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TMS brain mapping of the pharyngeal cortical representation in healthy subjects

Wanqi Li, Tuo Lin, Xue Li, Yinghua Jing, Cheng Wu, Meng‐Ni Li, Qian Ding, Yue Lan, Guangqing Xu

2020Brain stimulation15 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Brain mapping is fundamental to understanding brain organization and function. However, a major drawback to the traditional Brodmann parcellation technique is the reliance on the use of postmortem specimens. It has therefore historically been difficult to make any comparison regarding functional data from different regions or hemispheres within the same individual. Moreover, this method has been significant limited by subjective boundaries and classification criteria and therefore suffer from reproducibility issues. The development of transcranial magnetic stimulation (TMS) offers an alternative approach to brain mapping, specifically the motor cortical regions by eliciting quantifiable functional reactions. OBJECTIVE: To precisely describe the motor cortical topographic representation of pharyngeal constrictor musculature using TMS and to further map the brain for use as a tool to study brain plasticity. METHODS: 51 healthy subjects (20 male/31 female, 19-26 years old) were tested using single-pulse TMS combined with intraluminal catheter-guided high-resolution manometry and a standardized grid cap. We investigated various parameters of the motor-evoked potential (MEP) that include the motor map area, amplitude, latency, center of gravity (CoG) and asymmetry index. RESULTS: , respectively. The amplitudes of the MEPs were 35.94 ± 1.81(SE)uV in the left hemisphere and 34.49 ± 1.95(SE)uV in the right hemisphere. By comparison, subtle but consistent differences in the degree of the bilateral hemispheric representation were also apparent both between and within individuals. CONCLUSION: The swallowing musculature has a bilateral motor cortical representation across individuals, but is largely asymmetric within single subjects. These results suggest that TMS mapping using a guided intra-pharyngeal EMG catheter combined with a standardized gridded cap might be a useful tool to localize brain function/dysfunction by linking brain activation to the corresponding physical reaction.

Topics & Concepts

NeuroscienceRepresentation (politics)PsychologyMedicineLawPolitical sciencePoliticsDysphagia Assessment and ManagementTranscranial Magnetic Stimulation StudiesCervical and Thoracic Myelopathy
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