Peer-reviewed veterinary case report
How tarsal joint position affects tibial nerve signals in dogs
By Turan, E et al.·Published in DTW. Deutsche tierarztliche Wochenschrift·2007·Adnan Menderes University·View original on PubMed →
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Original publication title: The effect of the tarsal joint positions on the tibial nerve motor action potential latency in dog: electrophysiological and anatomical studies.
- Species:
- dog
Plain-English summary
A group of healthy dogs was studied to see how different positions of the ankle joint (tarsal joint) affected the tibial nerve, which controls movement in the back leg. The researchers found that when the ankle was bent too much (hyperflexion), it increased pressure in the area and slowed down the nerve signals. This could lead to problems like tarsal tunnel syndrome, especially if a dog has an injury or is kept in a bent position for a long time. Understanding this can help veterinarians diagnose and treat issues related to the tarsal joint in dogs.
People also search for: dog tarsal tunnel syndrome · dog hind leg nerve problems · dog ankle joint injury treatment
Abstract
This study has been carried out to determine the effect of neutral position, hyperextension and hyperflexion of the tarsal joint on the tibial nerve, motor action potential latency and tarsal canal compartment pressure in dogs with the aid of electrophysiological and anatomical methods. Totally twenty healthy mongrel dogs were used. Latency of motor nerve action potential (MNAPL) studies of tibial nerve via surface stimulating and needle recording electrodes was performed on right hind limbs of all the dogs. The compartment pressures of the tarsal canal with the pressure transducer were determined from both limbs from ten of the dogs. In one dog, tarsal regions of both left and right limbs were demonstrated using magnetic resonance imaging (MRI). Two dogs were euthanatized and tarsal regions of the dogs were sectioned for correlative anatomy. Nerve conduction studies showed that the MNAP latency of the tibial nerve were 3.55 +/- 0.097 ms, 3.76 +/- 0.087 ms and 3.39 +/- 0.097 ms in neutral, hyperextension and hyperflexion positions, respectively. Hyperflexion of the tarsal joint caused prolongation of the MNAP latency of the tibial nerve with the highest pressure value being determined in tarsal canal. From the anatomical viewpoint, the distance between the flexor hallucis longus muscle and the superficial digital muscle was the shortest during hyperflexion and the plantar branch of saphenous artery, lateral and medial plantar nerves located more laterally in cadaver and MR imaging sections. As a result of this study, it is thought that tarsal region diseases as well as long time splint in the hyperflexion position as applied in the Ehmer sling can affect the compartment pressure and nerve tension because of occupying in the tarsal canal. Raising pressure and nerve stretching in the tarsal canal compartment could cause deficiencies in the conduction velocity of the tibial nerve. This might be a result of tarsal tunnel syndrome in the dog. Clinicians could consider this syndrome in cases of tarsal region diseases as well as application of long time splint in hyperflexion of tarsal joints in dogs.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/17252932/