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Thalamocortical Structural Covariation Networks Are Related to Familial Risk for Schizophrenia in the Context of Lower Nuclei Volume Estimates in Patients: An ENIGMA Study

Authors
Lella, AnnalisaAntonucci, Linda A.Passiatore, RobertaBellantuono, LoredanaSelvaggi, PierluigiPopolizio, TeresaDi Sciascio, GuidoSaponaro, AlessandroJo, Hang JoonRicci, PatriziaAltamura, MarioBlasi, GiuseppeRampino, AntonioVriend, ChrisCalhoun, Vince D.Rootes-Murdy, KellyGoldman, Aaron L.Baeza, InmaculadaCastro-Fornieles, JosefinaSugranyes, GiselaDe la Serna, ElenaPomarol-Clotet, EdithFatjó-Vilas, MarSalvador, RaymondKaruk, AndrianaFuentes-Claramonte, PaolaGlahn, David C.Rodrigue, Amanda L.Blangero, JohnWang, LeiLee, TaeyoungEinenkel, Karolin E.Hamers, SaskiaGruber, OliverPreda, AdrianChung, Young-ChulOdkhuu, SoyolsaikhanVallée, CorentinDazzan, PaolaMarcelis, MachteldMichielse, StijnBrosch, KatharinaStein, FrederikeNenadić, IgorStraube, BenjaminThomas-Odenthal, FlorianKircher, TiloCarruthers, SeanRossell, Susan L.Sumner, Phillip J.Van Rheenen, Tamsyn E.Demro, CarolineRamsay, Ian S.Sponheim, Scott R.Lencer, RebekkaMeinert, SusanneHahn, TimDannlowski, UdoGrotegerd, DominikCiccarelli, MariateresaIasevoli, FelicePontillo, GiuseppePearlson, Godfrey D.Cobia, DerinPiras, FabrizioBanaj, NerisaVecchio, DanielaBarendse, Marjolein E.A.van Haren, Neeltje E.M.Sim, KangQuidé, YannGreen, Melissa J.Slate, RachaelCecere, GiacomoOmlor, WolfgangHoman, StephanieHoman, PhilippThomopoulos, Sophia I.Manzari, AnnaBellomo, AntonelloTurner, Jessica A.van Erp, Theo G.M.Thompson, Paul M.Bertolino, AlessandroPergola, Giulio
Issue Date
Nov-2025
Publisher
Elsevier BV
Keywords
Familial high risk for schizophrenia; Meta-analyses; Morphometric measures; Structural neuroimaging; Thalamic subdivisions; Thalamocortical networks
Citation
Biological Psychiatry, v.98, no.9, pp 698 - 711
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
Biological Psychiatry
Volume
98
Number
9
Start Page
698
End Page
711
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209266
DOI
10.1016/j.biopsych.2025.03.027
ISSN
0006-3223
1873-2402
Abstract
Background: Structural brain differences in the thalamus and the cortex have been widely reported in schizophrenia (SCZ) relative to neurotypical control individuals (NCs). Most previous studies examined the thalamus as a whole as a single region of interest. In addition, findings in individuals at familial high risk for SCZ (FHRs) remain inconclusive. Here, we investigated whether local and network-wide thalamic-related structural alterations vary as a function of familial risk for SCZ. Methods: Structural magnetic resonance imaging scans were obtained from 5197 participants (NC, n = 3409; FHR, n = 257; SCZ, n = 1531) across 32 cross-sectional samples within the ENIGMA (Enhancing Neuro Imaging Genetics through Meta Analysis) Consortium. Random-effects meta-analyses and network analyses were conducted on 1) local thalamic alterations (volume estimates of 7 thalamic subdivisions) and 2) network-wide thalamic alterations (thickness and surface-related thalamocortical/corticocortical covariation patterns) across groups (NC, FHR, SCZ). Results: Individuals with SCZ showed significantly lower gray matter volume estimates in the anterior, pulvinar, medial, posterior, and ventral thalamic subdivisions compared with NCs (false discovery rate–corrected q [qFDR] <.05). FHRs did not differ from NCs. At the network-wide level, thalamocortical covariations discriminated FHRs from NCs (qFDR <.05), with FHRs showing intermediate covariation between individuals with SCZ and NCs. Corticocortical covariation patterns revealed that individuals with SCZ and FHRs shared similarly disconnected clustering configurations, distinct from NCs (qFDR <.05). Conclusions: Results revealed lower thalamic volume estimates in individuals with SCZ but not in FHRs, hence yielding no evidence of a familial risk trait, whereas thalamocortical and corticocortical covariation estimates were associated with familial risk for SCZ. These findings suggest that, once the thalamus is parsed into subdivisions, network-wide thalamocortical features may identify trait-dependent, neurobiological correlates of genetic risk for SCZ.
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