人体等长收缩过程中肌肉声音与力量的关系。

Muscular sound and force relationship during isometric contraction in man.

作者信息

Orizio C, Perini R, Veicsteinas A

机构信息

Department of Biomedical Sciences and Biotechnology, University of Brescia, Italy.

出版信息

Eur J Appl Physiol Occup Physiol. 1989;58(5):528-33. doi: 10.1007/BF02330708.

DOI:10.1007/BF02330708

PMID:2759079

Abstract

The contracting muscle generates a low frequency sound detectable at the belly surface, ranging from 11 to 40 Hz. To study the relationship between the muscular sound and the intensity of the contraction a sound myogram (SMG) was recorded by a contact sensor from the biceps brachii of seven young healthy males performing 4-s isometric contractions from 10% to 100% of the maximal voluntary contraction (MVC), in 10% steps. Simultaneously, the electromyogram (EMG) was recorded as an index of muscle activity. SMG and EMG were integrated by conventional methods (iSMG and iEMG). The relationship between iSMG and iEMG vs MVC% is described by parabolic functions up to 80% and 100% MVC respectively. Beyond 80% MVC the iSMG decreases, being about half of its maximal value at 100% MVC. Our results indicate that the motor unit recruitment and firing rate affect the iSMG and iEMG in the same way up to 80% MVC. From 80% to 100% MVC the high motor units' discharge rate and the muscular stiffness together limit the pressure waves generated by the dimensional changes of the active fibres. The muscular sound seems to reflect the intramuscular visco-elastic characteristics and the motor unit activation pattern of a contracting muscle.

摘要

收缩的肌肉会产生一种可在肌腹表面检测到的低频声音，频率范围为11至40赫兹。为了研究肌肉声音与收缩强度之间的关系，通过接触式传感器对7名年轻健康男性肱二头肌进行记录，他们以最大自主收缩（MVC）的10%至100%进行4秒等长收缩，步长为10%，同时记录肌电图（EMG）作为肌肉活动指标。通过传统方法（iSMG和iEMG）对肌音图（SMG）和肌电图进行积分。iSMG与iEMG相对于MVC%的关系分别由抛物线函数描述，直至MVC的80%和100%。超过80%MVC时，iSMG下降，在100%MVC时约为其最大值的一半。我们的结果表明，在达到80%MVC之前，运动单位募集和放电频率以相同方式影响iSMG和iEMG。从80%到100%MVC，高运动单位放电频率和肌肉僵硬度共同限制了由活动纤维尺寸变化产生的压力波。肌肉声音似乎反映了收缩肌肉的肌内粘弹性特征和运动单位激活模式。

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本文引用的文献

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人体等长收缩过程中肌肉声音与力量的关系。

Muscular sound and force relationship during isometric contraction in man.

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