Development of structure-function coupling in human brain networks during youth

Baum, Graham L.; Cui, Zaixu; Roalf, David R.; Ciric, Rastko; Betzel, Richard F.; Larsen, Bart; Cieslak, Matthew; Cook, Philip A.; Xia, Cedric H.; Moore, Tyler M.; Ruparel, Kosha; Oathes, Desmond J.; Alexander-Bloch, Aaron F.; Shinohara, Russell T.; Raznahan, Armin; Gur, Raquel E.; Gur, Ruben C.; Bassett, Danielle S.; Satterthwaite, Theodore D.

doi:10.1073/pnas.1912034117

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Development of structure-function coupling in human brain networks during youth
Citation	Baum GL, Cui Z, Roalf DR, Ciric R, Betzel RF, Larsen B, Cieslak M, Cook PA, Xia CH, Moore TM, Ruparel K, Oathes DJ, Alexander-Bloch AF, Shinohara RT, Raznahan A, Gur RE, Gur RC, Bassett DS, Satterthwaite TD. Proc. Natl. Acad. Sci. U. S. A. 2019; ePub(ePub): ePub.
Copyright	(Copyright © 2019, National Academy of Sciences)
DOI	10.1073/pnas.1912034117
PMID	unavailable
Abstract	The human brain is organized into a hierarchy of functional systems that evolve in childhood and adolescence to support the dynamic control of attention and behavior. However, it remains unknown how developing white-matter architecture supports coordinated fluctuations in neural activity underlying cognition. We document marked remodeling of structure-function coupling in youth, which aligns with cortical hierarchies of functional specialization and evolutionary expansion. Further, we demonstrate that structure-function coupling in rostrolateral prefrontal cortex supports age-related improvements in executive ability. These findings have broad relevance for accounts of experience-dependent plasticity in healthy development and abnormal development associated with neuropsychiatric illness. The protracted development of structural and functional brain connectivity within distributed association networks coincides with improvements in higher-order cognitive processes such as executive function. However, it remains unclear how white-matter architecture develops during youth to directly support coordinated neural activity. Here, we characterize the development of structure-function coupling using diffusion-weighted imaging and n-back functional MRI data in a sample of 727 individuals (ages 8 to 23 y). We found that spatial variability in structure-function coupling aligned with cortical hierarchies of functional specialization and evolutionary expansion. Furthermore, hierarchy-dependent age effects on structure-function coupling localized to transmodal cortex in both cross-sectional data and a subset of participants with longitudinal data (n = 294). Moreover, structure-function coupling in rostrolateral prefrontal cortex was associated with executive performance and partially mediated age-related improvements in executive function. Together, these findings delineate a critical dimension of adolescent brain development, whereby the coupling between structural and functional connectivity remodels to support functional specialization and cognition. brain developmentMRIconnectomecortical organizationstructure-function Language: en