Determining Individualized Foot Progression Angle for Reduction of Knee Medial Compartment Loading during Stepping.

IF 4.1 2区医学 Q1 SPORT SCIENCES Medicine and Science in Sports and Exercise Pub Date : 2025-01-01 Epub Date: 2024-08-23 DOI:10.1249/MSS.0000000000003531

Raziyeh Baghi, Wei Yin, Ahmed Ramadan, Subham Badhyal, Giovanni Oppizzi, Dali Xu, Peter Bowman, Frank Henn, Li-Qun Zhang

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Abstract

Purpose: Modifying foot progression angle (FPA), the angle between the line from the heel to the second metatarsal head and the line of progression, can reduce peak knee adduction moment (pKAM). However, determining the optimal FPA that minimizes pKAM without inducing unnatural walking patterns can be challenging. This study investigated the FPA-pKAM relationship using a robotic stepping trainer to assess the feasibility of determining the optimal FPA based on this relationship. In addition, it examined knee moments during stepping with three different FPAs, as stepping is a recommended exercise for knee osteoarthritis rehabilitation.

Methods: Twenty-six asymptomatic individuals stepped on a robotic stepping trainer, which measured six-axis footplate-reaction forces/torques and three-dimensional ankle kinematics to determine external knee moments. The robot rotated the footplates slowly (~0.5 deg·s -1 ) between 10°-toe-out and 10°-toe-in while participants stepped continuously, unaware of the footplate rotations. The slope of pKAM-FPA relationship during continuous stepping was determined. Peak three-dimensional knee moments were compared between the 10°-toe-in, 0°-FPA, and 10°-toe-out FPAs with repeated-measures ANOVA. Multiple linear regression determined the covariates that predicted pKAM during stepping.

Results: Eighteen participants had lower pKAM and KAM impulse with 10°-toe-in than 10°-toe-out ( P < 0.001) and 0°-FPA ( P < 0.001 and P = 0.008, respectively; called toe-in responders). Conversely, eight participants reduced pKAM and KAM impulse with 10°-toe-out compared with 0°-FPA ( P < 0.001, P = 0.017) and 10°-toe-in ( P = 0.026, P = 0.004; called toe-out responders). A linear pKAM-FPA relationship was determined for each individual, and its slope (the pKAM rate with FPA) was positive for toe-in responders ( P < 0.01) and negative for toe-out responders ( P = 0.02). Regression analysis revealed that smaller pKAM with toe-in, in toe-in responders, was explained by increased tibia medial tilt, tibia internal rotation, footplate-reaction lateral force, footplate-reaction anterior force, and decreased footplate-reaction internal rotation torque.

Conclusions: Individuals may exhibit different responses to FPA modification during stepping. The slope and intercept of the linear pKAM-FPA relationship can be determined for individual subjects. This allows for a targeted pKAM reduction through guided FPA positioning and potentially offers subject-specific precision knee osteoarthritis rehabilitation.

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确定个性化的足部进步角度，以减轻迈步时膝关节内侧间室的负荷。

目的：改变足弓进步角（FPA），即从足跟到第二跖骨头的连线与进步线之间的角度，可以减少膝关节内收峰值力矩（pKAM）。然而，要确定既能使膝内收峰值力矩（pKAM）最小化，又不会诱发不自然行走模式的最佳 FPA 可能具有挑战性。本研究使用机器人步态训练器研究了 FPA 与 pKAM 的关系，以评估根据这一关系确定最佳 FPA 的可行性。此外，研究还考察了使用三种不同的 FPA 迈步时的膝关节力矩，因为迈步是膝关节骨性关节炎（KOA）康复的推荐运动：方法：26 名无症状的人在机器人踏步训练器上踏步，该训练器测量 6 轴脚板反作用力/力矩和三维（3-D）踝关节运动学，以确定膝关节外部力矩。机器人在 10°-toe-out 和 10°-toe-in 之间缓慢旋转脚板（约 0.5 度/秒），而参与者在不知脚板旋转的情况下持续迈步。测定了连续踏步时 pKAM-FPA 关系的斜率。用重复测量方差分析比较了10°-趾进、0°-FPA 和 10°-趾出 FPA 之间的峰值三维膝力矩。多元线性回归确定了预测迈步时 pKAM 的协变量：18 名参与者在趾入 10° 时的 pKAM 和 KAM 冲力低于趾出 10°（p < 0.001）和 0°-FPA（分别为 p < 0.001 和 p = 0.008）（称为趾入响应者）。相反，与 0°-FPA（p < 0.001，p = 0.017）和 10°-趾入（p = 0.026，p = 0.004）相比，8 名参与者在 10°-趾出时降低了 pKAM 和 KAM 冲力（称为趾出反应者）。确定了每个个体的 pKAM-FPA 线性关系，其斜率（pKAM 率与 FPA 的关系）在趾入型响应者中为正（p < 0.01），在趾出型响应者中为负（p = 0.02）。回归分析表明，趾入式反应者趾入时 pKAM 较小的原因是胫骨内倾、胫骨内旋、脚板反应侧向力、脚板反应前向力增加，以及脚板反应内旋扭矩减少：结论：在迈步过程中，个体对 FPA 的改变可能会表现出不同的反应。可以确定每个受试者的 pKAM-FPA 线性关系的斜率和截距。这就允许通过引导 FPA 定位有针对性地降低 pKAM，并有可能提供针对特定受试者的精确 KOA 康复。

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来源期刊

Medicine and Science in Sports and Exercise 医学-运动科学

CiteScore

7.70

自引率

4.90%

发文量

2568

审稿时长

1 months

期刊介绍： Medicine & Science in Sports & Exercise® features original investigations, clinical studies, and comprehensive reviews on current topics in sports medicine and exercise science. With this leading multidisciplinary journal, exercise physiologists, physiatrists, physical therapists, team physicians, and athletic trainers get a vital exchange of information from basic and applied science, medicine, education, and allied health fields.