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上下移动时与年龄相关的神经肌肉对步态的调节

Neuromuscular Age-Related Adjustment of Gait When Moving Upwards and Downwards.

作者信息

Dewolf Arthur H, Sylos-Labini Francesca, Cappellini Germana, Zhvansky Dmitry, Willems Patrick A, Ivanenko Yury, Lacquaniti Francesco

机构信息

Department of Systems Medicine and Center of Space Biomedicine, University of Rome Tor Vergata, Rome, Italy.

Laboratory of Neuromotor Physiology, IRCCS Santa Lucia Foundation, Rome, Italy.

出版信息

Front Hum Neurosci. 2021 Oct 21;15:749366. doi: 10.3389/fnhum.2021.749366. eCollection 2021.

DOI:10.3389/fnhum.2021.749366
PMID:34744664
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8566537/
Abstract

Locomotor movements are accommodated to various surface conditions by means of specific locomotor adjustments. This study examined underlying age-related differences in neuromuscular control during level walking and on a positive or negative slope, and during stepping upstairs and downstairs. Ten elderly and eight young adults walked on a treadmill at two different speeds and at three different inclinations (0°, +6°, and -6°). They were also asked to ascend and descend stairs at self-selected speeds. Full body kinematics and surface electromyography of 12 lower-limb muscles were recorded. We compared the intersegmental coordination, muscle activity, and corresponding modifications of spinal motoneuronal output in young and older adults. Despite great similarity between the neuromuscular control of young and older adults, our findings highlight subtle age-related differences in all conditions, potentially reflecting systematic age-related adjustments of the neuromuscular control of locomotion across various support surfaces. The main distinctive feature of walking in older adults is a significantly wider and earlier activation of muscles innervated by the sacral segments. These changes in neuromuscular control are reflected in a reduction or lack of propulsion observed at the end of stance in older adults at different slopes, with the result of a delay in the timing of redirection of the centre-of-mass velocity and of an unanticipated step-to-step transition strategy.

摘要

通过特定的运动调整,运动动作能够适应各种地面条件。本研究调查了在平地上行走、在正或负斜坡上行走以及上下楼梯过程中,与年龄相关的神经肌肉控制潜在差异。10名老年人和8名年轻人在跑步机上以两种不同速度和三种不同坡度(0°、+6°和 -6°)行走。他们还被要求以自己选择的速度上下楼梯。记录了12块下肢肌肉的全身运动学和表面肌电图。我们比较了年轻人和老年人的节段间协调性、肌肉活动以及脊髓运动神经元输出的相应变化。尽管年轻人和老年人的神经肌肉控制有很大相似性,但我们的研究结果突出了在所有情况下与年龄相关的细微差异,这可能反映了在各种支撑表面上运动的神经肌肉控制与年龄相关的系统性调整。老年人行走的主要显著特征是由骶段神经支配的肌肉激活明显更广泛且更早。这些神经肌肉控制的变化反映在不同坡度下老年人站立末期推进力的降低或缺乏,导致质心速度重新定向的时间延迟以及意外的步间转换策略。

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PLoS One. 2021 Feb 17;16(2):e0246372. doi: 10.1371/journal.pone.0246372. eCollection 2021.
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Intra-limb and muscular coordination during walking on slopes.在斜坡上行走时的肢体间和肌肉协调性。
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