AI Article Synopsis
- Several diffusion tensor imaging techniques have been used to map the corticospinal tract in the human brain, with this study focusing on comparing two methods: method "A" and an anatomy-guided method "B."
- The research involved two healthy adults and measured various parameters of the corticospinal tract, including tract volume and diffusivities.
- Findings highlight the importance of accurately placing regions of interest at both the medulla oblongata and the pons to ensure proper mapping and reduce contamination from adjacent pathways like the cerebellar and sensory tracks.
Article Abstract
Several diffusion tensor imaging tractography (DTT) have been adopted to construct the living human brain corticospinal tract. In this Note, we applied method "A" as recently described and used by "Lin CC, Tsai MY, Lo YC, et al. Reproducibility of corticospinal diffusion tensor tractography innormal subjects and hemiparetic stroke patients. Eur J Radiol 2013;82: e610-6." We compared the results obtained with method "A" with those obtained using an anatomy-guided method "B" on two healthy adults. We also quantified the results using tract volume, and corresponding fractional anisotropy, mean, and radial diffusivities. We demonstrate that accurate mapping and quantification of CST requires at least two regions of interest one at the level of the medulla oblongata, a second at the level of pons, this assures termination at the motor spine and contamination with cerebellar and sensory pathways.
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| http://dx.doi.org/10.1016/j.ejrad.2014.05.022 | DOI Listing |
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