反复踝关节扭伤与延迟神经肌肉反应：加速时间参数

Repeated ankle sprains and delayed neuromuscular response: acceleration time parameters.

作者信息

van Cingel Robert E H, Kleinrensink Gertjan, Uitterlinden Elian J, Rooijens Patrick P G M, Mulder Paul G H, Aufdemkampe Geert, Stoeckart Rob

机构信息

Sports Medical Center Papendal, Papendallaan 60, 6816 VD Arnhem, The Netherlands.

出版信息

J Orthop Sports Phys Ther. 2006 Feb;36(2):72-9. doi: 10.2519/jospt.2006.36.2.72.

DOI:10.2519/jospt.2006.36.2.72

PMID:16494074

Abstract

STUDY DESIGN

A comparative study.

OBJECTIVES

To assess whether in subjects with unilateral chronic ankle instability the dynamic reaction time of the affected ankle differs from the healthy ankle and from ankles of a control group.

BACKGROUND

Reaction time is an essential element in joint protection against sudden unexpected excessive movement requiring fast and coordinated muscle action. During a sudden ankle inversion movement, a reflex action of the evertor muscles is needed to counteract the movement. Adequate neuromuscular response is crucial and a delayed response could contribute to inversion trauma and subsequently to chronic ankle instability. The isokinetic dynamometer acceleration time (ACC-TIME) provides valuable information on dynamic neuromuscular ability.

MATERIAL AND METHODS

Patients with unilateral chronic ankle instability (n = 11) and healthy individuals in a control group (n = 11) were tested on an isokinetic dynamometer during 3 sets of 3 reciprocal inversion/eversion movements of both ankles at 30 degrees/s and 120 degrees/s. Analysis of variance models were used to compare the ACC-TIME of the affected ankle to the unaffected ankle of the same subjects and a control group.

RESULTS

For the evertor muscles at 30 degrees/s and 120 degrees/s a significantly prolonged ACC-TIME was found when comparing the affected ankles to the contralateral ankles and both ankles of the control group. For the invertor muscles at 120 degrees/s a significantly prolonged ACC-TIME was found when comparing the affected ankle to the unaffected ankles of patients and those of the control group.

CONCLUSIONS

Because the most important evertor muscles are innervated by the fibular nerve, the significantly prolonged ACC-TIME of the affected ankle is consistent with the finding of a lower motor nerve conduction velocity of the fibular nerve after inversion trauma. The results support the concept of a delayed neuromuscular response as an important factor in the etiology of chronic ankle instability.

摘要

研究设计

一项对比研究。

目的

评估单侧慢性踝关节不稳患者患侧踝关节的动态反应时间与健侧踝关节以及对照组踝关节的反应时间是否存在差异。

背景

反应时间是关节保护免受突然意外过度运动影响的关键要素，这需要快速且协调的肌肉动作。在突然的踝关节内翻运动中，需要腓骨肌的反射动作来抵消该运动。充分的神经肌肉反应至关重要，反应延迟可能导致内翻创伤，进而引发慢性踝关节不稳。等速测力计加速时间（ACC-TIME）可提供有关动态神经肌肉能力的有价值信息。

材料与方法

对单侧慢性踝关节不稳患者（n = 11）和对照组中的健康个体（n = 11），在等速测力计上以30度/秒和120度/秒的速度对双侧踝关节进行3组每组3次的往复内翻/外翻运动测试。使用方差分析模型比较同一受试者患侧踝关节与未受影响踝关节以及对照组的ACC-TIME。

结果

在30度/秒和120度/秒时，将患侧踝关节与对侧踝关节以及对照组的双侧踝关节进行比较时，发现腓骨肌的ACC-TIME显著延长。在120度/秒时，将患侧踝关节与患者未受影响的踝关节以及对照组的踝关节进行比较时，发现胫骨前肌的ACC-TIME显著延长。

结论

由于最重要的腓骨肌由腓总神经支配，患侧踝关节ACC-TIME显著延长与内翻创伤后腓总神经运动神经传导速度降低的发现一致。结果支持了神经肌肉反应延迟是慢性踝关节不稳病因中的一个重要因素这一概念。

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反复踝关节扭伤与延迟神经肌肉反应：加速时间参数

Repeated ankle sprains and delayed neuromuscular response: acceleration time parameters.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVES

BACKGROUND

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

研究设计

目的

背景

材料与方法

结果

结论

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