Lower extremity joints and their contributions to whole limb extension.

Q2 Medicine

International Biomechanics Pub Date : 2020-12-01 DOI:10.1080/23335432.2019.1695540

J W Fox, A E Jagodinsky, C M Wilburn, L Smallwood, W H Weimar

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引用次数: 1

Abstract

Lower extremity multi-joint strength curves tend not to evaluate individual joint contributions to endpoint force in maximum effort isometric whole limb extension. Therefore, the purpose of this study was to measure the contribution of the hip, knee, and ankle to vertical ground reaction force in maximum effort isometric whole limb extension at various postures. An effect of posture on the contributions of the hip, knee, and ankle to vertical ground reaction force was found (F_(3,96) = 85.31, p < 0.0001; F_(3,96) = 21.32, p < 0.0001; F_(3,96) = 130.61, p < 0.0001 for the hip, knee, and ankle, respectively). The hip and knee contributed most to vertical endpoint force when the lower limb was in a flexed posture, and their contributions decreased when posture was extended. Conversely, the ankle contributed least when the limb was flexed, but its contribution increased as posture was changed from flexed to more extended. In comparison to recent research involving induced acceleration analysis, it appears that the hip, knee, and ankle utilize the same force allocation strategy in multi-joint maximum effort isometric leg extensions and activities of daily living.

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下肢关节及其对整个肢体伸展的贡献。

下肢多关节强度曲线倾向于不评估单个关节对最大力等长全肢伸展终点力的贡献。因此，本研究的目的是测量不同姿势下全肢最大力等距伸展时，髋关节、膝关节和踝关节对垂直地面反力的贡献。发现姿势对髋关节、膝关节和踝关节对垂直地面反力的贡献有影响(F(3,96) = 85.31, p < 0.0001;F(3,96) = 21.32, p < 0.0001;F(3,96) = 130.61，髋关节、膝关节和踝关节分别p < 0.0001)。当下肢处于屈曲姿势时，髋关节和膝关节对垂直端点力的贡献最大，当姿势伸展时，它们的贡献减小。相反，当肢体弯曲时，踝关节的贡献最小，但当姿势从弯曲变为伸展时，踝关节的贡献增加。与最近涉及诱导加速度分析的研究相比，似乎髋关节、膝关节和踝关节在多关节最大努力等距腿伸展和日常生活活动中使用相同的力分配策略。

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

International Biomechanics Medicine-Rehabilitation

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

17 weeks

期刊介绍： International Biomechanics is a fully Open Access biomechanics journal that aims to foster innovation, debate and collaboration across the full spectrum of biomechanics. We publish original articles, reviews, and short communications in all areas of biomechanics and welcome papers that explore: Bio-fluid mechanics, Continuum Biomechanics, Biotribology, Cellular Biomechanics, Mechanobiology, Mechano-transduction, Tissue Mechanics, Comparative Biomechanics and Functional Anatomy, Allometry, Animal locomotion in biomechanics, Gait analysis in biomechanics, Musculoskeletal and Orthopaedic Biomechanics, Cardiovascular Biomechanics, Plant Biomechanics, Injury Biomechanics, Impact Biomechanics, Sport and Exercise Biomechanics, Kinesiology, Rehabilitation in biomechanics, Quantitative Ergonomics, Human Factors engineering, Occupational Biomechanics, Developmental Biomechanics.