scores_gemma":[0.9991252,0.0002579991,0.0002321636,0.0003258205,0.00002877466,0.00003000326],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.00001409968,0.0002195864,0.5099466,0.000325504,0.00004304356,0.00001893026,0.01744486,0.000005692062,0.4462628,0.02193895,0.00020079,0.003579109],"study_design_scores_gemma":[0.0007914851,0.00005582008,0.9926272,0.0002810415,0.000006915986,0.00001474243,0.003159893,0.00002453543,0.001329849,0.001242749,0.0003139855,0.0001517682],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9949097,0.0002265084,0.0000730178,0.0005464429,0.00006362682,0.0002262025,0.000002430344,0.00006101276,0.003891057],"genre_scores_gemma":[0.9981695,0.00000441783,0.00009436462,0.00009624544,0.00003946794,0.00002511969,0.000005945439,0.00002040118,0.001544583],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.4826806,"threshold_uncertainty_score":0.6777448,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2067219344","doi":"10.1002/hbm.20530","title":"Altered small‐world brain functional networks in children with attention‐deficit/hyperactivity disorder","year":2008,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":491,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Beijing Normal University; National Natural Science Foundation of China","keywords":"Functional magnetic resonance imaging; Attention deficit hyperactivity disorder; Resting state fMRI; Neuroscience; Psychology; Prefrontal cortex; Functional connectivity; Cognition; Psychiatry","retraction":null,"screen_n_in":null,"score":{"opus":0.05716483323278067,"gpt":0.2472914347863152,"spread":0.1901266015535345,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.0004819345,0.0003859115,0.0003923206,0.0005002673,0.001479291,0.00007760336,0.0002646144,0.00008346159,0.0001745314],"category_scores_gemma":[0.001731275,0.0003791414,0.000128611,0.001103782,0.0003834433,0.0004471742,0.0002057622,0.0006489878,0.00005643331],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001685043,"about_ca_system_score_gemma":0.00006032285,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001970381,"about_ca_topic_score_gemma":0.001777107,"domain_scores_codex":[0.9969933,0.0004011764,0.0003879037,0.0010806,0.0004877129,0.0006493078],"domain_scores_gemma":[0.9958334,0.003388783,0.000196508,0.0004225736,0.00006187386,0.00009684005],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.00006700888,0.0003067657,0.9585562,0.00001202275,0.00005300585,0.00002832706,0.0001160384,0.007625305,0.02571394,0.002541139,0.0045922,0.0003879981],"study_design_scores_gemma":[0.001651277,0.00008832466,0.993144,0.00006219655,0.000006988746,0.0002054139,0.00007140038,0.001626115,0.00002561384,0.0002922438,0.002362384,0.0004640855],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9787787,0.00005240119,0.01118773,0.00694249,0.0002577864,0.0005944752,0.00001042599,0.0002262746,0.001949785],"genre_scores_gemma":[0.9903635,0.000005872162,0.0001430625,0.00465636,0.0004987105,0.0001251284,0.00003212905,0.00005735562,0.004117814],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.03458771,"threshold_uncertainty_score":0.9998661,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2121805625","doi":"10.1002/hbm.10103","title":"Brain activations during motor imagery of locomotor‐related tasks: A PET study","year":2003,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Motor Control and Adaptation","field":"Neuroscience","cited_by":469,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Université Laval; Université de Montréal; Centre for Interdisciplinary Research in Rehabilitation","funders":"Canadian Stroke Network","keywords":"Precuneus; Cuneus; Psychology; Neuroscience; Supplementary motor area; Premotor cortex; Posterior parietal cortex; Precentral gyrus; Posterior cingulate; Inferior frontal gyrus; Inferior parietal lobule; Cortex (anatomy); Cognition; Anatomy; Functional magnetic resonance imaging; Medicine; Dorsum; Magnetic resonance imaging","retraction":null,"screen_n_in":null,"score":{"opus":0.03784093245824338,"gpt":0.2707573903874557,"spread":0.2329164579292123,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005086394,0.000187832,0.0002552138,0.0003114069,0.0004991188,0.00006765776,0.0002143305,0.00003854942,0.000247624],"category_scores_gemma":[0.001927749,0.0001968859,0.0001032251,0.0004444684,0.00006978427,0.0003278836,0.00004569042,0.0002145068,0.00002687913],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00005706598,"about_ca_system_score_gemma":0.00003976405,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00002278774,"about_ca_topic_score_gemma":0.000006316307,"domain_scores_codex":[0.9979207,0.0004884813,0.0004989682,0.000451206,0.0003267368,0.0003139357],"domain_scores_gemma":[0.9987093,0.0005274399,0.0002810643,0.0003539573,0.00005192651,0.0000763674],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00001034182,0.0002599246,0.001018053,0.00003384989,0.00001478258,0.00004052249,0.002331583,0.00007969866,0.9927935,0.003263812,0.00007403881,0.00007989709],"study_design_scores_gemma":[0.007549244,0.000486541,0.9421677,0.0002634577,0.00003940304,0.00008986977,0.004674203,0.00181841,0.03224815,0.00594344,0.003740686,0.0009789219],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9950899,0.000009952822,0.00104326,0.0003893761,0.0001091477,0.0009969979,0.000008867976,0.0001283828,0.002224086],"genre_scores_gemma":[0.9957667,7.067196e-7,0.0001356239,0.0003091212,0.00004321484,0.00008700844,0.000002942024,0.00002857536,0.003626101],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.9605454,"threshold_uncertainty_score":0.8028773,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1891773028","doi":"10.1002/hbm.22092","title":"Performing label-fusion-based segmentation using multiple automatically generated templates","year":2012,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Cell Image Analysis Techniques","field":"Biochemistry, Genetics and Molecular Biology","cited_by":376,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; Hospital for Sick Children; University of Toronto; Centre for Addiction and Mental Health","funders":"National Institutes of Health","keywords":"Segmentation; Computer science; Artificial intelligence; Voxel; Globus pallidus; Pattern recognition (psychology); Atlas (anatomy); Template; Anterior commissure; Brain atlas; Posterior commissure; Spatial normalization; Image registration; Computer vision; Basal ganglia; Neuroscience; Anatomy; Biology","retraction":null,"screen_n_in":null,"score":{"opus":0.03421955425243162,"gpt":0.3062978787997667,"spread":0.2720783245473351,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0004198291,0.0001653845,0.0001457514,0.0001184537,0.0003446832,0.00005339629,0.0001238993,0.0001140556,0.00008801555],"category_scores_gemma":[0.0001493435,0.0001706886,0.00007398529,0.0001416829,0.00004866541,0.0000164217,0.00008464906,0.00007976944,0.000009158536],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004406859,"about_ca_system_score_gemma":0.00003060313,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00003656041,"about_ca_topic_score_gemma":0.00001364506,"domain_scores_codex":[0.998921,0.00009271521,0.0002832767,0.0002436733,0.0001383367,0.0003209838],"domain_scores_gemma":[0.9993977,0.00003514158,0.0001233406,0.0002791045,0.00008414464,0.00008057528],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"bench_or_experimental","study_design_scores_codex":[0.000005009529,0.00006003902,0.01718511,0.00002771355,0.00003410418,0.000001101782,0.0001084405,0.0001219517,0.9804778,0.000009155775,0.001054034,0.0009156122],"study_design_scores_gemma":[0.0006683508,0.00007891661,0.007400492,0.00006807801,0.00004417266,0.000008890273,0.0001893545,0.1041827,0.8838035,0.00002713059,0.003112755,0.0004156932],"study_design_candidate":"bench_or_experimental","study_design_consensus":"bench_or_experimental","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9312579,0.0001187271,0.06799761,0.00004056978,0.00001892065,0.000184238,0.000001473267,0.00008152326,0.0002990142],"genre_scores_gemma":[0.9598843,0.000002626919,0.03878113,0.0005895587,0.0002221699,0.00001952958,0.0003062273,0.00003068803,0.0001637684],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.1040607,"threshold_uncertainty_score":0.696048,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2057911790","doi":"10.1002/hbm.21307","title":"Enhanced visual functioning in autism: An ALE meta‐analysis","year":2011,"lang":"en","type":"review","venue":"Human Brain Mapping","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":352,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Hôpital du Saint-Sacrement; Université de Montréal","funders":"Natural Sciences and Engineering Research Council of Canada; Canadian Institutes of Health Research; Autism Speaks","keywords":"Psychology; Visual processing; Autism; Cognitive psychology; Perception; Cognition; Visual perception; Sensory processing; Visual cortex; Sensory system; Neuroscience; Developmental psychology","retraction":null,"screen_n_in":null,"score":{"opus":0.2457190865546947,"gpt":0.4127967078873129,"spread":0.1670776213326182,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.001368779,0.0007064546,0.003271081,0.002874265,0.0006454327,0.0002732929,0.001174466,0.0003634347,0.0045106],"category_scores_gemma":[0.0002773363,0.0006699484,0.001719808,0.004102683,0.0002172758,0.0004641724,0.0004469367,0.001295295,0.0004593653],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0002213851,"about_ca_system_score_gemma":0.0002030803,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0002762848,"about_ca_topic_score_gemma":0.0006637532,"domain_scores_codex":[0.9934367,0.001960734,0.001093774,0.001819718,0.0006140649,0.001075019],"domain_scores_gemma":[0.99757,0.0006258357,0.0005546628,0.001024855,0.00001060109,0.0002140866],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"design_other","study_design_gemma":"not_applicable","study_design_scores_codex":[0.00003267452,0.002176989,0.00002911763,0.02838444,0.0679775,0.0007459873,0.01159683,0.0001490847,0.007241049,0.4323846,0.0003575185,0.4489242],"study_design_scores_gemma":[0.0006826698,0.0003374595,0.0005737171,0.002298381,0.06541591,0.00004858623,0.0001799134,0.0005123212,0.0000839389,0.01113237,0.9155166,0.003218192],"study_design_candidate":"not_applicable","study_design_consensus":null,"genre_codex":"review","genre_gemma":"review","genre_scores_codex":[0.000101584,0.9850628,0.004549571,0.0001331984,0.0001091514,0.001240746,0.00001634624,0.0002890409,0.008497544],"genre_scores_gemma":[0.01140217,0.9807749,0.0001433284,0.0002736116,0.0001099206,0.0007880191,0.0001101689,0.0001997744,0.006198121],"genre_candidate":"review","genre_consensus":"review","teacher_disagreement_score":0.915159,"threshold_uncertainty_score":0.9995752,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2026049606","doi":"10.1002/hbm.21416","title":"Localization of pain‐related brain activation: A meta‐analysis of neuroimaging data","year":2011,"lang":"en","type":"review","venue":"Human Brain Mapping","topic":"Pain Mechanisms and Treatments","field":"Medicine","cited_by":348,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Université de Montréal","funders":"Canadian Institutes of Health Research","keywords":"Noxious stimulus; Neuroscience; Insula; Thalamus; Psychology; Anterior cingulate cortex; Precuneus; Amygdala; Posterior cingulate; Neuroimaging; Insular cortex; Nociception; Cortex (anatomy); Medicine; Functional magnetic resonance imaging; Internal medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.3073944214954833,"gpt":0.3946068940739181,"spread":0.08721247257843473,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.002249122,0.000422013,0.003706513,0.001328094,0.0001104902,0.00001416246,0.0004111962,0.0002266684,0.000718709],"category_scores_gemma":[0.0006313335,0.0003455293,0.001222482,0.001819198,0.0000779527,0.0001347664,0.0002115496,0.0002616828,0.000005544209],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00005577108,"about_ca_system_score_gemma":0.0001354159,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001079677,"about_ca_topic_score_gemma":0.000007578227,"domain_scores_codex":[0.9966622,0.0008494229,0.001238985,0.0006828716,0.0003280005,0.0002384977],"domain_scores_gemma":[0.9961076,0.0007248214,0.001363943,0.001577144,0.0001400789,0.00008643256],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"meta_analysis","study_design_gemma":"not_applicable","study_design_scores_codex":[0.00001404565,0.0007519993,0.0001116794,0.04842877,0.6421292,0.00008202082,0.001336999,0.00003901727,0.0002277226,0.007139959,0.002851965,0.2968866],"study_design_scores_gemma":[0.0005599275,0.0001152813,0.0001120806,0.006731431,0.4148607,0.00001221954,0.00006993822,0.002923827,0.000003857538,0.0004525529,0.5737645,0.00039373],"study_design_candidate":"meta_analysis","study_design_consensus":null,"genre_codex":"review","genre_gemma":"review","genre_scores_codex":[0.000003848451,0.9428229,0.05474697,0.0001524761,0.00003526446,0.001085383,0.0001084853,0.00007040757,0.0009743166],"genre_scores_gemma":[0.001382899,0.9750146,0.00283075,0.001198255,0.0001052654,0.000123996,0.01711299,0.0002235912,0.002007604],"genre_candidate":"review","genre_consensus":"review","teacher_disagreement_score":0.5709125,"threshold_uncertainty_score":0.9998997,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2117331609","doi":"10.1002/hbm.20630","title":"Defining the face processing network: Optimization of the functional localizer in fMRI","year":2008,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Face Recognition and Perception","field":"Neuroscience","cited_by":346,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"University of British Columbia","funders":"National Institute of Mental Health; Canadian Institutes of Health Research; Michael Smith Health Research BC; Alzheimer Society","keywords":"Functional magnetic resonance imaging; Psychology; Face (sociological concept); Artificial intelligence; Pattern recognition (psychology); Fusiform face area; Face perception; Computer science; Computer vision; Perception; Neuroscience","retraction":null,"screen_n_in":null,"score":{"opus":0.07986376728108872,"gpt":0.2748829661219829,"spread":0.1950191988408941,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003080654,0.00007936396,0.00008116297,0.00005123946,0.0007321578,0.00002710195,0.0001334339,0.00004445046,0.0002580451],"category_scores_gemma":[0.0002063506,0.00005409479,0.00004440367,0.0004532503,0.0001761124,0.0001360272,0.00004885038,0.0001772095,0.00001635743],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00003050089,"about_ca_system_score_gemma":0.00003850126,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.000008611607,"about_ca_topic_score_gemma":0.00001438909,"domain_scores_codex":[0.9990075,0.0002063395,0.0002154566,0.0001805309,0.0002158128,0.0001743407],"domain_scores_gemma":[0.999563,0.0001557643,0.0001184306,0.0001182316,0.00002788891,0.00001663166],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"simulation_or_modeling","study_design_gemma":"observational","study_design_scores_codex":[0.00001231381,0.00004232743,0.007195821,0.00003680871,0.000001902081,0.000001904338,0.004542454,0.9320448,0.04794493,0.003030769,0.003053591,0.002092348],"study_design_scores_gemma":[0.001400982,0.00003958839,0.5565389,0.0006714883,0.000009624951,0.0001273679,0.002488697,0.4267818,0.002654623,0.002004053,0.006829643,0.0004531743],"study_design_candidate":"simulation_or_modeling","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.8227203,0.0001508355,0.1589662,0.004025868,0.0003440787,0.0005553404,0.000003978123,0.0001090428,0.0131243],"genre_scores_gemma":[0.9971049,0.00001079709,0.0002245722,0.00203373,0.00006543955,0.00001308559,0.000004489544,0.000009808629,0.0005332216],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.5493431,"threshold_uncertainty_score":0.5631239,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2172163771","doi":"10.1002/hbm.20494","title":"Differences in genetic and environmental influences on the human cerebral cortex associated with development during childhood and adolescence","year":2007,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Cognitive Abilities and Testing","field":"Psychology","cited_by":332,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital; Hospital for Sick Children","funders":"National Institute of Mental Health; National Institutes of Health","keywords":"Heritability; Prefrontal cortex; Neuroscience; Psychology; Twin study; Cortex (anatomy); Population; Cerebral cortex; Sensory system; Cognition; Developmental psychology; Biology; Evolutionary biology; Medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.02600541103425977,"gpt":0.2429190115525143,"spread":0.2169136005182546,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003786718,0.0001585783,0.0001460647,0.00009131288,0.0005574833,0.0000489891,0.00009360129,0.00004693411,0.0001124165],"category_scores_gemma":[0.00005872564,0.0001193653,0.00001202049,0.00007913695,0.0002621002,0.00003901478,0.00007196968,0.0002169055,0.000002318516],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004825705,"about_ca_system_score_gemma":0.000007110007,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0000616066,"about_ca_topic_score_gemma":0.0004297746,"domain_scores_codex":[0.9988534,0.00009493115,0.0002436432,0.0003372437,0.0001399761,0.0003308112],"domain_scores_gemma":[0.9993348,0.0004034596,0.0001049348,0.0001017115,0.000006313795,0.00004874362],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.000005244099,0.00007670384,0.9815624,0.000009177733,0.00002740715,0.00002125595,0.01317475,2.303074e-7,0.003443108,0.000314897,0.000002049285,0.00136282],"study_design_scores_gemma":[0.0006094446,0.00007935806,0.9886788,0.0003473249,0.000004003432,0.00001179866,0.009807803,0.0000030541,0.00003271058,0.0002472098,0.000004761933,0.0001738024],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9985194,0.00009071679,0.00001151683,0.00006576756,0.00001506898,0.0002473961,0.00000212855,0.00002605891,0.001021942],"genre_scores_gemma":[0.9995086,9.607171e-7,0.00003143049,0.0002526246,0.00003124289,0.00001694007,0.000004528755,0.00001191852,0.0001418139],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.007116376,"threshold_uncertainty_score":0.4867577,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2159376206","doi":"10.1002/hbm.20145","title":"Cortical regions involved in eye movements, shifts of attention, and gaze perception","year":2005,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":314,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"","keywords":"Intraparietal sulcus; Gaze; Eye movement; Psychology; Saccade; Covert; Saccadic masking; Frontal eye fields; Perception; Posterior parietal cortex; Cognitive psychology; Brain mapping; Eye tracking; Visual perception; Neuroscience; Computer vision; Computer science","retraction":null,"screen_n_in":null,"score":{"opus":0.08912369693791622,"gpt":0.3367605337824384,"spread":0.2476368368445221,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003312668,0.0001001755,0.0001321354,0.0001790275,0.0002179758,0.00004468504,0.0001011512,0.00006245098,0.0002359765],"category_scores_gemma":[0.0001818216,0.0001062599,0.00003311982,0.000203557,0.0001195927,0.0002130669,0.00005170457,0.0001569158,0.00002953471],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004138739,"about_ca_system_score_gemma":0.00001194077,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00000830314,"about_ca_topic_score_gemma":0.00003872527,"domain_scores_codex":[0.9988756,0.000144141,0.0003030472,0.0002970579,0.0001895252,0.00019066],"domain_scores_gemma":[0.9996502,0.00005300819,0.00008401685,0.0001282288,0.00002248217,0.00006209868],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.000004942819,0.00007364903,0.00298665,0.00003491574,8.641143e-7,0.000001222953,0.001526174,0.00000649527,0.9818169,0.0125802,0.0001489577,0.0008190162],"study_design_scores_gemma":[0.001414966,0.0001277372,0.9690285,0.0003386824,0.00000584667,0.00000359491,0.002966402,0.00516364,0.005322984,0.01343601,0.001853373,0.0003382396],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9927232,0.000009299062,0.004815088,0.001313939,0.00003787332,0.0001401456,0.000001808795,0.000053444,0.0009052234],"genre_scores_gemma":[0.9962536,0.00001472097,0.0005826104,0.002272725,0.00005968284,0.000009536491,0.000005818762,0.00001155009,0.0007898142],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.9764939,"threshold_uncertainty_score":0.4333153,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1982197374","doi":"10.1002/hbm.20887","title":"Neuroanatomical differences in brain areas implicated in perceptual and other core features of autism revealed by cortical thickness analysis and voxel‐based morphometry","year":2009,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":303,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Université de Montréal; McGill University; Hôpital Rivière-des-Prairies; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Autism; Psychology; Voxel-based morphometry; Brain morphometry; Perception; White matter; Voxel; Autism spectrum disorder; Neuroscience; Brain size; Developmental psychology; Audiology; Magnetic resonance imaging; Medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.04726324925257997,"gpt":0.3167334234660002,"spread":0.2694701742134202,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005601041,0.0002562463,0.000614528,0.001175794,0.0001694533,0.00009096895,0.0003590376,0.0001718287,0.0001173944],"category_scores_gemma":[0.0008650653,0.0002440454,0.00007178227,0.00215578,0.0006044942,0.0001031946,0.0001218533,0.0006982303,0.000001391512],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004999403,"about_ca_system_score_gemma":0.00003816099,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0003411126,"about_ca_topic_score_gemma":0.0003546501,"domain_scores_codex":[0.9970933,0.0005905751,0.0004930893,0.0008277741,0.0004437519,0.0005515413],"domain_scores_gemma":[0.9982599,0.001122006,0.0001232843,0.000331247,0.000008382236,0.0001552012],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00005969814,0.000201523,0.4016833,0.00003432696,0.0000118426,0.00004167295,0.001170869,0.000003577411,0.5827088,0.01351249,0.0001368654,0.0004350443],"study_design_scores_gemma":[0.001091684,0.0001134052,0.9886329,0.00005738583,0.0000150136,0.00001430145,0.0001773884,0.004526684,0.0005689082,0.004539909,0.00002313001,0.0002392882],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.990213,0.0001205687,0.000397413,0.008585873,0.000007671357,0.0003732276,0.00002954686,0.00004791042,0.0002247589],"genre_scores_gemma":[0.9976528,0.000009425605,0.00005303451,0.002133843,0.000006261711,0.00001432593,0.000008475987,0.0000193896,0.0001024872],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.5869496,"threshold_uncertainty_score":0.9951882,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2084040282","doi":"10.1002/hbm.20178","title":"Spatiotemporal mapping of cortical activity accompanying voluntary movements using an event‐related beamforming approach","year":2005,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":303,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Hospital for Sick Children","funders":"Canadian Institutes of Health Research","keywords":"Precentral gyrus; Neuroscience; Magnetoencephalography; Motor cortex; Psychology; Postcentral gyrus; Brain activity and meditation; Premotor cortex; Electroencephalography; Functional magnetic resonance imaging; Medicine; Anatomy; Magnetic resonance imaging","retraction":null,"screen_n_in":null,"score":{"opus":0.118746630142994,"gpt":0.3162310831390816,"spread":0.1974844529960876,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.001057455,0.000362101,0.0005127334,0.0004470499,0.001268151,0.00007758075,0.0003972663,0.0001335727,0.00007373791],"category_scores_gemma":[0.001727975,0.000409491,0.0001756649,0.0006342516,0.0002829288,0.001309852,0.0003795746,0.0005594729,0.00001078032],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0003492862,"about_ca_system_score_gemma":0.00007020547,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001798181,"about_ca_topic_score_gemma":0.00002851927,"domain_scores_codex":[0.9965903,0.0004337303,0.0007098569,0.0009191546,0.0007022542,0.0006447627],"domain_scores_gemma":[0.9975443,0.001294614,0.0004656287,0.0004766468,0.00007756631,0.000141177],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","study_design_scores_codex":[0.00002525592,0.0006096502,0.008233596,0.0001100926,0.00005791175,0.000006627871,0.003013951,0.01054465,0.9734288,0.0009030258,0.0000943164,0.00297205],"study_design_scores_gemma":[0.002837598,0.0001806165,0.3598488,0.0004182788,0.0000439741,0.00008581298,0.003280818,0.5831192,0.04535059,0.001955697,0.001569904,0.001308759],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9658054,0.00002067122,0.03158596,0.0005070827,0.00018928,0.0004974414,0.00001105241,0.0001952944,0.00118782],"genre_scores_gemma":[0.9939592,0.000001186978,0.004361976,0.001138335,0.0002542075,0.00002045427,0.00001233273,0.00005207409,0.0002001694],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.9280783,"threshold_uncertainty_score":0.9998357,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W3131059059","doi":"10.1002/hbm.25364","title":"Cortical thickness across the lifespan: Data from 17,075 healthy individuals aged 3–90 years","year":2021,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Retinal Imaging and Analysis","field":"Medicine","cited_by":294,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Toronto; University of British Columbia; Université de Montréal; Vancouver Coastal Health","funders":"National Center for Research Resources; National Cancer Institute; National Institute on Drug Abuse; National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; Seventh Framework Programme; School of Medicine, Indiana University; National Institutes of Health; National Center for Advancing Translational Sciences; Medical Research Council; Medical Research Council Canada; Rheinische Friedrich-Wilhelms-Universität Bonn; University of Cape Town; Instituto de Salud Carlos III; Universitat de Barcelona; Universidade de São Paulo; University of Galway; Cardiff University; King's College London; University of Edinburgh; National Institute on Aging; National Institute for Health and Care Research; Northwestern University; York University; Icahn School of Medicine at Mount Sinai; Eunice Kennedy Shriver National Institute of Child Health and Human Development; ZonMw; National Alliance for Research on Schizophrenia and Depression; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; Wellcome Trust; Universiteit Leiden; National University of Ireland; Instituto de Investigación Marqués de Valdecilla; Norges Forskningsråd; University of Oxford; South London and Maudsley NHS Foundation Trust; Johns Hopkins University; Manitoba Health Research Council; FP7 Ideas: European Research Council; Psychiatry Research Trust; National Institute of Mental Health; Universität Basel; Vetenskapsrådet","keywords":"Psychology; Neuroscience; Healthy aging; Developmental psychology; Audiology; Gerontology; Medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.1011094664905792,"gpt":0.3820990350323029,"spread":0.2809895685417237,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.001524969,0.0001689955,0.0004314923,0.00005341634,0.0006198899,0.0002158608,0.0004742481,0.00009416066,0.0005517045],"category_scores_gemma":[0.001226498,0.000134485,0.0001107423,0.0004313846,0.0002208125,0.0001087235,0.0005287646,0.0007488551,0.0001172937],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00003571309,"about_ca_system_score_gemma":0.0001502178,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0002367155,"about_ca_topic_score_gemma":0.0001090263,"domain_scores_codex":[0.9976317,0.0004043281,0.0004272702,0.0005901773,0.0004976549,0.0004488288],"domain_scores_gemma":[0.9974652,0.0007083198,0.0001289051,0.00143015,0.00008802272,0.0001793922],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"not_applicable","study_design_gemma":"observational","study_design_scores_codex":[0.0001105126,0.0006506008,0.402537,0.0003528896,0.001842186,0.002244226,0.02661624,0.00002218866,0.1481307,0.0009998195,0.4068806,0.009613042],"study_design_scores_gemma":[0.00102204,0.00003226974,0.9061145,0.0003433406,0.0001836772,0.00007347627,0.005101142,0.0005999479,0.00004155024,0.000403481,0.08587626,0.0002082885],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9535614,0.0009046633,0.001303604,0.04258291,0.0001338792,0.000164147,0.000130235,0.0001143015,0.00110486],"genre_scores_gemma":[0.9745895,0.00003540873,0.0009290872,0.01867402,0.0008608279,0.000008862221,0.00129263,0.00003445541,0.003575211],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.5035775,"threshold_uncertainty_score":0.6040777,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2121502050","doi":"10.1002/hbm.20779","title":"Lateralization of the arcuate fasciculus from childhood to adulthood and its relation to cognitive abilities in children","year":2009,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":292,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Alberta","funders":"Natural Sciences and Engineering Research Council of Canada; Alberta Heritage Foundation for Medical Research; Fondation pour la Recherche Médicale","keywords":"Arcuate fasciculus; Lateralization of brain function; Psychology; Fractional anisotropy; Tractography; White matter; Cognition; Uncinate fasciculus; Inferior longitudinal fasciculus; Fasciculus; Audiology; Diffusion MRI; Developmental psychology; Neuroscience; Medicine; Magnetic resonance imaging","retraction":null,"screen_n_in":null,"score":{"opus":0.03397784302624989,"gpt":0.3133896116484022,"spread":0.2794117686221523,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0000787236,0.00007803104,0.000122209,0.00009963856,0.00008535074,0.00000918043,0.00005350827,0.00002723801,0.00000557669],"category_scores_gemma":[0.0001691067,0.00006613458,0.00002253438,0.0002347891,0.00001550302,0.00005462602,0.00003766485,0.00009422637,0.00000186183],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00002246433,"about_ca_system_score_gemma":0.000009431016,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00002188598,"about_ca_topic_score_gemma":0.000004146529,"domain_scores_codex":[0.9993826,0.00003189901,0.0001906107,0.0002058341,0.00008932655,0.00009971757],"domain_scores_gemma":[0.9996752,0.00003902882,0.00005607093,0.0001399959,0.00004788084,0.00004187757],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0000680837,0.0004361253,0.433881,0.0000544412,0.00004263734,0.000002470624,0.03967119,0.0003472269,0.4868681,0.02058988,0.0006314687,0.01740736],"study_design_scores_gemma":[0.0003672338,0.00006555189,0.9875979,0.000485648,0.000008758579,0.000003335155,0.0001354515,0.00009510426,0.001989856,0.009138396,0.00004499677,0.00006778684],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9881288,0.00002795021,0.004386061,0.006180303,0.000005329039,0.001011376,0.00001529535,0.00005367633,0.0001912045],"genre_scores_gemma":[0.995964,0.00000445024,0.001183649,0.002698643,0.0000331576,0.00002817459,0.00003336435,0.00000843611,0.00004611596],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.5537169,"threshold_uncertainty_score":0.269689,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2737094118","doi":"10.1002/hbm.23743","title":"Towards a unified analysis of brain maturation and aging across the entire lifespan: A MRI analysis","year":2017,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":286,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"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 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 Institute on Drug Abuse; Engineering and Physical Sciences Research Council; National Institutes of Health; Genentech; Dana Foundation; Agence Nationale de la Recherche; Canadian Institutes of Health Research; National Health and Medical Research Council; Leon Levy Foundation; GlaxoSmithKline; Alzheimer's Drug Discovery Foundation; Medical Research Council; Centre National de la Recherche Scientifique; National Institute on Aging; Alzheimer's Association","keywords":"Brain size; White matter; Neuroimaging; Encephalization; Neuroscience; Aging brain; Hum; Brain aging; Amygdala; Senescence; Psychology; Hippocampus; Magnetic resonance imaging; Cognition; Medicine; Internal medicine; History","retraction":null,"screen_n_in":null,"score":{"opus":0.08566485548572217,"gpt":0.4056353312085949,"spread":0.3199704757228727,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0005167524,0.0001286474,0.0003940475,0.0002927429,0.0009913314,0.0001389932,0.0002358048,0.0000463252,0.00002162233],"category_scores_gemma":[0.0002162826,0.0001014155,0.0002264886,0.0007216728,0.0002326692,0.0001167556,0.0001687567,0.0001707729,6.260687e-7],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00002435364,"about_ca_system_score_gemma":0.00001505374,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001695111,"about_ca_topic_score_gemma":0.0001395259,"domain_scores_codex":[0.9989627,0.00004668424,0.0002947005,0.000321617,0.0001824049,0.0001919204],"domain_scores_gemma":[0.9983906,0.0001163503,0.0003560207,0.0009890776,0.00008960393,0.00005833464],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0001065697,0.0002821213,0.3007215,0.0004414515,0.01118329,0.00005757411,0.02076884,0.0008090822,0.5788466,0.04583605,0.005392955,0.03555402],"study_design_scores_gemma":[0.0002875483,0.00002063596,0.9769732,0.00005800108,0.001562651,0.000004637979,0.0005577061,0.01309698,0.0003916848,0.001212132,0.005712861,0.000121952],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.8465302,0.00008229236,0.1075819,0.04424908,0.00001409929,0.0004105786,0.00002545352,0.0001276348,0.0009787716],"genre_scores_gemma":[0.9952269,0.00002065156,0.002775643,0.001045502,0.00005537154,0.00003176986,0.00006164634,0.00001290863,0.0007696591],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.6762517,"threshold_uncertainty_score":0.762462,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2068327720","doi":"10.1002/hbm.20355","title":"Dissociation of response inhibition and performance monitoring in the stop signal task using event‐related fMRI","year":2007,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":284,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"St. Joseph’s Healthcare Hamilton; McMaster University; St. Joseph's Hospital; Hospital for Sick Children","funders":"","keywords":"Stop signal; Functional magnetic resonance imaging; Neuroscience; Psychology; Anterior cingulate cortex; Go/no go; Response inhibition; Prefrontal cortex; Inferior frontal gyrus; Neural substrate; Cognition; Computer science","retraction":null,"screen_n_in":null,"score":{"opus":0.1417873453443838,"gpt":0.3768753802212353,"spread":0.2350880348768516,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.001221816,0.00007995473,0.00009699243,0.0001290546,0.0003431188,0.00001529545,0.00006716634,0.00004510788,0.000003466229],"category_scores_gemma":[0.0000987945,0.00006380913,0.00002322552,0.0002884732,0.0001205275,0.0001553825,0.00003571543,0.0001733656,0.000001107559],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00003754487,"about_ca_system_score_gemma":0.00000402888,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.000009104952,"about_ca_topic_score_gemma":0.000002587087,"domain_scores_codex":[0.9990107,0.0002172688,0.0002499857,0.0001842398,0.0001566698,0.0001810677],"domain_scores_gemma":[0.9994584,0.0003089302,0.00012992,0.00007326889,0.00001494915,0.00001454698],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00005446936,0.00003018862,0.06953129,0.00000880143,9.257362e-7,0.00001253071,0.003742801,0.00001377282,0.9258614,0.00003309273,0.000007385194,0.0007033165],"study_design_scores_gemma":[0.0003279283,0.00008484664,0.9368172,0.0001018305,0.00000417077,0.00001422942,0.001243399,0.00007572355,0.06099257,0.0002417856,0.00001833563,0.00007793718],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9992144,0.00002613246,0.00004449179,0.000408301,0.00007266525,0.0001479613,0.000001106691,0.00001703288,0.00006792643],"genre_scores_gemma":[0.9997527,0.00000414434,0.00001600312,0.0001221815,0.00003493666,0.000002812906,5.366304e-7,0.000005069788,0.00006162546],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.867286,"threshold_uncertainty_score":0.2639027,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2521839929","doi":"10.1002/hbm.23402","title":"The neurobiology of emotion regulation in posttraumatic stress disorder: Amygdala downregulation via real‐time fMRI neurofeedback","year":2016,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Posttraumatic Stress Disorder Research","field":"Psychology","cited_by":276,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Canadian Armed Forces; St. Joseph’s Healthcare Hamilton; St Joseph's Health Care; McMaster University; Lawson Health Research Institute; Western University","funders":"Canadian Institutes of Health Research; General Dynamics Land Systems; Canadian Institute for Military and Veteran Health Research","keywords":"Amygdala; Neurofeedback; Psychology; Neuroscience; Anterior cingulate cortex; Insula; Dorsolateral prefrontal cortex; Functional magnetic resonance imaging; Prefrontal cortex; Ventrolateral prefrontal cortex; Downregulation and upregulation; Electroencephalography; Cognition","retraction":null,"screen_n_in":null,"score":{"opus":0.04019932610391821,"gpt":0.3251482584279668,"spread":0.2849489323240486,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.001022816,0.0002542357,0.0003709795,0.0003860862,0.0003238868,0.00004135486,0.0005136519,0.0001878673,0.0008634821],"category_scores_gemma":[0.000271824,0.0001806065,0.0001056547,0.0004600759,0.0004151673,0.00018982,0.0001224912,0.0002040826,0.0002018547],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0000863217,"about_ca_system_score_gemma":0.00002426007,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0006006442,"about_ca_topic_score_gemma":0.0004565352,"domain_scores_codex":[0.9962558,0.001323494,0.0009283227,0.0005220038,0.0003306284,0.0006398247],"domain_scores_gemma":[0.996833,0.001678615,0.0004401855,0.0008688386,0.0001110925,0.00006824175],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0002876414,0.0008336887,0.09986695,0.0002968335,0.0001775533,0.00001031746,0.01137063,0.0002816385,0.7282988,0.05839936,0.002784408,0.09739222],"study_design_scores_gemma":[0.001373185,0.0001793735,0.9865073,0.0002524538,0.000007739345,0.000006335841,0.0005953581,0.0005046541,0.0001943601,0.009976884,0.0002037578,0.000198584],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9863707,0.00006040256,0.001993555,0.004495948,0.0001790061,0.0009272876,0.00001715191,0.00009446369,0.005861426],"genre_scores_gemma":[0.9973086,0.00001937852,0.00004657418,0.00004865253,0.00006701849,0.00008187989,0.00005796923,0.00004732965,0.002322601],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8866404,"threshold_uncertainty_score":0.9454523,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1973374859","doi":"10.1002/hbm.20964","title":"Optimal transcranial magnetic stimulation coil placement for targeting the dorsolateral prefrontal cortex using novel magnetic resonance image‐guided neuronavigation","year":2010,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Transcranial Magnetic Stimulation Studies","field":"Neuroscience","cited_by":265,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Toronto; Centre for Addiction and Mental Health","funders":"National Health and Medical Research Council; Medical Research Council; Canadian Institutes of Health Research; National Alliance for Research on Schizophrenia and Depression; Pfizer","keywords":"Transcranial magnetic stimulation; Dorsolateral prefrontal cortex; Scalp; Neuronavigation; Magnetic resonance imaging; Neuroscience; Psychology; Prefrontal cortex; Schizophrenia (object-oriented programming); Stimulation; Medicine; Cognition; Radiology; Anatomy; Psychiatry","retraction":null,"screen_n_in":null,"score":{"opus":0.0552299801976552,"gpt":0.3046195958246045,"spread":0.2493896156269493,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.0005573832,0.0004152977,0.0003295407,0.0001381691,0.001659737,0.0002798244,0.0004337429,0.000124028,0.0003422746],"category_scores_gemma":[0.0005275253,0.0003833133,0.0001709087,0.0003220064,0.0004350403,0.0003612718,0.00008008198,0.0004445285,0.0000123361],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00006498105,"about_ca_system_score_gemma":0.00005469035,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00007471029,"about_ca_topic_score_gemma":0.00004082031,"domain_scores_codex":[0.9969006,0.0001622155,0.0008290072,0.0008559715,0.0005758223,0.0006763828],"domain_scores_gemma":[0.9982862,0.0008403466,0.0002401356,0.0003738329,0.000159043,0.0001004615],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"simulation_or_modeling","study_design_scores_codex":[0.0001457179,0.00008455446,0.0002140166,0.00005071735,0.000003388895,0.000003300399,0.002348203,0.006880302,0.9885179,0.0007104468,0.0001285182,0.0009128727],"study_design_scores_gemma":[0.009177271,0.0008532646,0.4204881,0.0001245264,0.0001113256,0.00006680497,0.0004356223,0.5561936,0.004256872,0.0007990847,0.006526141,0.0009673291],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9454563,0.00009427941,0.05018325,0.0008767411,0.0007375484,0.002102588,0.00007102061,0.0001888308,0.0002895073],"genre_scores_gemma":[0.9773558,0.000002461177,0.02091384,0.0007094542,0.0005158569,0.0001403359,0.00002392341,0.0000768618,0.0002614553],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.9842611,"threshold_uncertainty_score":0.9998619,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2784262759","doi":"10.1002/hbm.23950","title":"Functional connectivity predicts gender: Evidence for gender differences in resting brain connectivity","year":2018,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":244,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Manitoba","funders":"","keywords":"Default mode network; Psychology; Ventromedial prefrontal cortex; Resting state fMRI; Human Connectome Project; Functional magnetic resonance imaging; Connectome; Neurotypical; Autism spectrum disorder; Neuroimaging; Brain activity and meditation; Prefrontal cortex; Cognition; Neuroscience; Developmental psychology; Autism; Functional connectivity; Electroencephalography","retraction":null,"screen_n_in":null,"score":{"opus":0.3351633946099881,"gpt":0.3477901299051856,"spread":0.01262673529519753,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch","metaepi_narrow","sts"],"consensus_categories":[],"category_scores_codex":[0.002920862,0.0004926539,0.0005935802,0.0005071346,0.001846088,0.0001994503,0.000475575,0.0001884832,0.0001710292],"category_scores_gemma":[0.09730305,0.0005173978,0.0001953866,0.0008375896,0.0008411873,0.000941224,0.0004170383,0.0004900083,0.00005671692],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0003742285,"about_ca_system_score_gemma":0.0001938962,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00009707677,"about_ca_topic_score_gemma":0.0004108023,"domain_scores_codex":[0.9948965,0.0009133492,0.0006132739,0.001823395,0.0007727142,0.0009807959],"domain_scores_gemma":[0.9463272,0.05235057,0.000337098,0.0005635494,0.0002642914,0.0001572581],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0003156138,0.0002706752,0.1147252,0.0002974448,0.00006197032,0.00002489173,0.003728879,0.00007839079,0.8100106,0.03997342,0.02954802,0.0009648922],"study_design_scores_gemma":[0.001868426,0.0003874974,0.9294987,0.0003434362,0.00001741145,0.00005007584,0.0007077064,0.00484981,0.007697814,0.05193995,0.001857565,0.0007816009],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9542072,0.000101898,0.03217993,0.008186956,0.00104255,0.00127727,0.00003847435,0.0004072207,0.00255844],"genre_scores_gemma":[0.9900952,0.000003475051,0.0004138888,0.007195064,0.001342739,0.0003904883,0.000005518524,0.0000555615,0.0004980518],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8147735,"threshold_uncertainty_score":0.9997278,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2343802789","doi":"10.1002/hbm.23215","title":"Dynamic functional connectivity reveals altered variability in functional connectivity among patients with major depressive disorder","year":2016,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":238,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"","funders":"FP7 Information and Communication Technologies; Instituto de Salud Carlos III; European Research Council; Institute of Infection and Immunity; European Commission","keywords":"Functional connectivity; Major depressive disorder; Neuroscience; Psychology; Dynamic functional connectivity; Physical medicine and rehabilitation; Medicine; Amygdala","retraction":null,"screen_n_in":null,"score":{"opus":0.02577265763793117,"gpt":0.2407720732233733,"spread":0.2149994155854421,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch","metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.001642375,0.0005583608,0.0006223124,0.0004113874,0.00120536,0.00009382409,0.0003023777,0.0001820062,0.0006347184],"category_scores_gemma":[0.02147302,0.0004333408,0.000165416,0.0007003737,0.000822288,0.001146875,0.0003609043,0.0004823091,0.00006072317],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0007186296,"about_ca_system_score_gemma":0.0001119928,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001246235,"about_ca_topic_score_gemma":0.001326254,"domain_scores_codex":[0.9942735,0.001470065,0.0006011258,0.001921325,0.0009127425,0.0008212102],"domain_scores_gemma":[0.9781054,0.02030034,0.0004232214,0.000718714,0.0002854546,0.0001668374],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.0003650567,0.0006753809,0.9050225,0.00006139156,0.00006806451,0.00001073538,0.0001828164,0.0002362726,0.08626224,0.004600451,0.001694632,0.0008204768],"study_design_scores_gemma":[0.004954177,0.0001645219,0.9760432,0.0001865155,0.00001755108,0.000008158942,0.00005801754,0.0003191837,0.0003476578,0.01688192,0.0003942725,0.000624853],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9555067,0.00001018145,0.03790817,0.003215733,0.0007230481,0.001163919,0.0001437594,0.0002482235,0.001080213],"genre_scores_gemma":[0.9971504,0.000001223926,0.00007836941,0.00135359,0.0001532315,0.0004041937,0.00002669093,0.00006446581,0.0007678125],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.08591458,"threshold_uncertainty_score":0.9998118,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2152573143","doi":"10.1002/hbm.22877","title":"Age‐related changes in the topological organization of the white matter structural connectome across the human lifespan","year":2015,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":226,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Key Research and Development Program of China; National Science Fund for Distinguished Young Scholars; Fundamental Research Funds for the Central Universities; Chinese Academy of Sciences; National Natural Science Foundation of China","keywords":"Connectome; White matter; Neuroscience; Human brain; Psychology; Functional connectivity; Biology; Medicine; Magnetic resonance imaging","retraction":null,"screen_n_in":null,"score":{"opus":0.1024165090741485,"gpt":0.3699829839895887,"spread":0.2675664749154402,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003621507,0.0001033172,0.0001452969,0.00003319314,0.000341625,0.00002965941,0.0003267711,0.00005486786,0.00008481845],"category_scores_gemma":[0.0001318409,0.00005061374,0.00003343196,0.0004264869,0.0002922001,0.00003352502,0.0001355631,0.0002957241,0.000005117315],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00003110429,"about_ca_system_score_gemma":0.000009626949,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00001885556,"about_ca_topic_score_gemma":0.00003915096,"domain_scores_codex":[0.9991479,0.0001298948,0.0002080277,0.0001711652,0.0001640563,0.0001789389],"domain_scores_gemma":[0.9992536,0.00007286108,0.0001259617,0.0004537276,0.00006732179,0.00002647397],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.000006378209,0.00007040468,0.7938964,0.00005629095,0.00002336876,0.00001875275,0.03400111,0.00005113595,0.1242629,0.03741585,0.01004346,0.0001540301],"study_design_scores_gemma":[0.0003900533,0.00003477382,0.9824963,0.00005435026,0.00001011788,0.0000587982,0.002467955,0.00004011436,0.0003756102,0.01162616,0.002368893,0.00007683323],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9419439,0.0000136028,0.0002256163,0.05649637,0.00002787241,0.0005310636,0.00000361603,0.00006798601,0.0006899786],"genre_scores_gemma":[0.9936161,8.57948e-7,0.0001214563,0.005626831,0.00007691446,0.00002571033,0.00002219336,0.00001595439,0.0004939867],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.1886,"threshold_uncertainty_score":0.2627538,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1969991077","doi":"10.1002/hbm.20024","title":"EEG‐fMRI of focal epileptic spikes: Analysis with multiple haemodynamic functions and comparison with gadolinium‐enhanced MR angiograms","year":2004,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Advanced MRI Techniques and Applications","field":"Medicine","cited_by":224,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research","keywords":"Electroencephalography; EEG-fMRI; Gadolinium; Hemodynamics; Magnetic resonance imaging; Neuroscience; Epilepsy; Psychology; Medicine; Nuclear magnetic resonance; Cardiology; Radiology; Physics; Chemistry","retraction":null,"screen_n_in":null,"score":{"opus":0.02408486025607461,"gpt":0.30274604091925,"spread":0.2786611806631754,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001072562,0.0001940477,0.0005153778,0.0003283356,0.000237446,0.00001657086,0.00007397607,0.0000723265,0.00002211682],"category_scores_gemma":[0.00001852416,0.0001558237,0.0001193178,0.0009598702,0.0002426732,0.00007467354,0.00002933224,0.0001981282,0.000002628747],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00006864642,"about_ca_system_score_gemma":0.00003990921,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001746703,"about_ca_topic_score_gemma":0.0009156071,"domain_scores_codex":[0.9988217,0.00001618198,0.0003407334,0.0003801721,0.0001908038,0.0002504573],"domain_scores_gemma":[0.9990624,0.00007268936,0.0002033067,0.0004219061,0.0001169574,0.0001228037],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0008275338,0.00261024,0.2059836,0.0007662197,0.002058711,0.00005701446,0.006869201,0.1360943,0.6189593,0.01495634,0.0004865623,0.010331],"study_design_scores_gemma":[0.01194367,0.004021179,0.9137568,0.001974928,0.003592157,0.0001487453,0.0129608,0.04023116,0.00494865,0.003356862,0.001728206,0.001336804],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"methods","genre_gemma":"empirical","genre_scores_codex":[0.4437603,0.00004461445,0.5549434,0.0003411598,0.000003217724,0.0003758773,0.000006281669,0.0001094138,0.0004156733],"genre_scores_gemma":[0.9362172,0.000007075529,0.06315474,0.0001141842,0.00003139146,0.0001109547,0.0001376547,0.00002740211,0.0001994253],"genre_candidate":"empirical","genre_consensus":null,"teacher_disagreement_score":0.7077733,"threshold_uncertainty_score":0.6354305,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2809076153","doi":"10.1002/hbm.24232","title":"Dissociations of cognitive inhibition, response inhibition, and emotional interference: Voxelwise ALE meta‐analyses of fMRI studies","year":2018,"lang":"en","type":"review","venue":"Human Brain Mapping","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":217,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"York University; University of Toronto","funders":"Canadian Institutes of Health Research; McGovern Institute for Brain Research, Massachusetts Institute of Technology; Massachusetts Institute of Technology; Russian Science Foundation; Brain and Behavior Research Foundation","keywords":"Neuroscience; Psychology; Anterior cingulate cortex; Prefrontal cortex; Inhibitory postsynaptic potential; Cognition; Inferior frontal gyrus; Insula; Dorsolateral prefrontal cortex; Amygdala; Cingulate cortex; Central nervous system","retraction":null,"screen_n_in":null,"score":{"opus":0.6030966820877314,"gpt":0.5205023078139566,"spread":0.0825943742737748,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0007769546,0.0004262433,0.00190653,0.0005391237,0.0005260586,0.00002535468,0.0001402165,0.0001588017,0.0000984945],"category_scores_gemma":[0.002850333,0.0003198038,0.000541006,0.000628375,0.001787085,0.0001693132,0.0002986471,0.0002926388,0.00001327067],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004404146,"about_ca_system_score_gemma":0.00005594892,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.000006172756,"about_ca_topic_score_gemma":0.00001334595,"domain_scores_codex":[0.9963482,0.001313703,0.001102333,0.0006946346,0.0002935203,0.0002475812],"domain_scores_gemma":[0.994987,0.003164437,0.00115849,0.0002086312,0.00042762,0.0000538042],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"systematic_review","study_design_scores_codex":[0.0008780166,0.005706746,0.0008784281,0.0877938,0.03607718,0.0004685714,0.0481149,0.000001582562,0.6494225,0.008477359,0.09930506,0.0628759],"study_design_scores_gemma":[0.01046178,0.008487875,0.02954964,0.4563017,0.1219458,0.001060843,0.02695407,0.000004546581,0.0606232,0.07568184,0.1979351,0.01099357],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"review","genre_gemma":"review","genre_scores_codex":[0.08459263,0.9127958,0.00004721226,0.0005483712,0.0001743378,0.0008274242,0.0007637672,0.00005868886,0.0001917353],"genre_scores_gemma":[0.1011749,0.8965349,0.00004641491,0.0003454521,0.0001606251,0.0002306027,0.00009664109,0.00004195668,0.001368502],"genre_candidate":"review","genre_consensus":"review","teacher_disagreement_score":0.5887992,"threshold_uncertainty_score":0.9999254,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2213860215","doi":"10.1002/hbm.23091","title":"Early detection of Alzheimer's disease using M<scp>RI</scp> hippocampal texture","year":2015,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Dementia and Cognitive Impairment Research","field":"Medicine","cited_by":212,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"","funders":"National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; University of California, San Diego; Eurostars; Genentech; National Institutes of Health; IXICO; H. Lundbeck A/S; National Institute on Aging; Commonwealth Scientific and Industrial Research Organisation; Nordea-fonden; Eisai; Højteknologifonden; Servier; Eli Lilly and Company; Lundbeckfonden; Pfizer; Biogen; BioClinica; Hjerteforeningen; Northern California Institute for Research and Education; Velux Stiftung; F. Hoffmann-La Roche; Synarc; University of Southern California; Medpace; Bristol-Myers Squibb; Meso Scale Diagnostics; Villum Fonden; Novartis Pharmaceuticals Corporation; Alzheimer's Association; Foundation for the National Institutes of Health","keywords":"Hippocampal formation; Alzheimer's disease; Texture (cosmology); Neuroscience; Hippocampus; Disease; Psychology; Medicine; Artificial intelligence; Computer science; Pathology","retraction":null,"screen_n_in":null,"score":{"opus":0.07450364463098154,"gpt":0.3338524924667862,"spread":0.2593488478358047,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006228891,0.0001628142,0.0002488785,0.0003001623,0.0001656173,0.00004458766,0.00009262903,0.00007304487,0.00005255057],"category_scores_gemma":[0.0004750106,0.0001559218,0.0001246518,0.0003005292,0.0001274978,0.0001559449,0.00008720024,0.0002411363,0.00003955272],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0000708295,"about_ca_system_score_gemma":0.0001529124,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0000642645,"about_ca_topic_score_gemma":0.0000037939,"domain_scores_codex":[0.9983083,0.0001344918,0.0002839992,0.0002879117,0.0006000985,0.0003851879],"domain_scores_gemma":[0.9988259,0.00007702213,0.0001178989,0.0002483963,0.0002921707,0.0004385846],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0001107171,0.00041616,0.2760133,0.0002846262,0.0004453108,0.0002164491,0.003089799,0.00001609631,0.704315,0.0002395283,0.002268132,0.01258487],"study_design_scores_gemma":[0.002296075,0.0004333321,0.9854302,0.0003222421,0.0002313653,0.00002105665,0.001859978,0.001156126,0.003536125,0.001407948,0.003208832,0.00009675857],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9903114,0.0005589418,0.004544195,0.000137865,0.000089077,0.0005293176,0.000005025461,0.00006944336,0.003754664],"genre_scores_gemma":[0.9983674,0.000002064998,0.0001587897,0.0002921678,0.0003066166,0.00001852479,0.00002222132,0.00002933542,0.0008028814],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.7094169,"threshold_uncertainty_score":0.6358308,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2141020690","doi":"10.1002/hbm.20831","title":"Enhanced visual processing contributes to matrix reasoning in autism","year":2009,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Autism Spectrum Disorder Research","field":"Neuroscience","cited_by":212,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Université de Montréal; Hôpital Rivière-des-Prairies","funders":"National Center for Research Resources; Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital; National Institutes of Health; Canadian Institutes of Health Research; Autism Speaks","keywords":"Psychology; Raven's Progressive Matrices; Autism; Task (project management); Functional magnetic resonance imaging; Cognitive psychology; Prefrontal cortex; Visual processing; Matching (statistics); Neuroscience; Cognition; Developmental psychology; Perception; Statistics","retraction":null,"screen_n_in":null,"score":{"opus":0.03062211884435042,"gpt":0.3565864730222038,"spread":0.3259643541778534,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006186164,0.0002137341,0.0002912381,0.0006268308,0.0005470449,0.00028948,0.0004556964,0.00008823485,0.00008238354],"category_scores_gemma":[0.001063065,0.0002388973,0.00005004786,0.001331205,0.00007742613,0.0003128526,0.0001399036,0.000419537,0.0001263319],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0002056867,"about_ca_system_score_gemma":0.00008466324,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00002807637,"about_ca_topic_score_gemma":0.0000367501,"domain_scores_codex":[0.9973634,0.0001987876,0.0003969141,0.0007086951,0.0004237422,0.0009084844],"domain_scores_gemma":[0.9993245,0.000194377,0.00009574258,0.0002435603,0.00001096283,0.0001308402],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00001678875,0.00007250215,0.0002352902,0.00002113546,0.000001046235,0.00004361039,0.001668197,0.00006638461,0.8999189,0.09306248,0.000129904,0.004763835],"study_design_scores_gemma":[0.003603837,0.0005383353,0.6261329,0.001797994,0.000006227197,0.00003264503,0.0007534677,0.01156489,0.1943714,0.1555784,0.004241558,0.001378324],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9470359,0.0001549258,0.02328059,0.02126746,0.00004832427,0.0007305385,0.000001579375,0.0002951745,0.007185513],"genre_scores_gemma":[0.9958695,0.000003197521,0.0003580165,0.002475453,0.00004076665,0.00003850822,0.000002201967,0.00002704817,0.001185376],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.7055475,"threshold_uncertainty_score":0.9741949,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2118649142","doi":"10.1002/hbm.22124","title":"The centre of the brain: Topographical model of motor, cognitive, affective, and somatosensory functions of the basal ganglia","year":2012,"lang":"en","type":"review","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":205,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"Hospital for Sick Children","funders":"","keywords":"Basal ganglia; Neuroscience; Psychology; Cognition; Executive functions; Somatosensory system; Working memory; Neuroimaging; Functional neuroimaging; Cognitive psychology; Central nervous system","retraction":null,"screen_n_in":null,"score":{"opus":0.09818073852855543,"gpt":0.2954043287438374,"spread":0.197223590215282,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch"],"consensus_categories":[],"category_scores_codex":[0.0008734789,0.0004288195,0.0009978634,0.0001840069,0.001216499,0.00002955574,0.0006289945,0.0002068599,0.00001296328],"category_scores_gemma":[0.008744294,0.000232728,0.0008410254,0.0007633509,0.002170134,0.0001101907,0.0007602024,0.0006709403,0.00000267222],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004987832,"about_ca_system_score_gemma":0.0001445281,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00001164849,"about_ca_topic_score_gemma":0.00005467617,"domain_scores_codex":[0.9962811,0.001441252,0.0006848883,0.0005632893,0.000623818,0.0004056619],"domain_scores_gemma":[0.9766124,0.02149989,0.0009441848,0.0007090559,0.0001753255,0.00005915791],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"theoretical_or_conceptual","study_design_gemma":"not_applicable","study_design_scores_codex":[0.0003420771,0.003255208,0.009812347,0.09523408,0.005051507,0.00001284718,0.0160441,0.0001996268,0.1709102,0.3297886,0.08322825,0.2861212],"study_design_scores_gemma":[0.003873469,0.0005121849,0.05027721,0.05452665,0.004354299,0.000118909,0.005738116,0.001651235,0.002045016,0.04673162,0.826771,0.003400286],"study_design_candidate":"not_applicable","study_design_consensus":null,"genre_codex":"review","genre_gemma":"empirical","genre_scores_codex":[0.02872875,0.9457397,0.0003453458,0.009918975,0.001964288,0.006439178,0.001156062,0.0001254596,0.005582191],"genre_scores_gemma":[0.5538876,0.4261564,0.00006857882,0.005543037,0.0009185484,0.0005387322,0.00002012577,0.0003737631,0.01249315],"genre_candidate":"review","genre_consensus":null,"teacher_disagreement_score":0.7435428,"threshold_uncertainty_score":0.9996055,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2893791175","doi":"10.1002/hbm.24393","title":"Changes in EEG multiscale entropy and power‐law frequency scaling during the human sleep cycle","year":2018,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Neural dynamics and brain function","field":"Neuroscience","cited_by":203,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"Brock University","funders":"Natural Sciences and Engineering Research Council of Canada","keywords":"Electroencephalography; Statistical physics; Spectral density; Scaling; Entropy (arrow of time); Psychology; Rhythm; Sleep Stages; Neuroscience; Slow-wave sleep; Power law; Nonlinear system; Physics; Mathematics; Artificial intelligence; Computer science; Statistics; Acoustics; Polysomnography; Quantum mechanics","retraction":null,"screen_n_in":null,"score":{"opus":0.02340415345683971,"gpt":0.2573882122524879,"spread":0.2339840587956482,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["sts"],"consensus_categories":[],"category_scores_codex":[0.0003390775,0.0001871743,0.0001674367,0.0001459751,0.001427544,0.0001839851,0.0002632739,0.0000672083,0.0001153684],"category_scores_gemma":[0.0001380933,0.0001546452,0.00004199164,0.0002485944,0.0004090954,0.0002023806,0.0001788167,0.0002617825,0.00002178546],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00006185554,"about_ca_system_score_gemma":0.000003728534,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.000208232,"about_ca_topic_score_gemma":0.001114425,"domain_scores_codex":[0.9983854,0.0001645002,0.0002536877,0.0005350469,0.0002149484,0.0004464727],"domain_scores_gemma":[0.9993256,0.0001677452,0.0001129164,0.000302936,0.00002261469,0.00006814163],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.000003460772,0.00002267041,0.003116511,0.00002192674,0.00000226619,0.00001769691,0.001175743,0.00001041767,0.9660208,0.02937234,0.0000135473,0.0002225951],"study_design_scores_gemma":[0.002208457,0.0003283537,0.8659117,0.0003619469,0.00001104922,0.00009766741,0.001028224,0.007960876,0.08350677,0.03560846,0.002029839,0.0009467059],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9944639,0.00002029309,0.00006808989,0.001685326,0.000235829,0.00030192,0.000004633219,0.00009994774,0.003120092],"genre_scores_gemma":[0.9973441,0.000003509586,0.0000511945,0.00193004,0.0002306868,0.00002195404,0.000002089191,0.00002777331,0.0003886285],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8825141,"threshold_uncertainty_score":0.9998724,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2122087907","doi":"10.1002/hbm.22248","title":"Neuropsychiatric symptoms in Alzheimer's disease are related to functional connectivity alterations in the salience network","year":2013,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":197,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Ottawa","funders":"","keywords":"Default mode network; Resting state fMRI; Psychology; Neuroscience; Irritability; Precuneus; Functional magnetic resonance imaging; Posterior cingulate; Anterior cingulate cortex; Insula; Apathy; Superior frontal gyrus; Psychosis; Alzheimer's disease; Disease; Psychiatry; Medicine; Cognition; Internal medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.04645437211674784,"gpt":0.2683243071466395,"spread":0.2218699350298916,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0007085851,0.0002413976,0.0002187955,0.0003468205,0.0009029229,0.0001865919,0.000375495,0.00004892598,0.0001381636],"category_scores_gemma":[0.004909823,0.0002128086,0.00008063455,0.002034239,0.0001405604,0.0004587626,0.0001720445,0.0004398686,0.0002352127],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00008400488,"about_ca_system_score_gemma":0.00004980644,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001066481,"about_ca_topic_score_gemma":0.0003154055,"domain_scores_codex":[0.99698,0.0008373,0.0004031024,0.0008131985,0.000441942,0.0005244392],"domain_scores_gemma":[0.993475,0.005778251,0.0001326702,0.0004432111,0.00005384567,0.0001170484],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.0001076259,0.0008583092,0.5565403,0.00003977779,0.00004909332,0.0001544143,0.004961665,0.1298074,0.02693494,0.1720635,0.1073119,0.001171028],"study_design_scores_gemma":[0.0003797027,0.00004821268,0.9729652,0.00005964103,0.000006929454,0.00001026253,0.0002738893,0.002771263,0.000006585225,0.02205086,0.00118131,0.0002461125],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9487931,0.0001002194,0.0004114377,0.04691058,0.0005933997,0.001206845,0.000006591868,0.0001158405,0.001862049],"genre_scores_gemma":[0.9748634,0.000001862256,0.00003034513,0.02422887,0.0002168023,0.0004933319,0.000004496218,0.00002210512,0.0001387892],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.4164249,"threshold_uncertainty_score":0.8678083,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2617838712","doi":"10.1002/hbm.23653","title":"Challenges in measuring individual differences in functional connectivity using fMRI: The case of healthy aging","year":2017,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":194,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"","funders":"Biotechnology and Biological Sciences Research Council; British Academy; Medical Research Council Canada; Nederlandse Organisatie voor Wetenschappelijk Onderzoek; Wellcome Trust; Medical Research Council; Directorate for Biological Sciences; Wellcome","keywords":"Functional connectivity; Psychology; Neuroscience; Functional magnetic resonance imaging; Cognitive psychology","retraction":null,"screen_n_in":null,"score":{"opus":0.4628139308237512,"gpt":0.352175817326582,"spread":0.1106381134971691,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch","sts"],"consensus_categories":[],"category_scores_codex":[0.00243148,0.0002097904,0.0003653927,0.0003534123,0.001847075,0.0001226942,0.0004227041,0.00006733917,0.00001656637],"category_scores_gemma":[0.009634685,0.0001840547,0.00007144242,0.0001806612,0.0004501186,0.0004511191,0.0004519931,0.0004521354,0.000001586859],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001460886,"about_ca_system_score_gemma":0.00007017719,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0009531668,"about_ca_topic_score_gemma":0.009583605,"domain_scores_codex":[0.9976135,0.0005766467,0.0003840236,0.0006584415,0.0003523862,0.0004150332],"domain_scores_gemma":[0.992411,0.006610816,0.00036836,0.0005224294,0.00004411668,0.00004324968],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.0001533048,0.0007051943,0.6146472,0.0006647428,0.0001002777,0.001558261,0.02904062,0.001515396,0.2651954,0.07003761,0.0002126457,0.01616934],"study_design_scores_gemma":[0.0008286195,0.00005397534,0.9856956,0.0002701434,0.000005147054,0.0002595433,0.003772798,0.001446288,0.0007990037,0.006584014,0.00005827668,0.0002265805],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9859639,0.0002957969,0.0001299873,0.01167666,0.0003098554,0.0002988486,0.000006469334,0.00003238805,0.001286035],"genre_scores_gemma":[0.9991394,0.00002366331,0.00003361717,0.0005759413,0.0001606639,0.00003399116,3.602703e-7,0.00001580919,0.00001651158],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.3710484,"threshold_uncertainty_score":0.9994524,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2021019869","doi":"10.1002/hbm.20414","title":"An fMRI study of prefrontal brain activation during multiple tasks in patients with major depressive disorder","year":2007,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":191,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"Centre for Addiction and Mental Health","funders":"National Health and Medical Research Council; Medical Research Council; National Alliance for Research on Schizophrenia and Depression; Pfizer","keywords":"Task (project management); Cognition; Psychology; Prefrontal cortex; Working memory; Brain activity and meditation; Effects of sleep deprivation on cognitive performance; Elementary cognitive task; Major depressive disorder; Neuroscience; Audiology; Cognitive psychology; Medicine; Electroencephalography","retraction":null,"screen_n_in":null,"score":{"opus":0.05931711059594433,"gpt":0.3311380192942234,"spread":0.2718209086982791,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001494503,0.0001674668,0.0001970809,0.0002012591,0.0003436944,0.00001782101,0.0001948243,0.00004602394,0.0000126328],"category_scores_gemma":[0.0001059725,0.0001386662,0.00002226168,0.0002577636,0.0001083821,0.0003387768,0.0000798267,0.0001921888,0.00000170634],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00003656956,"about_ca_system_score_gemma":0.000003464079,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001563676,"about_ca_topic_score_gemma":0.001133135,"domain_scores_codex":[0.9985288,0.0001295327,0.0003016667,0.0004869102,0.0002489432,0.0003041601],"domain_scores_gemma":[0.9993643,0.00014678,0.0001806455,0.0002324621,0.00003267073,0.0000431509],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.0001202032,0.0009300189,0.5398621,0.00000821392,0.000003227362,0.000008916178,0.002531975,0.00001586318,0.456229,0.000002870724,0.000008952568,0.0002786288],"study_design_scores_gemma":[0.004419276,0.0006009654,0.9732283,0.00003961335,0.00000443056,7.454463e-7,0.002036625,0.000005396193,0.01946645,0.00002385465,0.000007286612,0.000167105],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9988501,0.000001988809,0.00007241126,0.00009789086,0.00004586539,0.0007988501,0.000003979361,0.00004646587,0.00008242665],"genre_scores_gemma":[0.9996503,7.99508e-8,0.00002360096,0.0001641008,0.00002490923,0.00002710712,0.000005433723,0.00001782569,0.00008663353],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.4367626,"threshold_uncertainty_score":0.5654646,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2022349962","doi":"10.1002/hbm.20576","title":"Resting state sensorimotor functional connectivity in multiple sclerosis inversely correlates with transcallosal motor pathway transverse diffusivity","year":2008,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":191,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Manitoba","funders":"","keywords":"Fractional anisotropy; Diffusion MRI; White matter; Resting state fMRI; Multiple sclerosis; Neuroscience; Functional connectivity; Psychology; Physical medicine and rehabilitation; Magnetic resonance imaging; Medicine; Radiology","retraction":null,"screen_n_in":null,"score":{"opus":0.1757230029556175,"gpt":0.278575081015041,"spread":0.1028520780594235,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001996336,0.0002326794,0.0003249244,0.0001947002,0.0004809514,0.00001310431,0.00007535132,0.0000697036,0.00003260366],"category_scores_gemma":[0.000129916,0.0002241405,0.00009716718,0.000330418,0.0002507124,0.0001658405,0.00002059968,0.0004836169,0.000006748187],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001236465,"about_ca_system_score_gemma":0.00007133071,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001324726,"about_ca_topic_score_gemma":0.0001235883,"domain_scores_codex":[0.9985086,0.00007727676,0.0003055263,0.0005011314,0.0002533396,0.0003541387],"domain_scores_gemma":[0.9990274,0.0003637081,0.00010521,0.0002888543,0.00007485601,0.0001399726],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0002518444,0.0003496194,0.1832443,0.00007593128,0.00002280947,0.0001453706,0.001149539,0.0003400258,0.8133364,0.0002545661,0.0002543172,0.0005753049],"study_design_scores_gemma":[0.003614613,0.0002377137,0.9858846,0.00035586,0.00001664972,0.0001566511,0.0001735923,0.004339059,0.003069949,0.0004878367,0.001341428,0.0003220307],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9543512,0.0000109749,0.04316445,0.0009391769,0.00002661578,0.0008001773,0.00003379904,0.0003954294,0.0002781603],"genre_scores_gemma":[0.9926977,0.00001185923,0.006255164,0.0004880355,0.00006580928,0.0001257409,0.00003473542,0.0000468649,0.0002741182],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8102664,"threshold_uncertainty_score":0.9140183,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2147848903","doi":"10.1002/hbm.20739","title":"Probabilistic topography of human corpus callosum using cytoarchitectural parcellation and high angular resolution diffusion imaging tractography","year":2009,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":188,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":false,"ca_venue":false,"about_ca":true},"ca_institutions":"","funders":"National Science Council","keywords":"Tractography; Corpus callosum; Diffusion MRI; Neuroscience; Population; Somatosensory system; Artificial intelligence; Computer science; Psychology; Pattern recognition (psychology); Computer vision; Cartography; Magnetic resonance imaging; Medicine; Geography","retraction":null,"screen_n_in":null,"score":{"opus":0.05597021934508661,"gpt":0.3309406591190847,"spread":0.2749704397739981,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001626455,0.0001729459,0.000257368,0.0003868653,0.000372225,0.00002305786,0.00006982487,0.00004676674,0.000006862888],"category_scores_gemma":[0.00003211942,0.0001675628,0.0001027101,0.0003579779,0.0002034158,0.00007873077,0.00003380484,0.0002042687,1.341596e-7],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00003465861,"about_ca_system_score_gemma":0.000008888073,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00008296871,"about_ca_topic_score_gemma":0.000004311807,"domain_scores_codex":[0.9988362,0.00004813612,0.0003535156,0.0003505317,0.0001824207,0.0002291738],"domain_scores_gemma":[0.9993039,0.00004752341,0.000193739,0.0003049031,0.000071068,0.00007883776],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00001478844,0.00008377951,0.01356772,0.00007959853,0.000006555216,0.00000713131,0.0002904113,0.00004948367,0.9748027,0.00700909,0.00003868255,0.004050029],"study_design_scores_gemma":[0.0009934417,0.0002723343,0.9129561,0.0005307336,0.00008171373,0.00009749624,0.00009816104,0.009072005,0.002487562,0.07246079,0.0006445597,0.000305122],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9585142,0.000140939,0.03928417,0.001046545,0.00001363274,0.0005883368,0.000004178452,0.0001929,0.0002150659],"genre_scores_gemma":[0.9878745,0.000007772239,0.01164255,0.0003035727,0.00007475961,0.00000915463,0.00005388583,0.00001924476,0.00001456515],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.9723152,"threshold_uncertainty_score":0.6833012,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2973208504","doi":"10.1002/hbm.24782","title":"Applications of amyloid, tau, and neuroinflammation PET imaging to Alzheimer's disease and mild cognitive impairment","year":2019,"lang":"en","type":"review","venue":"Human Brain Mapping","topic":"Alzheimer's disease research and treatments","field":"Medicine","cited_by":185,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"","funders":"National Institute of Biomedical Imaging and Bioengineering; Canadian Institutes of Health Research; Avid Radiopharmaceuticals; Genentech; National Institutes of Health; Servier; National Institute on Aging; National Institute for Health and Care Research; Wellcome Trust; H. Lundbeck A/S; Alzheimer’s Research UK; Pfizer; Biogen; BioClinica; Eisai; CHDI Foundation; Novartis Pharmaceuticals Corporation; U.S. Department of Defense; Eli Lilly and Company; Bristol-Myers Squibb; Medical Research Council; Meso Scale Diagnostics; Medical Research Council Canada; F. Hoffmann-La Roche; Alzheimer's Drug Discovery Foundation; Takeda Pharmaceutical Company; European Commission; AbbVie; Alzheimer's Association; Foundation for the National Institutes of Health; GE Healthcare; Alzheimer's Disease Neuroimaging Initiative","keywords":"Positron emission tomography; Neuroinflammation; Disease; Neuroimaging; Biomarker; Neuroscience; Medicine; Pet imaging; Molecular imaging; Amyloid beta; Amyloid (mycology); Alzheimer's disease; Cognitive impairment; Prodromal Stage; Psychology; Pathology; In vivo; Biology","retraction":null,"screen_n_in":null,"score":{"opus":0.06488596967303645,"gpt":0.3715055622344027,"spread":0.3066195925613663,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0002197797,0.0003837454,0.0009714683,0.000490315,0.0002067622,0.00005850854,0.00009179958,0.00004522999,0.0000481965],"category_scores_gemma":[0.00005497214,0.000340592,0.0002086372,0.0002556118,0.0001413297,0.00009582051,0.0001948191,0.0002135919,0.00006190262],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00006108168,"about_ca_system_score_gemma":0.0002633568,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00002074585,"about_ca_topic_score_gemma":0.000001641981,"domain_scores_codex":[0.9980379,0.000143234,0.0004991994,0.000622416,0.0003497261,0.0003475113],"domain_scores_gemma":[0.9983066,0.0002701483,0.0002616055,0.0003824684,0.0001309007,0.000648224],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"design_other","study_design_gemma":"not_applicable","study_design_scores_codex":[0.0001936683,0.000723351,0.004015023,0.05550835,0.01534948,0.0004452482,0.0005765937,4.070679e-7,0.00002193483,0.0006849131,0.002009918,0.9204711],"study_design_scores_gemma":[0.01277462,0.001333949,0.194632,0.1517597,0.06643226,0.0006459397,0.001412447,0.0002730523,0.000006780216,0.001284865,0.5661931,0.003251286],"study_design_candidate":"design_other","study_design_consensus":null,"genre_codex":"review","genre_gemma":"review","genre_scores_codex":[0.00112966,0.991872,0.00009122291,0.0002634677,0.00001521481,0.006055111,0.0002457327,0.00004422059,0.0002833428],"genre_scores_gemma":[0.01649698,0.9795403,0.0001988289,0.000230219,0.000222802,0.001474889,0.001601725,0.000114387,0.0001198128],"genre_candidate":"review","genre_consensus":"review","teacher_disagreement_score":0.9172198,"threshold_uncertainty_score":0.9999046,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2016186194","doi":"10.1002/hbm.20274","title":"Separate brain regions code for salience vs. valence during reward prediction in humans","year":2006,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Neural and Behavioral Psychology Studies","field":"Neuroscience","cited_by":182,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"University of Toronto; McMaster University; Centre for Addiction and Mental Health","funders":"","keywords":"Ventral striatum; Psychology; Valence (chemistry); Orbitofrontal cortex; Striatum; Neuroscience; Salience (neuroscience); Insula; Aversive Stimulus; Arousal; Cognitive psychology; Prefrontal cortex; Cognition; Dopamine","retraction":null,"screen_n_in":null,"score":{"opus":0.1517992755838451,"gpt":0.3685391134969642,"spread":0.2167398379131191,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0003102879,0.000218161,0.000241646,0.0002183186,0.0009543704,0.00005900054,0.0003222722,0.00008430899,0.00002092331],"category_scores_gemma":[0.0001791364,0.0002181505,0.00009386737,0.0003844168,0.0003208967,0.0002859832,0.00009317898,0.0002373377,0.00002782087],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00007412356,"about_ca_system_score_gemma":0.00001036304,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00004400973,"about_ca_topic_score_gemma":0.0003634362,"domain_scores_codex":[0.9978946,0.0001339921,0.0004336862,0.0007900369,0.0001970555,0.000550583],"domain_scores_gemma":[0.9992315,0.0002501374,0.0001499995,0.0002908036,0.00003006546,0.00004752836],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00002665978,0.00008690289,0.01877907,0.00004339225,0.000001364862,0.00003613373,0.0004870024,0.0001128473,0.960108,0.002087539,0.01820008,0.00003104498],"study_design_scores_gemma":[0.002130894,0.0002743228,0.916082,0.0003283533,0.00001446687,0.000049502,0.0002966973,0.0001590395,0.04061099,0.01794331,0.02146735,0.0006430348],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9913455,0.00002438003,0.0004904411,0.005715745,0.0002604879,0.0005793294,0.00006766181,0.0002323709,0.001284129],"genre_scores_gemma":[0.9873713,0.000006391156,0.00009059365,0.00150899,0.0002023289,0.0001700434,0.00001002715,0.00002291056,0.01061746],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.919497,"threshold_uncertainty_score":0.8895919,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2019466352","doi":"10.1002/hbm.20348","title":"Ventral visual cortex in humans: Cytoarchitectonic mapping of two extrastriate areas","year":2007,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Visual perception and processing mechanisms","field":"Neuroscience","cited_by":181,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":false,"ca_venue":false,"about_ca":true},"ca_institutions":"","funders":"Deutsche Forschungsgemeinschaft","keywords":"Cytoarchitecture; Extrastriate cortex; Neuroscience; Anatomy; Visual cortex; Occipital lobe; Sulcus; Cortex (anatomy); Gyrus; Retinotopy; Visual system; Biology; Psychology","retraction":null,"screen_n_in":null,"score":{"opus":0.0813157906911597,"gpt":0.3618949658955197,"spread":0.28057917520436,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.001406548,0.0002349738,0.00032175,0.0006359476,0.0003198505,0.0000747918,0.0003455589,0.00008906463,0.0004469666],"category_scores_gemma":[0.0002743567,0.000259999,0.0001143544,0.0007089968,0.0001861307,0.0001872644,0.00009335627,0.0003893593,0.00004844609],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001009137,"about_ca_system_score_gemma":0.00005316432,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00004042236,"about_ca_topic_score_gemma":0.00008423807,"domain_scores_codex":[0.99744,0.0001973278,0.0007104749,0.0005621237,0.0004111726,0.0006789082],"domain_scores_gemma":[0.9990995,0.0002520927,0.0002631771,0.0002271236,0.0000308798,0.00012723],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.00002354833,0.000120985,0.001184975,0.00007554208,0.000002969954,0.00004633545,0.003177384,0.00003523363,0.9853009,0.005267044,0.00002337493,0.00474168],"study_design_scores_gemma":[0.008022079,0.0007283768,0.752243,0.00219257,0.0000196419,0.0001107022,0.005228196,0.004594333,0.1846203,0.03792413,0.002569444,0.001747221],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9710087,0.00002510801,0.02522735,0.00009371587,0.0001839867,0.0002651013,0.000003331864,0.000134665,0.003058017],"genre_scores_gemma":[0.9981637,0.000003651287,0.00041419,0.0008045693,0.0001509165,0.000007943191,0.000007023443,0.00003437053,0.0004136138],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8006806,"threshold_uncertainty_score":0.9999852,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2114427927","doi":"10.1002/hbm.20660","title":"Heritability of regional and global brain structure at the onset of puberty: A magnetic resonance imaging study in 9‐year‐old twin pairs","year":2009,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Hypothalamic control of reproductive hormones","field":"Medicine","cited_by":181,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"Nederlandse Organisatie voor Wetenschappelijk Onderzoek","keywords":"White matter; Heritability; Psychology; Brain morphometry; Corpus callosum; Sexual maturity; Brain size; Magnetic resonance imaging; Neuroscience; Biology; Endocrinology; Medicine; Evolutionary biology","retraction":null,"screen_n_in":null,"score":{"opus":0.0192966772416843,"gpt":0.272242923256257,"spread":0.2529462460145727,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.001158834,0.0001922699,0.0004858637,0.0000933899,0.00009360121,0.00001333692,0.0001535911,0.00004981481,0.0000703468],"category_scores_gemma":[0.0007765567,0.0001515534,0.00007435709,0.0002912768,0.0003520502,0.00007537494,0.0001021245,0.0002208993,6.258032e-7],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.000148428,"about_ca_system_score_gemma":0.00005699253,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0002387838,"about_ca_topic_score_gemma":0.0006075094,"domain_scores_codex":[0.9980479,0.0003001698,0.000493101,0.0005151779,0.0003702007,0.0002734545],"domain_scores_gemma":[0.9987788,0.0002567214,0.0001619763,0.0006453223,0.0001020103,0.00005521888],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.0002525878,0.0002198445,0.9389913,0.00006089305,0.00001862153,0.000039903,0.003191088,0.000003726336,0.04239654,0.0003281249,0.001374561,0.01312282],"study_design_scores_gemma":[0.002618408,0.0003167468,0.9900314,0.0001396021,0.00002320457,0.00009761754,0.002255582,0.00006127173,0.00002796097,0.003433835,0.0008749995,0.0001193891],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9743527,0.003932912,0.000007708806,0.02042128,0.00002029321,0.0009747642,0.00001843197,0.00002208106,0.0002497821],"genre_scores_gemma":[0.9985449,0.000003564571,0.0002250739,0.0008508936,0.00006439407,0.00000864765,0.000005916334,0.00001081302,0.0002857942],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.0510401,"threshold_uncertainty_score":0.618017,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W1962885651","doi":"10.1002/hbm.22757","title":"Partial recovery of abnormal insula and dorsolateral prefrontal connectivity to cognitive networks in chronic low back pain after treatment","year":2015,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":178,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University Health Centre; McGill University","funders":"Canadian Institutes of Health Research; Fonds de Recherche du Québec - Santé; School of Dentistry, University of Maryland; Louise and Alan Edwards Foundation; Canadian Pain Society; International Association for the Study of Pain; AstraZeneca","keywords":"Insula; Default mode network; Resting state fMRI; Dorsolateral prefrontal cortex; Cognition; Psychology; Neuroscience; Diffusion MRI; Prefrontal cortex; Chronic pain; White matter; Medicine; Magnetic resonance imaging","retraction":null,"screen_n_in":null,"score":{"opus":0.04732997134751419,"gpt":0.267977133121773,"spread":0.2206471617742588,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaepi_narrow"],"consensus_categories":[],"category_scores_codex":[0.0008327375,0.0002513856,0.0003674066,0.0001815484,0.0001364561,0.00005159842,0.00007952388,0.00008266806,0.00004062236],"category_scores_gemma":[0.002351405,0.0002479198,0.00006637155,0.0002447059,0.0001794408,0.000325286,0.0001913271,0.0001583501,0.00001759891],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0005473378,"about_ca_system_score_gemma":0.00009151054,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0002441099,"about_ca_topic_score_gemma":0.001425617,"domain_scores_codex":[0.9977905,0.0006394617,0.000311389,0.0006265435,0.0002040847,0.0004280753],"domain_scores_gemma":[0.9966803,0.002865725,0.000103504,0.0001651677,0.00004793904,0.0001373162],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.008723291,0.002449329,0.4320664,0.0008172716,0.000445025,0.0007886073,0.04791055,0.0325606,0.4315065,0.001152568,0.005426343,0.0361536],"study_design_scores_gemma":[0.008173275,0.005623561,0.9495929,0.001045978,0.00002331363,0.00004741328,0.001215738,0.02298218,0.007351242,0.001165652,0.001712005,0.001066686],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9954605,0.00009610977,0.00240944,0.000575802,0.0001840934,0.0007183837,0.00002702164,0.00003482361,0.0004938837],"genre_scores_gemma":[0.9977189,0.000005418773,0.00004028487,0.001581104,0.0002381125,0.0001708961,0.000005124356,0.00002134172,0.000218866],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.5175266,"threshold_uncertainty_score":0.9999973,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2041870997","doi":"10.1002/hbm.20193","title":"Negative BOLD responses to epileptic spikes","year":2005,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":175,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"Canadian Institutes of Health Research; Savoy Foundation","keywords":"Ictal; Neuroscience; Functional magnetic resonance imaging; Voxel; Epilepsy; Electroencephalography; Default mode network; Magnetic resonance imaging; Psychology; Nuclear magnetic resonance; Chemistry; Physics; Medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.0849243352412646,"gpt":0.3119446299448653,"spread":0.2270202947036007,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch","insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000482126,0.0002074445,0.0002195726,0.00030208,0.0008656246,0.00009817563,0.0002814608,0.00004521073,0.0002759015],"category_scores_gemma":[0.02371082,0.0002142351,0.00008319095,0.0004578141,0.0001641906,0.0002799188,0.000224942,0.0001978397,0.0008999127],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0001478253,"about_ca_system_score_gemma":0.00003157801,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00001685712,"about_ca_topic_score_gemma":0.00009141772,"domain_scores_codex":[0.9980545,0.0002675312,0.0002496116,0.0006582947,0.0003442616,0.0004257948],"domain_scores_gemma":[0.9909675,0.008456724,0.00007792596,0.0003342493,0.00005038087,0.000113243],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"not_applicable","study_design_scores_codex":[0.00004572964,0.00005743361,0.0007536992,0.00001392647,0.000007646183,0.00001682317,0.003191131,0.0002033119,0.9142523,0.01507401,0.06507013,0.00131387],"study_design_scores_gemma":[0.001307756,0.0005762404,0.3031772,0.0002516552,0.00001497672,0.00005669735,0.002047926,0.0004618303,0.1271292,0.01631847,0.5474216,0.001236397],"study_design_candidate":"bench_or_experimental","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9076864,0.00002741991,0.00126952,0.07223839,0.0002281569,0.0004494076,0.00001294602,0.0003312907,0.0177565],"genre_scores_gemma":[0.944913,0.000001561649,0.0009971894,0.04144646,0.0005286945,0.00007138739,6.094174e-7,0.00002747037,0.01201366],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.7871231,"threshold_uncertainty_score":0.999878,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2013930506","doi":"10.1002/hbm.21232","title":"Age‐related changes in topological organization of structural brain networks in healthy individuals","year":2011,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":174,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"McGill University; Montreal Neurological Institute and Hospital","funders":"National Institute of Information and Communications Technology; Iran Telecommunication Research Center; National Cheng Kung University; Ministry of Education, Culture, Sports, Science and Technology; University of Canterbury","keywords":"Betweenness centrality; Hum; Modular design; Node (physics); Psychology; Neuroscience; Topology (electrical circuits); Computer science; Mathematics; Centrality; Physics; Statistics; Combinatorics","retraction":null,"screen_n_in":null,"score":{"opus":0.09115739796254106,"gpt":0.2894494354160191,"spread":0.1982920374534781,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0006810733,0.0001725787,0.0003179919,0.0004078941,0.0002021347,0.00001813255,0.000240441,0.0001459388,0.0002988175],"category_scores_gemma":[0.006564097,0.0001724647,0.00002901422,0.001188371,0.0002532512,0.000144571,0.0001983551,0.0003335704,0.000005674061],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00009718839,"about_ca_system_score_gemma":0.00002141794,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001182342,"about_ca_topic_score_gemma":0.000709373,"domain_scores_codex":[0.9980392,0.0004749881,0.0004114626,0.000487323,0.000209829,0.0003771858],"domain_scores_gemma":[0.9973342,0.002207768,0.000193429,0.0001863813,0.00003444798,0.00004374529],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.00005906201,0.000206469,0.7153986,0.0001072305,0.00002244884,0.0001317568,0.02631261,0.000858075,0.1628854,0.09185274,0.001340809,0.0008247691],"study_design_scores_gemma":[0.0007519612,0.000189941,0.9854891,0.00006812077,0.000001770398,0.00001176793,0.0005841628,0.0003860545,0.001168265,0.01104406,0.0001051913,0.0001995558],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9916013,0.00003856378,0.0001433539,0.006564742,0.0001987788,0.00035243,0.000003617726,0.00007945231,0.001017731],"genre_scores_gemma":[0.9943919,0.000005195732,0.0001056188,0.005307134,0.00005382748,0.00001524031,0.000008734954,0.00001922631,0.00009309262],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.2700905,"threshold_uncertainty_score":0.7858312,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2007565673","doi":"10.1002/hbm.21257","title":"The neural basis of central proprioceptive processing in older versus younger adults: An important sensory role for right putamen","year":2011,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Advanced Neuroimaging Techniques and Applications","field":"Medicine","cited_by":169,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"","funders":"Canadian Institutes of Health Research; Vlaamse regering","keywords":"Proprioception; Putamen; Functional magnetic resonance imaging; Psychology; Neuroscience; Somatosensory system; Secondary somatosensory cortex; Physical medicine and rehabilitation; Medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.08311152885122405,"gpt":0.3365693510946376,"spread":0.2534578222434135,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":[],"consensus_categories":[],"category_scores_codex":[0.0001761654,0.0001281686,0.0001757756,0.0000737556,0.0002262615,0.00001395186,0.0001266057,0.00004304578,0.00001577018],"category_scores_gemma":[0.00006090288,0.00009608429,0.00006166758,0.0001285019,0.0001306122,0.0001489332,0.00003183492,0.0001628803,3.429849e-7],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00005252692,"about_ca_system_score_gemma":0.00003658793,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00003558871,"about_ca_topic_score_gemma":0.00003328095,"domain_scores_codex":[0.99893,0.00002628263,0.0003365352,0.0002819532,0.0001148246,0.0003103376],"domain_scores_gemma":[0.9993349,0.00004946132,0.0001814335,0.0002751346,0.00009443558,0.00006458683],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.004151314,0.002200006,0.08170658,0.001289085,0.0001387055,0.0001154788,0.07382589,0.00002354263,0.6885914,0.02808047,0.001519055,0.1183585],"study_design_scores_gemma":[0.008557628,0.001340722,0.9045141,0.00111652,0.0001303451,0.00005780021,0.0148697,0.02078473,0.02389757,0.01343468,0.01051241,0.0007837863],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9927706,0.0001508294,0.003272183,0.001062404,0.00003587564,0.001654392,0.00001311317,0.0001498098,0.0008908389],"genre_scores_gemma":[0.9907103,0.000008091461,0.008635198,0.000219699,0.00007548888,0.0001841115,0.00001766844,0.00002973192,0.0001197545],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.8228075,"threshold_uncertainty_score":0.3918204,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W4220800641","doi":"10.1002/hbm.25837","title":"Mind the gap: Performance metric evaluation in brain‐age prediction","year":2022,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Functional Brain Connectivity Studies","field":"Neuroscience","cited_by":167,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":false,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"","funders":"H2020 European Research Council; Medical Research Council; Helse Sør-Øst RHF; Medical Research Council Canada; Fondation Leenaards; Agence Nationale de la Recherche; Horizon 2020 Framework Programme; Norges Forskningsråd; National Institute on Aging; Deutsche Forschungsgemeinschaft; Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung; National Science Foundation","keywords":"Mean squared error; Statistics; Metric (unit); Pearson product-moment correlation coefficient; Sample size determination; Range (aeronautics); Variance (accounting); Correlation; Mathematics; Correlation coefficient; Explained variation; Engineering","retraction":null,"screen_n_in":null,"score":{"opus":0.1348613797827382,"gpt":0.3060718656202675,"spread":0.1712104858375293,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["metaresearch","sts"],"consensus_categories":[],"category_scores_codex":[0.00370721,0.0001527129,0.0001506684,0.0005448788,0.002025941,0.00006962805,0.0003419254,0.00002989135,0.0004877161],"category_scores_gemma":[0.008907672,0.0001428353,0.00006330039,0.001708659,0.0001262511,0.0002751844,0.0003268391,0.0004568,0.00003227176],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0004886365,"about_ca_system_score_gemma":0.00006005208,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.00002253694,"about_ca_topic_score_gemma":0.00004354258,"domain_scores_codex":[0.9968458,0.0009417671,0.0003038989,0.000566448,0.001019894,0.0003221728],"domain_scores_gemma":[0.9946833,0.004779675,0.0001343865,0.0003318757,0.00004276507,0.00002798966],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"bench_or_experimental","study_design_gemma":"observational","study_design_scores_codex":[0.0001019633,0.0004515794,0.03306991,0.0001138114,0.00004883123,0.00005813038,0.01858446,0.05628929,0.7516658,0.007381068,0.09488231,0.03735287],"study_design_scores_gemma":[0.001619514,0.000336256,0.7949747,0.00004411266,0.00001773526,0.00006489331,0.00270209,0.05856441,0.001367384,0.003622845,0.1362914,0.0003945534],"study_design_candidate":"observational","study_design_consensus":null,"genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9759273,0.00009537891,0.0001868182,0.01401413,0.0005462113,0.0008037324,0.00001341261,0.000069118,0.008343901],"genre_scores_gemma":[0.9916036,0.000003372465,0.00001781583,0.005918289,0.0001713525,0.0004512364,0.00001112436,0.00001824536,0.001804966],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.7619048,"threshold_uncertainty_score":0.9994407,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W2151370476","doi":"10.1002/hbm.10093","title":"Bilateral brain abnormalities associated with dominantly inherited verbal and orofacial dyspraxia","year":2003,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Language Development and Disorders","field":"Psychology","cited_by":165,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":false,"ca_venue":false,"about_ca":false},"ca_institutions":"Montreal Neurological Institute and Hospital","funders":"Medical Research Council; Great Ormond Street Hospital for Children; Wellcome Trust","keywords":"Grey matter; Planum temporale; Psychology; Caudate nucleus; Magnetic resonance imaging; Hum; Laterality; Brain mapping; Voxel; Anatomy; Audiology; White matter; Neuroscience; Medicine; Radiology","retraction":null,"screen_n_in":null,"score":{"opus":0.02315286722609798,"gpt":0.2689813662484169,"spread":0.2458284990223189,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.000548757,0.0002419259,0.0002625876,0.0001695047,0.0003864885,0.0001087152,0.0001146314,0.0001524281,0.001543587],"category_scores_gemma":[0.0001847056,0.0002155648,0.00004010082,0.0002604329,0.0001689946,0.0001584216,0.00003373975,0.0001893368,0.00004127473],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.00004608109,"about_ca_system_score_gemma":0.0000391757,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0001410024,"about_ca_topic_score_gemma":0.000254669,"domain_scores_codex":[0.9983757,0.0002799143,0.0002885599,0.0003667187,0.0001740557,0.0005151021],"domain_scores_gemma":[0.9993888,0.0001788286,0.0001211282,0.0001813753,0.00004214189,0.0000877261],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.0003760574,0.0004825808,0.5519676,0.0001265004,0.001156804,0.001099822,0.2539904,0.000004858083,0.01953866,0.09853008,0.06963179,0.003094864],"study_design_scores_gemma":[0.006213903,0.0002136868,0.92875,0.0001287137,0.00002576956,0.00006752411,0.02155956,0.000007190411,0.00004242597,0.002128365,0.04001868,0.0008442333],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.958528,0.0001518303,0.0001281349,0.000488296,0.0001930193,0.0002349757,0.000008428347,0.0001397372,0.04012752],"genre_scores_gemma":[0.9835748,9.492971e-7,0.0001253879,0.001796539,0.00005014148,0.00003205605,0.00007738946,0.00003465202,0.01430807],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.3767823,"threshold_uncertainty_score":0.9993691,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null},{"id":"W3128375503","doi":"10.1002/hbm.25320","title":"Subcortical volumes across the lifespan: Data from 18,605 healthy individuals aged 3–90 years","year":2021,"lang":"en","type":"article","venue":"Human Brain Mapping","topic":"Retinal Imaging and Analysis","field":"Medicine","cited_by":163,"is_retracted":false,"has_abstract":true,"routes":{"ca_aff":true,"ca_fund":true,"ca_venue":false,"about_ca":false},"ca_institutions":"University of British Columbia; University of Toronto; Centre for Addiction and Mental Health; Vancouver Coastal Health; Université de Montréal","funders":"National Center for Research Resources; National Institute of Biomedical Imaging and Bioengineering; National Institute on Drug Abuse; Helse Sør-Øst RHF; National Health and Medical Research Council; National Institutes of Health; Epilepsy Society; Instituto de Salud Carlos III; Siemens Healthineers; National Center for Advancing Translational Sciences; Medical Research Council; Hersenstichting; Medical Research Council Canada; Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Alliance for Research on Schizophrenia and Depression; Epilepsy Foundation of Victoria; Karolinska Institutet; The Research Council; Vetenskapsrådet; University of Queensland; King's College London; Instituto de Investigación Marqués de Valdecilla; Norges Forskningsråd; FP7 Ideas: European Research Council; Parents Against Childhood Epilepsy; Psychiatry Research Trust; National Institute on Aging; National Institute for Health and Care Research; National Institute of Child Health and Human Development; South London and Maudsley NHS Foundation Trust; NIHR Biomedical Research Centre, Royal Marsden NHS Foundation Trust/Institute of Cancer Research; Icahn School of Medicine at Mount Sinai; Indiana State Department of Health; National Institute of Mental Health; American Epilepsy Society; Universiteit Utrecht; Stockholms Läns Landsting; National Cancer Institute; Knut och Alice Wallenbergs Stiftelse; Deutsches Zentrum für Herz-Kreislaufforschung; Nederlandse Organisatie voor Wetenschappelijk Onderzoek","keywords":"Psychology; Neuroscience; Healthy aging; Gerontology; Medicine","retraction":null,"screen_n_in":null,"score":{"opus":0.1161818807225056,"gpt":0.3878589504846428,"spread":0.2716770697621372,"validation_status":"score_only:v0-immature-baseline"},"prediction":{"model_version":"codex-gemma-dda1882f352a","candidate_categories":["insufficient_payload"],"consensus_categories":[],"category_scores_codex":[0.001157418,0.0001665416,0.0004219473,0.00006013625,0.0005273264,0.0002299369,0.0004577121,0.00007901018,0.0009380232],"category_scores_gemma":[0.001292914,0.0001361497,0.0001386815,0.0003812438,0.0002138085,0.0001146812,0.0005061134,0.0005138606,0.0001623288],"about_ca_system_candidate":false,"about_ca_system_consensus":false,"about_ca_system_score_codex":0.0000439567,"about_ca_system_score_gemma":0.000151695,"about_ca_topic_candidate":false,"about_ca_topic_consensus":false,"about_ca_topic_score_codex":0.0003606998,"about_ca_topic_score_gemma":0.0001399565,"domain_scores_codex":[0.997723,0.0003081786,0.0004317017,0.0006017527,0.000470139,0.0004651724],"domain_scores_gemma":[0.9977033,0.0004753665,0.0001226834,0.001408499,0.00006770519,0.0002224312],"domain_codex":null,"domain_gemma":null,"domain_candidate":null,"domain_consensus":null,"study_design_codex":"observational","study_design_gemma":"observational","study_design_scores_codex":[0.00004715321,0.0003018113,0.6008753,0.0001700436,0.0009348893,0.001111507,0.008982599,0.000008666925,0.04383624,0.0002385167,0.3348352,0.008658053],"study_design_scores_gemma":[0.0009334129,0.00003513183,0.9036237,0.0002007411,0.0001677788,0.00004867855,0.004315609,0.0009183813,0.00004492497,0.0004173137,0.08909731,0.00019704],"study_design_candidate":"observational","study_design_consensus":"observational","genre_codex":"empirical","genre_gemma":"empirical","genre_scores_codex":[0.9680564,0.001176139,0.0008578262,0.02889265,0.0001017128,0.0001335136,0.00009706891,0.000105671,0.0005789496],"genre_scores_gemma":[0.9804043,0.00004985695,0.001030256,0.01290147,0.0008213006,0.000007596595,0.001085781,0.0000325423,0.003666948],"genre_candidate":"empirical","genre_consensus":"empirical","teacher_disagreement_score":0.3027484,"threshold_uncertainty_score":0.9999753,"prediction_status":"machine_predicted_unvalidated"},"labels":[],"label_agreement":null}]}