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Aging;; cognition;; development;; diffusion tensor imaging;; executive;; functioning;; white matter;; CINGULATE CORTEX;; CORPUS-CALLOSUM;; LIFE-SPAN;; DIFFUSION;; BRAIN;; INTEGRITY;; ADOLESCENTS;; UNCERTAINTY;; CHOICE;; Neurosciences;; Psychiatry
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Full-Text Articles in Medicine and Health Sciences
Age-Related Differences In White Matter Tract Microstructure Are Associated With Cognitive Performance From Childhood To Adulthood, B. D. Peters, T. Ikuta, P. Derosse, M. John, K. E. Burdick, P. Gruner, D. M. Prendergast, Philip Szeszko, Anil Malhotra
Age-Related Differences In White Matter Tract Microstructure Are Associated With Cognitive Performance From Childhood To Adulthood, B. D. Peters, T. Ikuta, P. Derosse, M. John, K. E. Burdick, P. Gruner, D. M. Prendergast, Philip Szeszko, Anil Malhotra
Journal Articles
Background: Age-related differences in white matter tract microstructure have been well established across the life span. In the present cross-sectional study, we examined whether these differences are associated with neurocognitive performance from childhood to late adulthood. Methods: Diffusion tensor imaging was performed in 296 healthy subjects aged 8 to 68 years (mean = 29.6, SD = 14.6). The corpus callosum, two projection tracts, and five association tracts were traced using probabilistic tractography. A neurocognitive test battery was used to assess speed of processing, attention, spatial working memory, verbal functioning, visual learning, and executive functioning. Linear mediation models were used to …