View clinical trials related to Brain Structural Connectivity.
Filter by:Magnetic resonance imaging (MRI) is a premier modality to investigate structures and functions of human brain. In studies of children and adolescents, noninvasiveness of MRI makes it especially applicable. Developmental trajectory of gray matter volume and cortical thickness has been well studied in western countries. However, significant variability of brain structure has been reported between Chinese and Caucasian, and the variation may also exist in developmental trajectory of the brain. However, the maturation processes of neural fiber tracts in white matter are less understood. Diffusion tensor imaging (DTI), which has been frequently used to investigate the integrity of fibertracts in the literature, is limited in dealing with crossing fibers. Diffusion spectrum imaging (DSI) is a newly developed technique to improve the resolution of crossing fibers, and it is more suitable for detailed tractography assessment. In addition to establishing the template of brain structure (T1 and T2) and structural connectivity of our child, adolescent, and young adult population, the study has the following three aims. 1. To describe gender effect and developmental change of brain volume of different cortical and subcortical regions, thickness of cortex brain, and structural connectivity (e.g., frono-striatal, fronto-pareital, fronto-temporal and fronto-cerebeller tracts and superior longitudinal fasciculus II) across childhood through adolescent to adulthood; 2. To examine the gender effects and developmental change of attention, executive function and visual memory from childhood to adulthood and whether gender moderates these developmental changes; and 3. To correlate the structural connectivity and brain size and neuropsychological function within the same subjects.