Impact of Fatigue on Spine Dynamic Stability and Gait Patterns in Runners with Moderate Flatfoot Versus Normal Arch
Zihang Xu, Zixiang Gao, Zhanyi Zhou, Yucheng Wang, Jianqi Pan, Liangliang Xiang, Yang Song, Dong Sun, Zsolt Radak, Xuanzhen Cen

TL;DR
This study shows that runners with moderate flatfoot experience greater instability and altered gait patterns when fatigued compared to those with normal arches.
Contribution
The study reveals how fatigue uniquely impacts dynamic stability and gait in runners with moderate flatfoot versus normal arches.
Findings
Flatfoot runners showed a 0.05 s−1 increase in short-term MLE during fatigue, indicating lower stability.
Fatigue caused altered COP trajectory and gait parameters in flatfoot runners, showing reduced gait efficiency.
Abstract
Background: Running is a widely practiced physical activity but carries a high risk of injury, with foot structure, particularly the medial arch, playing a vital role in biomechanical performance and injury prevention. As the core of foot support, the arch is essential for absorbing impact, transmitting force, and maintaining dynamic stability. This study aims to compare the dynamic stability of runners with moderate flatfoot and those with normal arches in the initial, steady, and fatigue stages in order to elucidate how fatigue differently affects their dynamic postural control. Methods: Twelve male runners were recruited. Using inertial measurement units (IMUs) and a Zebris treadmill system, data on Maximum Lyapunov Exponent(MLE) and plantar center of pressure (COP) trajectories were collected during the initial, steady-state, and fatigued phases. Results: In the fatigue phase,…
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Taxonomy
TopicsLower Extremity Biomechanics and Pathologies · Foot and Ankle Surgery · Diabetic Foot Ulcer Assessment and Management
