认知和运动双重任务对步行时下肢肌肉协同作用的影响

IF 0.9 4区 医学 Q4 NEUROSCIENCES
Motor Control Pub Date : 2024-11-15 DOI:10.1123/mc.2024-0080
Sara Sadeghi, Behrouz Hajilou, Hassan Rohbanfard
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引用次数: 0

摘要

目的行走是人类最复杂的动作之一,会受到各种注意力来源的影响。双重任务会减少注意力,增加信息处理,并可能改变协同等控制机制。然而,双重任务对肌肉协同作用的影响仍然未知。因此,本研究旨在探讨认知和运动双重任务对行走时下肢肌肉协同作用的影响:自愿选择 24 名参与者。在三种不同条件下记录八块下肢肌肉的活动:无双重任务的正常行走、有认知双重任务的行走和有运动双重任务的行走。采用非负矩阵因式分解算法和所占方差来提取肌肉协同作用。对数据进行了重复测量方差分析检验和皮尔逊相关系数分析:本研究在三种不同条件下,使用方差占比法从肌电图数据中提取了五种肌肉协同作用。肌肉协同作用的模式显示出中等到较强的相关性。协同作用的峰值发生了变化,并观察到行走时协同作用峰值的时间移动。然而,提取的协同作用数量没有变化:结论:在不同条件下,招募的肌肉协同作用的数量保持一致。双重任务会影响运动控制系统的较高层次,造成信息处理的干扰,从而导致肌肉协同和重量系数的变化趋势,最终导致行走力学的改变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effect of Cognitive and Motor Dual Tasks on the Synergy of Lower Limb Muscles During Walking.

Objective: Walking is one of the most complex human movements that can be affected by various sources of attention. Dual tasks reduce attention, increase information processing, and may alter control mechanisms such as synergy. However, the effect of dual tasks on muscle synergy remains unknown. Therefore, this study aimed to investigate the effect of cognitive and motor dual tasks on the synergy of lower limb muscles during walking.

Methods: Twenty-four participants were selected voluntarily. The activity of the eight lower limb muscles was recorded under three different conditions: normal walking without a dual task, walking with a cognitive dual task, and walking with a motor dual task. A nonnegative matrix factorization algorithm and the variance accounted for were used to extract muscle synergy. The repeated-measures analysis of variance test and Pearson's correlation coefficient were performed to analyze the data.

Results: In this study, five muscle synergies were extracted from electromyography data using the variance accounted for method under three different conditions. The pattern of muscle synergies showed moderate to strong correlations. Peaks of synergies changed, and a time shift in synergy peaks during walking was observed. However, the number of extracted synergies did not change.

Conclusion: The number of recruited muscle synergies remained consistent across different conditions. Dual tasks affect the higher levels of the motor control system, causing interference in information processing that leads to a shift in the tendency of synergy and weight coefficients of the muscles, ultimately resulting in a change in walking mechanics.

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来源期刊
Motor Control
Motor Control 医学-神经科学
CiteScore
1.80
自引率
9.10%
发文量
48
审稿时长
>12 weeks
期刊介绍: Motor Control (MC), a peer-reviewed journal, provides a multidisciplinary examination of human movement across the lifespan. To keep you abreast of current developments in the field of motor control, it offers timely coverage of important topics, including issues related to motor disorders. This international journal publishes many types of research papers, from clinical experimental to modeling and theoretical studies. These papers come from such varied disciplines as biomechanics, kinesiology, neurophysiology, neuroscience, psychology, physical medicine, and rehabilitation. Motor Control, the official journal of the International Society of Motor Control, is designed to provide a multidisciplinary forum for the exchange of scientific information on the control of human movement across the lifespan, including issues related to motor disorders. Motor Control encourages submission of papers from a variety of disciplines including, but not limited to, biomechanics, kinesiology, neurophysiology, neuroscience, psychology, physical medicine, and rehabilitation. This peer-reviewed journal publishes a wide variety of types of research papers including clinical experimental, modeling, and theoretical studies. To be considered for publication, papers should clearly demonstrate a contribution to the understanding of control of movement. In addition to publishing research papers, Motor Control publishes review articles, quick communications, commentaries, target articles, and book reviews. When warranted, an entire issue may be devoted to a specific topic within the area of motor control.
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