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Peer-reviewed veterinary case report

Electrical activity of muscle trigger points in horses

By Macgregor, Joanne & Graf von Schweinitz, Dietrich·Published in Acupuncture in medicine : journal of the British Medical Acupuncture Society·2006·Equine Veterinary Clinic, United Kingdom·View original on PubMed

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Original publication title: Needle electromyographic activity of myofascial trigger points and control sites in equine cleidobrachialis muscle--an observational study.

Species:
horse

Plain-English summary

Four horses with chronic pain and performance issues were found to have tender spots in their cleidobrachialis muscle, which is located near the shoulder. These spots, known as myofascial trigger points, showed abnormal electrical activity and twitch responses when examined. The horses were treated with acupuncture, which helped to address these painful areas. The study confirmed that horses can have myofascial trigger points similar to those seen in humans, although pain patterns can't be assessed in the same way.

People also search for: horse muscle pain treatment · acupuncture for horse pain · myofascial trigger points in horses

Abstract

BACKGROUND: Myofascial trigger points are commonly described in humans, and many studies have shown abnormal spontaneous electrical activity, spike activity and local twitch responses at these sites. Myofascial trigger points have only rarely been described in horses, and studies of their electrophysiological characteristics have not previously been published. The objective of this study was to explore the electromyographic (EMG) and other characteristics of myofascial trigger points in equine muscle, and to compare them with normal muscle tissue. METHODS: Four horses with chronic pain signs and impaired performance were examined. They had previously been examined at the second author's practice, and showed signs compatible with the diagnosis of myofascial trigger points in their cleidobrachialis (brachiocephalic) muscle, ie localised tender spots in a taut band of skeletal muscle which produced a local twitch response on snapping palpation. They had therefore been selected for treatment with acupuncture. Needle EMG activity and twitch responses were recorded at 25 positions at the trigger point and at a nearby control point during the course of each horse's acupuncture treatment. RESULTS: All subjects demonstrated objective signs of spontaneous electrical activity, spike activity and local twitch responses at the myofascial trigger point sites within taut bands. The frequency of these signs was significantly greater at myofascial trigger points than at control sites (P<0.05). CONCLUSION: Equine myofascial trigger points can be identified, and have similar objective signs and electrophysiological properties to those documented in human and rabbit skeletal muscle tissue. The important differences from findings in human studies are that referred pain patterns and the reproduction of pain profile cannot be determined in animals.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/16783281/