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Differences in Brain Structural Covariance Network Characteristics in Children and Adults With Autism Spectrum Disorder
Author(s) -
Cai Suping,
Wang Xuwen,
Yang Fan,
Chen Dihui,
Huang Liyu
Publication year - 2021
Publication title -
autism research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.656
H-Index - 66
eISSN - 1939-3806
pISSN - 1939-3792
DOI - 10.1002/aur.2464
Subject(s) - connectome , autism spectrum disorder , autism , psychology , amygdala , neuroimaging , neurodevelopmental disorder , psychological resilience , neuroscience , structural equation modeling , developmental psychology , audiology , cognitive psychology , functional connectivity , medicine , computer science , machine learning , psychotherapist
Systematically describing the structural topological configuration of human brain during development is an essential task. Autism spectrum disorder (ASD) represents a powerful challenge for psychiatry and neuroscience researchers. In this study, we investigated variations in the structural covariance network properties of 441 patients with ASD ranging in age from 7 to 45 years and in 426 age‐matched healthy controls (HCs) using structural magnetic resonance neuroimaging from the ABIDE database. We applied a sliding window approach to study topological variation during development using comprehensive graph theoretical analysis. The main findings are as follows: (1) Cross‐sectional trajectories of the network characteristics exhibited inverted U‐shapes in both HCs and participants with ASD, with the latter exhibiting a 7‐year delay in reaching the maximum value, (2) network resilience to targeted attacks peaked at 18′ and 19′ in the HCs and at 25′ in the participants with ASD, and the weakest resilience occurred at age 7′, (3) the HCs and participants with ASD exhibited normalized mean degree differences in the right amygdala, and (4) significant differences in the network characteristics were observed in the 18′ age group at most of the densities analyzed. We used cross‐sectional analysis to infer distinct neurodevelopmental trajectories in ASD in the brain structural connectome. Our findings are consistent with the notion that adolescence is a sensitive period of brain development with strong potential for brain plasticity, offering opportunities for environmental adaptation and social integration and for increasing vulnerability. ASD may be a product of susceptibility. Lay Summary We used cross‐sectional analysis to preliminarily infer distinct neurodevelopmental trajectories in ASD in the brain structural connectome. The main findings are as follows: (1) Cross‐sectional trajectories of the network characteristics exhibited inverted U‐shapes in both HCs and participants with ASD, with the latter exhibiting a 7‐year delay in reaching the maximum value, (2) Network resilience to targeted attacks peaked at 18′ and 19′ in the HCs and at 25′ in the participants with ASD, and the weakest resilience occurred at age 7′, (3) The HCs and participants with ASD exhibited normalized mean degree differences in the right amygdala, and (4) significant differences in the network characteristics were observed in the 18′ age group at most of the densities analyzed.