间歇性次最大等长收缩后主动肌肉僵硬度降低。

Reduced Active Muscle Stiffness after Intermittent Submaximal Isometric Contractions.

机构信息

University of Saint-Etienne, Inter-university Laboratory of Human Movement Science, University of Lyon, Saint-Etienne, FRANCE.

Laboratory "Movement, Interactions, Performance," Faculty of Sciences and Technologies, Department of Sport Sciences, Le Mans University, Le Mans, FRANCE.

出版信息

Med Sci Sports Exerc. 2019 Dec;51(12):2603-2609. doi: 10.1249/MSS.0000000000002080.

DOI:10.1249/MSS.0000000000002080

PMID:31269006

Abstract

PURPOSE

Whether muscle stiffness is influenced by fatigue remains unclear. Classical methods used to assess muscle stiffness provide a global measure at the joint level. As fatigue may selectively affect specific muscles, a joint-level approach may not be sensitive enough to detect potential changes in muscle stiffness. Taking advantage of ultrasound shear wave elastography, this study aimed to determine the influence of a fatiguing protocol involving intermittent submaximal isometric contractions on muscle shear modulus (an index of stiffness).

METHODS

Shear modulus was measured on either the vastus lateralis (n = 9) or the abductor digiti minimi (n = 10) before and after 15 min of intermittent submaximal isometric contractions at 60% of maximal voluntary contraction (MVC) (4 s ON, 4 s OFF). An index of active muscle stiffness was estimated PRE- and POST-fatigue as the slope of the linear regression established between shear modulus and absolute joint force up to 60% MVC.

RESULTS

After the fatiguing exercise, MVC was significantly decreased by 22% ± 7% and 32% ± 15% for knee extension and little finger abduction, respectively (P < 0.001). When compared to PRE-fatigue, the index of active muscle stiffness was 12% ± 15% lower for the vastus lateralis (P < 0.031) and 44% ± 19% lower for the abductor digiti minimi (P < 0.001) POST-fatigue.

CONCLUSIONS

Although the present results cannot clearly determine the involved mechanisms, they demonstrate a decreased active muscle stiffness after a fatiguing task involving intermittent submaximal isometric contractions. Further studies should now determine whether this change in stiffness affects performance and risk of injury.

摘要

目的

肌肉僵硬是否受疲劳影响尚不清楚。评估肌肉僵硬的经典方法在关节水平上提供了一种整体测量方法。由于疲劳可能会选择性地影响特定的肌肉，因此关节水平的方法可能不够敏感，无法检测肌肉僵硬的潜在变化。本研究利用超声剪切波弹性成像技术，旨在确定涉及间歇性亚最大等长收缩的疲劳方案对肌肉剪切模量（僵硬指数）的影响。

方法

在 60%最大自主收缩（MVC）（4 s ON，4 s OFF）的间歇性亚最大等长收缩 15 分钟前后，分别在股外侧肌（n = 9）或小趾展肌（n = 10）上测量剪切模量。在疲劳前和疲劳后，通过建立剪切模量与绝对关节力之间的线性回归来估计主动肌肉僵硬指数，该回归的斜率高达 60% MVC。

结果

疲劳运动后，膝关节伸展和小趾外展的 MVC 分别显著降低了 22% ± 7%和 32% ± 15%（P < 0.001）。与疲劳前相比，股外侧肌的主动肌肉僵硬指数降低了 12% ± 15%（P < 0.031），小趾展肌降低了 44% ± 19%（P < 0.001）。

结论

尽管目前的结果尚不能明确确定所涉及的机制，但它们表明，在涉及间歇性亚最大等长收缩的疲劳任务后，主动肌肉僵硬降低。现在应该进行进一步的研究，以确定这种僵硬度的变化是否会影响运动表现和受伤风险。

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间歇性次最大等长收缩后主动肌肉僵硬度降低。

Reduced Active Muscle Stiffness after Intermittent Submaximal Isometric Contractions.

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出版信息

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METHODS

RESULTS

CONCLUSIONS

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结果

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