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Abstract #0836
Cortical Depth Dependence of the Diffusion Anisotropy in the Human Cortical Gray Matter in vivo
1
Brain Imaging and Analysis Center, Duke University, Durham, NC, United States
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account achieve adjacent anatomical animals anisotropy application applications arrows artifacts assess averaging axial band benefit beyond brain cells central channel clear clearly clinical coded coherence color computed conjugate consistently constant contains corrected correction cortical currently date deep density dependence depth derivation detail diffusion distortions dynamic eddy eigenvector errors evenly excessively fidelity finally flirt fluid fractional furthermore generated geometric goal gradient grants gray head healthy human in vivo induced inherent inherently interface interfaces inversion investigate investigation isotropic iterative layer layers leading limited long loss mask matrix middle minimize mostly motion neurological noise novel orientation partial particular perpendicular planar prepared primarily principal profiles prominently proposed pyramidal reconstruction reflect regional registered remained resolution restricted revealing scanner segmented sense sensitivity shot shots slice slices song space spaced spatial spiral spoiled stars straight strength studied studies subject subsequently superficial supported surface surfaces susceptibility systematic tensor thereby thought tissue trajectory typically unlike valuable variability variable various vector volunteers white
