The role of physical activity in mitigating age-related changes in the neuromuscular control of gait.

IF 4.1 Q2 GERIATRICS & GERONTOLOGY

npj aging Pub Date : 2025-06-09 DOI:10.1038/s41514-025-00239-8

M N Núñez-Lisboa, A H Dewolf

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Abstract

Exercise induces neural and muscular adaptations, improving muscle mass and function in older adults. We investigated its impact on gait neuromuscular control in young and older adults, classified as more active (young: n = 15, 5185 ± 1471 MET-min/week; old: n = 14, 6481 ± 4846 MET-min/week) or less active (young: n = 14, 1265 ± 965 MET-min/week; old: n = 14, 1473 ± 859 MET-min/week). Isometric maximal voluntary torques were assessed for proximal (knee) and distal (ankle) extensors, and muscle mechanical properties of these muscles were assessed using Myoton. Gait was analysed using ground reaction forces, motion capture, and electromyography. Less active older adults exhibited shorter steps, higher mechanical cost, and greater collision at heel strike. These differences were linked to altered neuromuscular control, wider activation of lumbar and sacral motor pools, different activation timing, and reduced muscle-tendon stiffness. Our findings highlight that physical activity preserves neuromuscular control, muscle mechanical properties, and gait efficiency, mitigating age-related decline.

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体力活动在减轻与年龄相关的步态神经肌肉控制变化中的作用。

运动诱导神经和肌肉适应，改善老年人的肌肉质量和功能。我们研究了运动对年轻人和老年人步态神经肌肉控制的影响，他们被分类为更活跃(年轻人：n = 15,5185±1471 MET-min/周；老年人：n = 14,6481±4846 MET-min/周)或较少运动(年轻人：n = 14,1265±965 MET-min/周；老年：n = 14,1473±859 MET-min/周)。评估近端（膝关节）和远端（踝关节）伸肌的最大自主扭矩，并使用Myoton评估这些肌肉的肌肉力学特性。步态分析使用地面反作用力，动作捕捉和肌电图。活动量较少的老年人步子较短，机械消耗较高，脚跟撞击时碰撞较多。这些差异与神经肌肉控制的改变、腰椎和骶骨运动池的更广泛激活、不同的激活时间以及肌肉肌腱僵硬度的降低有关。我们的研究结果强调，体育活动可以保持神经肌肉控制、肌肉机械性能和步态效率，减轻与年龄相关的衰退。

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来源期刊

npj aging

CiteScore

8.90

自引率

0.00%

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