老年人从坐姿到站立任务背后的肌肉协同作用及其与动力学特征的关系。

Muscle synergies underlying sit-to-stand tasks in elderly people and their relationship with kinetic characteristics.

作者信息

Hanawa Hiroki, Kubota Keisuke, Kokubun Takanori, Marumo Tatsuya, Hoshi Fumihiko, Kobayashi Akira, Kanemura Naohiko

机构信息

Graduate School of Saitama Prefectural University, Graduate Course of Health and Social Services, 820 San-Nomiya, Koshigaya-shi, Saitama 343-8540, Japan; Department of Rehabilitation, Higashi Saitama General Hospital, 517-5, Yoshino, Satte-shi, Saitama 340-0153, Japan.

Graduate School of Saitama Prefectural University, Graduate Course of Health and Social Services, 820 San-Nomiya, Koshigaya-shi, Saitama 343-8540, Japan.

出版信息

J Electromyogr Kinesiol. 2017 Dec;37:15-20. doi: 10.1016/j.jelekin.2017.08.004. Epub 2017 Aug 24.

DOI:10.1016/j.jelekin.2017.08.004

PMID:28846897

Abstract

BACKGROUND

Physiological evidence suggests that the nervous system controls motion by using a low-dimensional synergy organization for muscle activation. Because the muscle activation produces joint torques, kinetic changes accompanying aging can be related to changes in muscle synergies.

OBJECTIVES

We explored the effects of aging on muscle synergies underlying sit-to-stand tasks, and examined their relationships with kinetic characteristics.

METHODS

Four younger and three older adults performed the sit-to-stand task at two speeds. Subsequently, we extracted the muscle synergies used to perform these tasks. Hierarchical cluster analysis was used to classify these synergies. We also calculated kinetic variables to compare the groups.

RESULTS

Three independent muscle synergies generally appeared in each subject. The spatial structure of these synergies was similar across age groups. The change in motion speed affected only the temporal structure of these synergies. However, subject-specific muscle synergies and kinetic variables existed.

CONCLUSIONS

Our results suggest common muscle synergies underlying the sit-to-stand task in both young and elderly adults. People may actively change only the temporal structure of each muscle synergy. The precise subject-specific structuring of each muscle synergy may incorporate knowledge of the musculoskeletal kinetics.

摘要

背景

生理学证据表明，神经系统通过使用低维协同组织来控制肌肉激活从而实现运动。由于肌肉激活会产生关节扭矩，因此衰老伴随的动力学变化可能与肌肉协同作用的变化有关。

目的

我们探讨了衰老对从坐到站任务中潜在肌肉协同作用的影响，并研究了它们与动力学特征的关系。

方法

四名年轻人和三名老年人以两种速度进行从坐到站任务。随后，我们提取了执行这些任务所使用的肌肉协同作用。采用层次聚类分析对这些协同作用进行分类。我们还计算了动力学变量以比较两组。

结果

每个受试者通常出现三种独立的肌肉协同作用。这些协同作用的空间结构在不同年龄组中相似。运动速度的变化仅影响这些协同作用的时间结构。然而，存在个体特异性的肌肉协同作用和动力学变量。

结论

我们的结果表明，年轻人和老年人在从坐到站任务中存在共同的肌肉协同作用。人们可能仅主动改变每种肌肉协同作用的时间结构。每种肌肉协同作用精确的个体特异性结构可能包含肌肉骨骼动力学知识。

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老年人从坐姿到站立任务背后的肌肉协同作用及其与动力学特征的关系。

Muscle synergies underlying sit-to-stand tasks in elderly people and their relationship with kinetic characteristics.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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