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- Title
Electroacupuncture improves swallowing function in a post-stroke dysphagia mouse model by activating the motor cortex inputs to the nucleus tractus solitarii through the parabrachial nuclei.
- Authors
Yao, Lulu; Ye, Qiuping; Liu, Yun; Yao, Shuqi; Yuan, Si; Xu, Qin; Deng, Bing; Tang, Xiaorong; Shi, Jiahui; Luo, Jianyu; Wu, Junshang; Wu, Zhennan; Liu, Jianhua; Tang, Chunzhi; Wang, Lin; Xu, Nenggui
- Abstract
As a traditional medical therapy, stimulation at the Lianquan (CV23) acupoint, located at the depression superior to the hyoid bone, has been shown to be beneficial in dysphagia. However, little is known about the neurological mechanism by which this peripheral stimulation approach treats for dysphagia. Here, we first identified a cluster of excitatory neurons in layer 5 (L5) of the primary motor cortex (M1) that can regulate swallowing function in male mice by modulating mylohyoid activity. Moreover, we found that focal ischemia in the M1 mimicked the post-stroke dysphagia (PSD) pathology, as indicated by impaired water consumption and electromyographic responses in the mylohyoid. This dysfunction could be rescued by electroacupuncture (EA) stimulation at the CV23 acupoint (EA-CV23) in a manner dependent on the excitatory neurons in the contralateral M1 L5. Furthermore, neuronal activation in both the parabrachial nuclei (PBN) and nucleus tractus solitarii (NTS), which was modulated by the M1, was required for the ability of EA-CV23 treatment to improve swallowing function in male PSD model mice. Together, these results uncover the importance of the M1-PBN-NTS neural circuit in driving the protective effect of EA-CV23 against swallowing dysfunction and thus reveal a potential strategy for dysphagia intervention. Difficulty swallowing after stroke and the neural circuitry underlying this is not fully understood. Here the authors demonstrate, using a mouse model, a potential neural circuit mechanism for effects of electroacupuncture on swallowing behaviour in post-stroke dysphagia.
- Subjects
DEGLUTITION; SOLITARY nucleus; ELECTROACUPUNCTURE; LABORATORY mice; DEGLUTITION disorders; MOTOR cortex; ANIMAL disease models
- Publication
Nature Communications, 2023, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-36448-6