TY - JOUR
T1 - Multiscale heterogeneity of white matter morphometry in psychiatric disorders
AU - Segal, Ashlea
AU - Smith, Robert E
AU - Chopra, Sidhant
AU - Oldham, Stuart
AU - Parkes, Linden
AU - Aquino, Kevin
AU - Kia, Seyed Mostafa
AU - Wolfers, Thomas
AU - Franke, Barbara
AU - Hoogman, Martine
AU - Beckmann, Christian F
AU - Westlye, Lars T
AU - Andreassen, Ole A
AU - Zalesky, Andrew
AU - Harrison, Ben J
AU - Davey, Christopher G
AU - Soriano-Mas, Carles
AU - Cardoner, Narcís
AU - Tiego, Jeggan
AU - Yücel, Murat
AU - Braganza, Leah
AU - Suo, Chao
AU - Berk, Michael
AU - Cotton, Sue
AU - Bellgrove, Mark A
AU - Marquand, Andre F
AU - Fornito, Alex
PY - 2024
Y1 - 2024
N2 - BackgroundInter-individual variability in neurobiological and clinical characteristics in mental illness is often overlooked by classical group-mean case-control studies. Studies using normative modelling to infer person-specific deviations of grey matter volume have indicated that group means are not representative of most individuals. The extent to which this variability is present in white matter morphometry, which is integral to brain function, remains unclear.Methods:We applied Warped Bayesian Linear Regression normative models to T1-weighted magnetic resonance imaging data and mapped inter-individual variability in person-specific white matter volume deviations in 1,294 cases (58% male) diagnosed with one of six disorders (attention-deficit/hyperactivity, autism, bipolar, major depressive, obsessive-compulsive and schizophrenia) and 1,465 matched controls (54% male) recruited across 25 scan sites. We developed a framework to characterize deviation heterogeneity at multiple spatial scales, from individual voxels, through inter-regional connections, specific brain regions, and spatially extended brain networks.ResultsThe specific locations of white matter volume deviations were highly heterogeneous across participants, affecting the same voxel in fewer than 8% of individuals with the same diagnosis. For autism and schizophrenia, negative deviations (i.e., areas where volume is lower than normative expectations) aggregated into common tracts, regions and large-scale networks in up to 35% of individuals.ConclusionsThe prevalence of white matter volume deviations was lower than previously observed in grey matter, and the specific location of these deviations was highly heterogeneous when considering voxel-wise spatial resolution. Evidence of aggregation within common pathways and networks was apparent in schizophrenia and autism but not other disorders.
AB - BackgroundInter-individual variability in neurobiological and clinical characteristics in mental illness is often overlooked by classical group-mean case-control studies. Studies using normative modelling to infer person-specific deviations of grey matter volume have indicated that group means are not representative of most individuals. The extent to which this variability is present in white matter morphometry, which is integral to brain function, remains unclear.Methods:We applied Warped Bayesian Linear Regression normative models to T1-weighted magnetic resonance imaging data and mapped inter-individual variability in person-specific white matter volume deviations in 1,294 cases (58% male) diagnosed with one of six disorders (attention-deficit/hyperactivity, autism, bipolar, major depressive, obsessive-compulsive and schizophrenia) and 1,465 matched controls (54% male) recruited across 25 scan sites. We developed a framework to characterize deviation heterogeneity at multiple spatial scales, from individual voxels, through inter-regional connections, specific brain regions, and spatially extended brain networks.ResultsThe specific locations of white matter volume deviations were highly heterogeneous across participants, affecting the same voxel in fewer than 8% of individuals with the same diagnosis. For autism and schizophrenia, negative deviations (i.e., areas where volume is lower than normative expectations) aggregated into common tracts, regions and large-scale networks in up to 35% of individuals.ConclusionsThe prevalence of white matter volume deviations was lower than previously observed in grey matter, and the specific location of these deviations was highly heterogeneous when considering voxel-wise spatial resolution. Evidence of aggregation within common pathways and networks was apparent in schizophrenia and autism but not other disorders.
U2 - 10.1101/2024.08.04.606523
DO - 10.1101/2024.08.04.606523
M3 - Article
C2 - 39149253
SN - 2692-8205
JO - bioRxiv : the preprint server for biology
JF - bioRxiv : the preprint server for biology
ER -