Author: Irtiza A. Gilani; Kader K. Oguz; Huseyin Boyaci; Katja Doerschner
Title: Assessing Topographic Structural Connectivity of the Human Basal Ganglia and Thalamus Document date: 2020_3_8
ID: ekze7vj0_9
Snippet: We acquired human brain data using a simultaneous multi-slice acquisition based DWI sequence [Setsompop et al., 2012] . A reduction in TR was achieved by simultaneous excitation of 3 slices, which results in a 3-fold reduced TR (compared with standard DWI sequences) and a less than 100 ms TE. We designed a probabilistic tractography-based data processing pipeline in order to generate subject-specific comprehensive structural connectivity pathways.....
Document: We acquired human brain data using a simultaneous multi-slice acquisition based DWI sequence [Setsompop et al., 2012] . A reduction in TR was achieved by simultaneous excitation of 3 slices, which results in a 3-fold reduced TR (compared with standard DWI sequences) and a less than 100 ms TE. We designed a probabilistic tractography-based data processing pipeline in order to generate subject-specific comprehensive structural connectivity pathways of human basal ganglia and thalamus. Taken together, we demonstrate that diffusion MRI data acquired with short TR and TE at 3T can yield a highly detailed connectivity map and parcellation of human subcortical brain regions.
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