陆地生物力学特性与浅水生物力学特性:文献比较综述

International Journal of Aquatic Research and Education Pub Date : 2020-11-01 DOI:10.25035/IJARE.13.01.05

M. Yaghoubi, P. Fink, W. Page, S. Shultz

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引用次数: 0

摘要

水上运动训练是陆上运动员康复和交叉训练中经常使用的运动训练。静水压力、导热系数和阻力影响人的移动能力;因此，了解水中和陆地生物力学步态的差异是很重要的。这篇综述调查了浅水和陆地演习之间的生物力学差异。检索PubMed、Google Scholar、SPORTDiscus和Scopus;33项研究包括向前行走(27项)、向后行走(6项)和跑步(6项)。与陆地步态相比，水中步态的肌电振幅在次最大强度上相似或更低。然而，在最大强度下，水中的振幅与陆地相似(n=5)或更高(n=4)。动力学变量(即地面反作用力，下肢关节力矩)在水中减少(约30-35%)，而运动学变量在浅水和陆地演习中有所不同。本综述强调的研究为改善与水生活动相关的康复和研究实践提供了坚实的基础。

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Biomechanical Properties of Land Based and Shallow Water Wait: A Comparative Review of Literature

Aquatic locomotion exercises are frequently used in rehabilitation and cross-training for land-based athletes. Hydrostatic pressure, thermal conductivity and drag force affect a person's ability to move; therefore, it is important to understand differences of biomechanical gait in water vs land. This review investigated biomechanical differences between shallow water and land-based exercises. PubMed, Google Scholar, SPORTDiscus and Scopus were searched; 33 studies included walking forward (27), backward (6) and running (6). Electromyographic amplitude was similar or less in submaximal intensity during aquatic gait, in comparison to on land. At maximal intensities, however, the amplitude was similar (n=5) or higher (n=4) in water than on land. Kinetic variables (i.e. ground reaction force, lower extremity joint moments) were reduced in water (about 30-35%), while kinematic variables varied between shallow water and land-based exercise. The research highlighted in this review provides a strong foundation for improving rehabilitation and research practices associated with aquatic activities.

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来源期刊

International Journal of Aquatic Research and Education Agricultural and Biological Sciences-Aquatic Science

CiteScore

1.10

自引率

0.00%

发文量