Relationship between Leg Stiffness and Kinematic Variables According to the Load while Running

Korean Journal of Sport Biomechanics Pub Date : 2017-06-30 DOI:10.5103/KJSB.2017.27.2.109

Seung-Hyun Hyun, Che-Cheong Ryew

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引用次数: 2

Abstract

Objective: This study aimed to investigate the relationship between leg stiffness and kinematic variables according to load while running. Method: Participants included eight healthy men (mean age, 22.75 ± 1.16 years; mean height: 1.73 ± 0.01 m; mean body weight, 71.37 ± 5.50 kg) who ran with no load or a backpack loaded with 14.08% or 28.17% of their body weight. The analyzed variables included leg stiffness, ground contact time, center of gravity (COG) displacement and Y-axis velocity, lower-extremity joint angle (hip, knee, ankle), peak vertical force (PVF), and change in stance phase leg length. Results: Dimensionless leg stiffness increased significantly with increasing load during running, which was the result of increased PVF and contact time due to decreased leg lengths and COG displacement and velocity. Leg length and leg stiffness showed a negative correlation (r = -.902, R2 = 0.814). COG velocity showed a similar correlation with COG displacement (r = .408, R2 = .166) and contact time (r = -.455, R2 = .207). Conclusion: Dimensionless leg stiffness increased during running with a load. In this investigation, leg stiffness due to load increased was most closely related to the PVF, knee joint angle, and change in stance phase leg length. However, leg stiffness was unaffected by change in contact time, COG velocity, and COG displacement.

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跑步负荷下腿部刚度与运动变量的关系

目的:研究不同负荷跑步时腿部僵硬度与运动变量的关系。方法:健康男性8例(平均年龄22.75±1.16岁;平均高度:1.73±0.01 m;平均体重为71.37±5.50 kg)，空载或背包负重14.08%或28.17%。分析的变量包括腿部刚度、与地面接触时间、重心(COG)位移和y轴速度、下肢关节角度(髋关节、膝关节、踝关节)、峰值垂直力(PVF)和站姿相腿长变化。结果:在跑步过程中，无量纲腿刚度随着负荷的增加而显著增加，这是由于腿长和COG位移和速度的减少导致PVF和接触时间的增加。腿长与腿僵硬呈负相关(r = -)。902, r2 = 0.814)。COG速度与COG位移(r = 0.408, R2 = 0.166)和接触时间(r = -)具有相似的相关性。455, r2 = .207)。结论:无量纲腿刚度在负重跑步时增加。在本研究中，负荷增加导致的腿部僵硬与PVF、膝关节角度和站立相腿长变化关系最为密切。然而，腿部刚度不受接触时间、齿格速度和齿格位移的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Korean Journal of Sport Biomechanics

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