Projections of Brodmann Area 6 to the Pyramidal Tract in Humans: Quantifications Using High Angular Resolution Data

• Published in: Frontiers in neural circuits Vol. 13; p. 62
• Main Authors: Wang, Zhen-Ming, Shan, Yi, Zhang, Miao, Wei, Peng-Hu, Li, Qiong-Ge, Yin, Ya-Yan, Lu, Jie
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Research Foundation 26.09.2019; Frontiers Media S.A
• Subjects: Aging; Anisotropy; Brodmann's area; Connectome; Diffusion Tensor Imaging; dorsal premotor area; high angular resolution diffusion imaging; human connectome project; Humans; Image Processing, Computer-Assisted; Infarction; Motor Cortex - diagnostic imaging; Neural Pathways - diagnostic imaging; Neuroscience; Neurosciences; Neurosurgery; NMR; Nuclear magnetic resonance; pyramidal tract; Pyramidal Tracts - diagnostic imaging; Software; Supplementary motor area; Visualization; Beijing China; China; supplementary motor area; pyramidal tract; high angular resolution diffusion imaging; dorsal premotor area; human connectome project
• ISSN: 1662-5110; 1662-5110
• DOI: 10.3389/fncir.2019.00062

Primate studies indicate that the pyramidal tract (PyT) could originate from Brodmann area (BA) 6. However, in humans, the accurate origin of PyT from BA 6 is still uncertain owing to difficulties in visualizing anatomical features such as the fanning shape at the corona radiata and multiple crossings at the semioval centrum. High angular-resolution diffusion imaging (HARDI) could reliably replicate these anatomical features. We explored the origin of the human PyT from BA 6 using HARDI. With HARDI data of 30 adults from the Massachusetts General Hospital-Human Connectome Project (MGH-HCP) database and the HCP 1021 template (average of 1021 HCP diffusion data), we visualized the PyT at the 30-averaged group level and the 1021 large-sample level and validated the observations in each of the individuals. Endpoints of the fibers within each subregion were quantified. PyT fibers originating from the BA 6 were consistently visualized in all images. Specifically, the bilateral supplementary motor area (SMA) and dorsal premotor area (dPMA) were consistently found to contribute to the PyT. PyT fibers from BA 6 and those from BA 4 exhibited a twisting topology. The PyT contains fibers originating from the SMA and dPMA in BA 6. Infarction of these regions or aging would result in incomplete provision of information to the PyT and concomitant decreases in motor planning and coordination abilities.