Login / Signup

Development of White Matter Fiber Covariance Networks Supports Executive Function in Youth.

Joëlle BagautdinovaJosiane BourqueValerie Jill SydnorMatthew C CieslakAaron F Alexander-BlochMax A BertoleroPhilip A CookRaquel C GurRuben E GurBart LarsenTyler Maxwell MooreHamsanandini RadhakrishnanDavid R RoalfRussell Taki ShinoharaTinashe M TaperaChenying ZhaoAristeidis SotirasChristos DavatzikosTheodore Daniel Satterthwaite
Published in: bioRxiv : the preprint server for biology (2023)
The white matter architecture of the human brain undergoes substantial development throughout childhood and adolescence, allowing for more efficient signaling between brain regions that support executive function. Increasingly, the field understands grey matter development as a spatially and temporally coordinated mechanism that follows hierarchically organized gradients of change. While white matter development also appears asynchronous, previous studies have largely relied on anatomical atlases to characterize white matter tracts, precluding a direct assessment of how white matter structure is spatially and temporally coordinated. Here, we leveraged advances in diffusion modeling and unsupervised machine learning to delineate white matter fiber covariance networks comprised of structurally similar areas of white matter in a cross-sectional sample of 939 youth aged 8-22 years. We then evaluated associations between fiber covariance network structural properties with both age and executive function using generalized additive models. The identified fiber covariance networks aligned with the known architecture of white matter while simultaneously capturing novel spatial patterns of coordinated maturation. Fiber covariance networks showed heterochronous increases in fiber density and cross section that generally followed hierarchically organized temporal patterns of cortical development, with the greatest increases in unimodal sensorimotor networks and the most prolonged increases in superior and anterior transmodal networks. Notably, we found that executive function was associated with structural features of limbic and association networks. Taken together, this study delineates data-driven patterns of white matter network development that support cognition and align with major axes of brain maturation.
Keyphrases