关于振动训练期间记录的肌电信号的性质。

On the nature of the electromyographic signals recorded during vibration exercise.

作者信息

Xu Lin, Rabotti Chiara, Mischi Massimo

机构信息

Department of Electrical Engineering, Eindhoven University of Technology, Den Dolech 2, 5612 AZ, Eindhoven, The Netherlands,

出版信息

Eur J Appl Physiol. 2015 May;115(5):1095-106. doi: 10.1007/s00421-014-3091-7. Epub 2015 Jan 10.

DOI:10.1007/s00421-014-3091-7

PMID:25576261

Abstract

PURPOSE

Surface electromyography (EMG) has been widely used to measure neuromuscular activity during vibration exercise (VE) to investigate the underlying mechanisms elicited by VE. However, the EMG spectrum recorded during VE shows sharp peaks at the vibration frequency whose interpretation remains controversial. Some authors considered those peaks as a result of motion artifacts, while others interpreted them as due to vibration-induced neuromuscular activity. The aim of the present study is to clarify the nature of those sharp peaks observed during VE.

METHODS

Three independent EMG measurements were performed during VE: in vitro (IVT), in vivo at rest ([Formula: see text]), and in vivo during voluntary contraction ([Formula: see text]). The amplitudes of the EMG vibration frequency components ([Formula: see text]) were extracted for all measurements. The conduction velocity (CV) of the vibration frequency components and the full EMG spectrum were also estimated during voluntary contraction.

RESULTS

Our spectrum analysis revealed small [Formula: see text] for IVT and [Formula: see text], accounting for only 3.3 and 7.6 % of that obtained from [Formula: see text]. Moreover, the CV estimation indicated the EMG vibration components to propagate along the muscle fiber with CV [Formula: see text] 6.5 m/s, comparable to the CV estimated using the full EMG spectrum (5.7 m/s).

CONCLUSION

We may therefore conclude that the sharp spectral peaks observed during VE are mainly due to vibration-induced muscle activity rather than motion artifacts.

摘要

目的

表面肌电图（EMG）已被广泛用于测量振动运动（VE）期间的神经肌肉活动，以研究VE引发的潜在机制。然而，VE期间记录的EMG频谱在振动频率处显示出尖锐的峰值，其解释仍存在争议。一些作者认为这些峰值是运动伪影的结果，而另一些作者则将其解释为振动引起的神经肌肉活动。本研究的目的是阐明VE期间观察到的这些尖锐峰值的性质。

方法

在VE期间进行了三项独立的EMG测量：体外（IVT）、静息状态下的体内测量（[公式：见原文]）和自愿收缩期间的体内测量（[公式：见原文]）。提取了所有测量中EMG振动频率成分（[公式：见原文]）的幅度。在自愿收缩期间还估计了振动频率成分的传导速度（CV）和完整的EMG频谱。

结果

我们的频谱分析显示，IVT和[公式：见原文]的[公式：见原文]较小，仅占[公式：见原文]所得值的3.3%和7.6%。此外，CV估计表明EMG振动成分以CV [公式：见原文] 6.5 m/s沿肌纤维传播，与使用完整EMG频谱估计的CV（5.7 m/s）相当。

结论

因此，我们可以得出结论，VE期间观察到的尖锐频谱峰值主要是由于振动引起的肌肉活动，而不是运动伪影。

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关于振动训练期间记录的肌电信号的性质。

On the nature of the electromyographic signals recorded during vibration exercise.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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