Degeneration and recovery of the neuromuscular junction after application of extracorporeal shock wave therapy

It is known that free nerve endings are degenerated after application of shock waves. We therefore hypothesized that the application of shock waves to muscle induces dysfunction of neuromuscular transmission at neuromuscular junctions. We investigated changes in neuromuscular transmission in respons...

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Published in:Journal of orthopaedic research 2012-10, Vol.30 (10), p.1660-1665
Main Authors: Kenmoku, Tomonori, Ochiai, Nobuyasu, Ohtori, Seiji, Saisu, Takashi, Sasho, Takahisa, Nakagawa, Koichi, Iwakura, Nahoko, Miyagi, Masayuki, Ishikawa, Tetsuhiro, Tatsuoka, Hodumi, Inoue, Gen, Nakamura, Junichi, Kishida, Shunji, Saito, Atsushi, Takahashi, Kazuhisa
Format: Article
Language:English
Subjects:
acetylcholine receptor
Animals
compound muscle action potential
Dystonia - therapy
extracorporeal shock wave therapy
High-Energy Shock Waves - adverse effects
Male
Muscle Spasticity - therapy
neuromuscular junction
Neuromuscular Junction - radiation effects
neuromuscular transmission
Rats
Rats, Sprague-Dawley
Receptors, Cholinergic - radiation effects
Ultrasonic Surgical Procedures
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creator Kenmoku, Tomonori
Ochiai, Nobuyasu
Ohtori, Seiji
Saisu, Takashi
Sasho, Takahisa
Nakagawa, Koichi
Iwakura, Nahoko
Miyagi, Masayuki
Ishikawa, Tetsuhiro
Tatsuoka, Hodumi
Inoue, Gen
Nakamura, Junichi
Kishida, Shunji
Saito, Atsushi
Takahashi, Kazuhisa
description It is known that free nerve endings are degenerated after application of shock waves. We therefore hypothesized that the application of shock waves to muscle induces dysfunction of neuromuscular transmission at neuromuscular junctions. We investigated changes in neuromuscular transmission in response to shock wave application. Sprague–Dawley rats were used in this study. Two thousand shock waves at an energy flux density of 0.18 mJ/mm2 were applied to their right calf muscles. Neuromuscular junctions of gastrocnemius muscles were evaluated using rhodamine–α‐bungarotoxin on the day of treatment (n = 5). Amplitude and latency of compound muscle action potentials were measured on the day of treatment and 1, 2, 4, 6, and 8 weeks after treatment (n = 10, each group). Degenerated acetylcholine receptors existed in all treated muscles. Although the action potential amplitude on the treated side was significantly less than on the control side from the day of treatment (25.1 ± 7.8 vs. 34.5 ± 9.1, p = 0.012) to 6 weeks (27.9 ± 7.2 vs. 34.5 ± 7.2, p = 0.037), there was no significant difference at 8 weeks. There was no significant difference in transmission latency between the groups. The application of shock waves to muscle induced a transient dysfunction of nerve conduction at neuromuscular junctions. © 2012 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 30:1660–1665, 2012
doi_str_mv 10.1002/jor.22111
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We therefore hypothesized that the application of shock waves to muscle induces dysfunction of neuromuscular transmission at neuromuscular junctions. We investigated changes in neuromuscular transmission in response to shock wave application. Sprague–Dawley rats were used in this study. Two thousand shock waves at an energy flux density of 0.18 mJ/mm2 were applied to their right calf muscles. Neuromuscular junctions of gastrocnemius muscles were evaluated using rhodamine–α‐bungarotoxin on the day of treatment (n = 5). Amplitude and latency of compound muscle action potentials were measured on the day of treatment and 1, 2, 4, 6, and 8 weeks after treatment (n = 10, each group). Degenerated acetylcholine receptors existed in all treated muscles. 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subjects acetylcholine receptor
Animals
compound muscle action potential
Dystonia - therapy
extracorporeal shock wave therapy
High-Energy Shock Waves - adverse effects
Male
Muscle Spasticity - therapy
neuromuscular junction
Neuromuscular Junction - radiation effects
neuromuscular transmission
Rats
Rats, Sprague-Dawley
Receptors, Cholinergic - radiation effects
Ultrasonic Surgical Procedures
title Degeneration and recovery of the neuromuscular junction after application of extracorporeal shock wave therapy
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