Keywords: Structural Connectivity, Brain Connectivity, Adolescents
Motivation: Cortical thinning is an important hallmark of the maturation of brain morphology during childhood and adolescence. However, the connectome-based wiring mechanism that underlies cortical maturation remains unclear.
Goal(s): We aim to model how the maturational pattern of cortical morphology is shaped by white matter connectome architecture.
Approach: We integrated neuroimaging, connectome, transcriptome analyses and computational modeling.
Results: We found that the maturational patterns of cortical morphology are constrained by the white matter connectome and are particularly represented using a network-based diffusion model. Such constraints are predominantly located in frontoparietal nodes and are linked with the expression of genes associated with microstructural developmental processes.
Impact: Our results highlight the importance of white matter network structure in shaping the coordinated maturation of regional cortical morphology, which demonstrates the feasibility of using a network model to reveal the maturational principle of cortical morphology from childhood to adolescence.
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