Researchers at Guangzhou University of Chinese Medicine have identified the hypoglossal nucleus (12N) as the primary brainstem motor node responsible for the swallowing improvements observed after electroacupuncture at the “Lianquan” (CV23) acupoint. Published in Acupuncture Research on August 25, 2025 (DOI: 10.13702/j.1000-0607.20250444), the study confirms that this neural pathway is essential for restoring swallowing function in post-stroke dysphagia (PSD) patients.
How Does Electroacupuncture Affect Swallowing?
Electroacupuncture at the “Lianquan” (CV23) point works by directly engaging brainstem motor circuits rather than acting solely as a local muscle stimulant. According to the study, the hypoglossal nucleus (12N) sends monosynaptic projections—direct neural links—to the tissues surrounding the CV23 acupoint. When researchers applied a 15-minute, 2 Hz, 1 mA stimulation to stroke-affected mice, they observed an immediate increase in swallowing-related muscle electrical activity, verified through electromyography (EMG) and laryngoscopy.

The “Lianquan” (CV23) acupoint is located on the anterior midline of the neck, situated directly above the hyoid bone, a region anatomically positioned to influence tongue movement and the mechanics of swallowing.
Why is the Hypoglossal Nucleus Critical?
The hypoglossal nucleus (12N) serves as a vital “output gate” for swallowing commands. By using chemogenetic inhibition to silence the 12N in research models, the study team demonstrated that the benefits of electroacupuncture were significantly attenuated. In stroke-afflicted mice, silencing this node caused vocal cord movement to slow and muscle activity to revert to impaired levels. This confirms that 12N is not just involved in the process, but is a necessary component for the therapy to function.
What Are the Next Steps for Stroke Rehabilitation?
This research provides a mechanistic foundation for integrating electroacupuncture into standard post-stroke care. The study authors suggest that the hypoglossal nucleus (12N) could become a target for future neuromodulation therapies. While hypoglossal nerve stimulation is currently an established clinical treatment for obstructive sleep apnea, its application for dysphagia remains a new frontier. Future research will likely focus on how upstream brain regions—specifically the nucleus tractus solitarii (NTS) and the intermediate reticular nucleus (IRt)—send signals down to the 12N to initiate the swallowing reflex.
Comparison: Current vs. Emerging Swallowing Therapies
| Therapy Type | Primary Mechanism | Current Clinical Status |
|---|---|---|
| Electroacupuncture (CV23) | Brainstem motor node (12N) activation | Rehabilitation/Research |
| Hypoglossal Nerve Stimulation | Direct nerve electrical pacing | Standard for Sleep Apnea |
If you are exploring rehabilitation options for post-stroke recovery, discuss targeted neural interventions with a neurologist. Understanding whether a patient’s dysphagia is linked to brainstem circuit disruption may influence the success of physical or acupuncture-based therapies.

Frequently Asked Questions
- What is the primary role of the hypoglossal nucleus in swallowing? It acts as a central motor output node that receives signals from brainstem swallowing centers and coordinates muscle activity in the throat and tongue.
- Is acupuncture at CV23 effective for all stroke patients? The study shows it is effective in mouse models of PSD by restoring muscle electrical activity, but clinical application should be managed by licensed rehabilitation specialists.
- How does this research differ from previous studies? Previous studies identified that the motor cortex and brainstem were involved, but this research provides the first direct evidence of the monosynaptic link between the CV23 acupoint and the 12N.
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