<p>Significant changes occur in brain structure and cognition during adolescence. Investigating their association can provide insight into brain-based cognitive development, yet previous studies are limited by narrow measures, small samples, and lacking focus on age-dependence. Using a large cohort (<i>n</i> = 8534, age 9–15) with structural MRI and diffusion imaging, we derive 16 regional metrics and integrate them via morphometric similarity networks to characterize 16,563 brain features. We apply large-scale models to investigate their associations with seven cognitive subtests and general intelligence (<i>g</i>), as well as age-dependence. Brain areas most strongly associated with cognition also show the greatest age-dependence of the associations, primarily in the frontal, temporal, and occipital lobes. Stronger and more age-dependent associations with cognition are observed for structural MRI measures and global hub measures, compared with diffusion-derived metrics and local measures, respectively. Overall, our study provides a comprehensive and reliable characterization of adolescent brain structure-cognition associations.</p>

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Comprehensive large-scale analyses reveal association between brain structure and cognitive ability during adolescence

  • Jiadong Yan,
  • Yasser Iturria-Medina,
  • Gleb Bezgin,
  • Paule Joanne Toussaint,
  • Ke Xie,
  • Liang He,
  • Judy Chen,
  • Kirsten Hilger,
  • Erhan Genç,
  • Alan C. Evans,
  • Sherif Karama

摘要

Significant changes occur in brain structure and cognition during adolescence. Investigating their association can provide insight into brain-based cognitive development, yet previous studies are limited by narrow measures, small samples, and lacking focus on age-dependence. Using a large cohort (n = 8534, age 9–15) with structural MRI and diffusion imaging, we derive 16 regional metrics and integrate them via morphometric similarity networks to characterize 16,563 brain features. We apply large-scale models to investigate their associations with seven cognitive subtests and general intelligence (g), as well as age-dependence. Brain areas most strongly associated with cognition also show the greatest age-dependence of the associations, primarily in the frontal, temporal, and occipital lobes. Stronger and more age-dependent associations with cognition are observed for structural MRI measures and global hub measures, compared with diffusion-derived metrics and local measures, respectively. Overall, our study provides a comprehensive and reliable characterization of adolescent brain structure-cognition associations.