趾外步态压力中心的动态特性:对鞋类设计的启示

Bo Li, Xianyi Zhang
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引用次数: 0

摘要

趾外步态常被用作一种保守的技术来减少膝关节内收力矩,目的是改善膝关节骨关节炎的进展。压力中心(COP)不仅可以用于评估步态稳定性,而且由于不依赖于精确的足区划分,因此比局部足底压力更可靠和实用。然而,据作者所知,很少有研究报道足部前进角对COP动态特性的影响。研究问题:本研究的目的是研究故意向外倾斜的步态对健康人步行时COP轨迹和稳定性的影响。方法30名健康青年在一条8米长的人行道上行走。采用Footscan 1 m压力板测量行走时的压力中心。结果与正常步态相比,外翻步态的COP在初始接触阶段横向移动,在前足接触阶段横向和向前移动。平足阶段COP的平均前后速度减少0.109 m/s,平足阶段和前脚蹬离阶段的持续时间分别增加4.5%和减少7.0%。与正常步态相比,本研究的结果表明,在我们的实验条件下,足部的生物力学改变可能会降低步态稳定性,增加脚趾外伸行走时的前足负荷。这种情况可以通过精心设计的鞋子或定制的鞋垫来改善,生物力学分析方法可以用来测试治疗性鞋子或鞋垫对故意向外行走的个人的功效。图形抽象
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The dynamic characteristics of the center of pressure for toe-out gait: implications for footwear design

Background

Toe-out gait is often used as a conservative technique to reduce knee adduction moment, which has been targeted to modify knee osteoarthritis progression. The center of pressure (COP) can not only be used to evaluate gait stability, but is also more reliable and practical than local plantar pressures as it does not depend on accurate foot zone divisions. However, to the authors’ knowledge, few study has reported the influence of the foot progression angle on the dynamic characteristics of the COP.

Research question

The aim of the study was to investigate the effects of the deliberately toe-out gait on the COP trajectory and stability during walking in healthy individuals.

Methods

Thirty healthy young adults were asked to walk along an 8-m walkway. A Footscan 1 m pressure plate was used to measure the center of pressure during walking.

Results

Compared to the normal gait, the COP of the toe-out gait shifted laterally during the initial contact phase, and shifted laterally and anteriorly during the forefoot contact phase. The mean anterior–posterior velocity of COP reduced by 0.109 m/s during the foot flat phase and the duration of the foot flat phase and forefoot push off phase increased by 4.5% and reduced by 7.0%, respectively.

Significance

Compared to the normal gait, the findings of this study suggest that biomechanical alteration of foot under our experimental conditions may decrease gait stability and increase forefoot load during toe-out walking. The situation may be improved by well-designed footwear or custom-made insole and the biomechanics analysis method can be used to test the efficacy of therapeutic footwear or insole for individuals with deliberately toe-out walking.

Graphical Abstract

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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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