前脚掌弧形鞋底纵向弯曲刚度对踝关节运动学和动力学的影响。
Effects of Longitudinal Bending Stiffness of forefoot rocker profile shoes on ankle kinematics and kinetics.
机构信息
University of Groningen, University Medical Center Groningen, Department of Rehabilitation Medicine, Groningen, the Netherlands.
University of Groningen, University Medical Center Groningen, Department of Rehabilitation Medicine, Groningen, the Netherlands; University of Twente, Department of Biomechanical Engineering, Enschede, the Netherlands.
出版信息
Gait Posture. 2021 Oct;90:326-333. doi: 10.1016/j.gaitpost.2021.09.188. Epub 2021 Sep 20.
INTRODUCTION
Rocker profile shoes with a proximally placed apex are currently one of the most prescribed shoe modifications for treatment and prevention of lower leg deficits. Three geometrical rocker design parameters apex position (AP), apex angle (AA) and rocker radius (RR) influence both plantar pressure redistribution and kinetic and kinematic alterations of the lower leg. In addition, longitudinal bending stiffness (LBS) of the outsole influences these parameters as well. This study aims to investigate the effects of the LBS in combination with different forefoot radii of rocker shoes on kinematics and kinetics of the lower limb.
METHODS
10 participants walked in standard shoes and six experimental shoe conditions with high and low LBS and three different forefoot rocker radii with the same (proximal) AP and AA. Lower extremity kinematics and kinetics were collected while walking on an instrumented treadmill at preferred walking speed and analysed with a repeated measures ANOVA and Statistical Parametric Mapping (SPM) (α = .05; post hoc α = .05/6).
RESULTS
SPM analyses revealed no significant differences for LBS and interaction LBS*RR for most research variables in terminal stance (ankle angle, ankle moment, ankle power, foot-to-horizontal angle, shank-to-vertical angle, external ankle moment, ground reaction force angle). A significant LBS effect was found for anterior-posterior position of the centre of pressure during pre-swing and peak ankle dorsiflexion angle. No relevant significant differences were found in spatio-temporal parameters and total work at the ankle between low and high LBS.
CONCLUSION
This study showed that longitudinal bending stiffness does not affect the biomechanical working mechanism of rocker profile shoes as long as toe plantarflexion is restricted. Providing that the forefoot rocker radius supports at least a normal foot-to-horizontal angle at toe-off, there is no reason to increase sole stiffness to change ankle kinematics and kinetics.
简介
目前,用于治疗和预防小腿缺陷的最常见的鞋类修改之一是具有近端顶点的弧形底鞋。三个几何弧形设计参数顶点位置(AP)、顶点角度(AA)和弧形半径(RR)影响足底压力的重新分布以及小腿的动力和运动学变化。此外,外底的纵向弯曲刚度(LBS)也会影响这些参数。本研究旨在研究 LBS 与弧形鞋底的不同前脚掌半径相结合对下肢运动学和动力学的影响。
方法
10 名参与者穿着标准鞋和六种实验鞋条件行走,这些实验鞋的 LBS 不同,前脚掌弧形半径也不同,具有相同(近端)AP 和 AA。在仪器化跑步机上以惯用步速行走时,收集下肢运动学和动力学数据,并使用重复测量方差分析和统计参数映射(SPM)进行分析(α=0.05;事后α=0.05/6)。
结果
SPM 分析显示,在终末站立期(踝关节角度、踝关节力矩、踝关节功率、足与水平的角度、小腿与垂直的角度、外踝力矩、地面反作用力角度),大多数研究变量的 LBS 和 LBS*RR 之间没有显著差异。在预摆期和最大踝关节背屈角度时,中心压力的前后位置存在显著的 LBS 效应。在低和高 LBS 之间,在时空参数和踝关节总功方面没有发现相关的显著差异。
结论
本研究表明,只要限制脚趾跖屈,纵向弯曲刚度不会影响弧形鞋底的生物力学工作机制。只要前脚掌弧形半径在足趾离地时至少能支撑正常的足与水平的角度,就没有理由增加鞋底刚度来改变踝关节的运动学和动力学。
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