TY - JOUR T1 - The dark side of the mean: brain structural heterogeneity in schizophrenia and its polygenic risk JF - bioRxiv DO - 10.1101/407890 SP - 407890 AU - Dag Alnæs AU - Tobias Kaufmann AU - Dennis van der Meer AU - Aldo Córdova-Palomera AU - Jaroslav Rokicki AU - Torgeir Moberget AU - Francesco Bettella AU - Ingrid Agartz AU - Deanna M. Barch AU - Alessandro Bertolino AU - Christine L. Brandt AU - Simon Cervenka AU - Srdjan Djurovic AU - Nhat Trung Doan AU - Sarah Eisenacher AU - Helena Fatouros-Bergman AU - Lena Flyckt AU - Annabella Di Giorgio AU - Beathe Haatveit AU - Erik G. Jönsson AU - KaSP Consortium AU - Peter Kirsch AU - Martina J. Lund AU - Andreas Meyer-Lindenberg AU - Giulio Pergola AU - Emanuel Schwarz AU - Olav B. Smeland AU - Tiziana Quarto AU - Mathias Zink AU - Ole A. Andreassen AU - Lars T. Westlye Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/09/04/407890.abstract N2 - Importance Between-subject variability in brain structure is determined by gene-environment interactions, possibly reflecting differential sensitivity to environmental and genetic perturbations. Magnetic resonance imaging (MRI) studies have revealed thinner cortices and smaller subcortical volumes in patients. However, such group-level comparisons may mask considerable within-group heterogeneity, which has largely remained unnoticed in the literatureObjective To compare brain structural variability between individuals with SZ and healthy controls (HC) and to test if respective variability reflects the polygenic risk for SZ (PRS) in HC.Design, Setting, and Participants We compared MRI derived cortical thickness and subcortical volumes between 2,010 healthy controls and 1,151 patients with SZ across 16 cohorts. Secondly, we tested for associations between PRS and MRI features in 12,490 participants from UK Biobank.Main Outcomes and Measures We modeled mean and dispersion effects of SZ and PRS using double generalized linear models. We performed vertex-wise analyses for thickness, and region-of-interest analysis for cortical, subcortical and hippocampal subfield volumes. Follow-up analyses included within-sample analysis, controlling for intracranial volume and population covariates, test of robustness of PRS threshold, and outlier removal.Results Compared to controls, patients with SZ showed higher heterogeneity in cortical thickness, cortical and ventricle volumes, and hippocampal subfields. Higher PRS was associated with thinner frontal and temporal cortices, as well as smaller left CA2/3, but was not significantly associated with dispersion.Conclusion and relevance SZ is associated with substantial brain structural heterogeneity beyond the mean differences. These findings possibly reflect higher differential sensitivity to environmental and genetic perturbations in patients, supporting the heterogeneous nature of SZ. Higher PRS for SZ was associated with thinner fronto-temporal cortices and smaller subcortical volumes, but there were no significant associations with the heterogeneity in these measures, i.e. the variability among individuals with high PRS were comparable to the variability among individuals with low PRS. This suggests that brain variability in SZ results from interactions between environmental and genetic factors that are not captured by the PGR. Factors contributing to heterogeneity in fronto-temporal cortices and hippocampus are thus key to further our understanding of how genetic and environmental factors shape brain biology in SZ.Key Points Question: Is schizophrenia and its polygenic risk associated with brain structural heterogeneity in addition to mean changes?Findings: In a sample of 1151 patients and 2010 controls, schizophrenia was associated with increased heterogeneity in fronto-temporal thickness, cortical, ventricle, and hippocampal volumes, besides robust reductions in mean estimates. In an independent sample of 12,490 controls, polygenic risk for schizophrenia was associated with thinner fronto-temporal cortices and smaller CA2/3 of the left hippocampus, but not with heterogeneity.Meaning: Schizophrenia is associated with increased inter-individual differences in brainstructure, possibly reflecting clinical heterogeneity, gene-environment interactions, or secondary disease factors. ER -