慢性踝关节不稳患者跑步过程中胶布对多节段足部生物力学的影响。

IF 2 3区医学 Q3 ENGINEERING, BIOMEDICAL

Sports Biomechanics Pub Date : 2025-07-11 DOI:10.1080/14763141.2025.2526694

Wenjing Quan, Huiyu Zhou, Datao Xu, Yaodong Gu

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引用次数: 0

摘要

本研究旨在探讨不同长度的运动学胶带（KT）对慢性踝关节不稳定（CAI）患者多节段足部生物力学变量的影响。运动学和动力学数据的收集使用了一个十摄像头Vicon运动捕捉系统（200 Hz）和一个测力板（1000 Hz）。20名CAI患者在无KT （NT）、短KT （ST）和长KT （LT）三种不同的条件下跑步。采用5节段足部模型，该模型具有8个自由度。结果表明，在站立阶段，CAI个体的距下外翻角和Chopart斜倾角均有减小的趋势。在跑步站立阶段，观察到踝关节和距下关节的关节力矩存在差异，与NT和ST条件相比，LT条件下踝关节跖屈和距下关节内翻力矩较小。此外，我们还发现，在CAI患者的站立阶段，LT可以降低踝关节韧带力，增加腓肠肌外侧肌、比目鱼肌、腓骨长肌和腓骨短肌的力。这些发现表明，KT可能会降低CAI患者在跑步时踝关节韧带受力和踝关节扭伤的风险。

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Effect of taping on multi-segmental foot biomechanical mechanics during the running in chronic ankle instability.

The study aimed to investigate the effects of different lengths of kinesiology tape (KT) on multi-segment foot biomechanical variables in individuals with chronic ankle instability (CAI). Kinematic and kinetic data were collected using a ten-camera Vicon motion capture system (200 Hz) and a force plate (1000 Hz). Twenty participants with CAI ran under three different conditions: no KT (NT), short KT (ST), and long KT (LT). A five-segment foot model was used, which has 8 degrees of freedom. The results indicated that CAI individuals running with KT might decrease the subtalar eversion angle and Chopart oblique angle during the stance phase. Differences in joint moments were observed at the ankle and subtalar joints during the running stance phase, with smaller ankle plantarflexion and inversion subtalar joint moments in the LT condition compared to the NT and ST conditions. Furthermore, LT was found to decrease the ankle ligament force and increased the force of lateral gastrocnemius muscle, soleus, peroneus longus, and peroneus brevis in individuals with CAI during the stance phase. These findings suggest that KT might reduce ankle ligament force and the risk of ankle sprains in individuals with CAI during running.

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来源期刊

Sports Biomechanics 医学-工程：生物医学

CiteScore

5.70

自引率

9.10%

发文量

135

审稿时长

>12 weeks

期刊介绍： Sports Biomechanics is the Thomson Reuters listed scientific journal of the International Society of Biomechanics in Sports (ISBS). The journal sets out to generate knowledge to improve human performance and reduce the incidence of injury, and to communicate this knowledge to scientists, coaches, clinicians, teachers, and participants. The target performance realms include not only the conventional areas of sports and exercise, but also fundamental motor skills and other highly specialized human movements such as dance (both sport and artistic). Sports Biomechanics is unique in its emphasis on a broad biomechanical spectrum of human performance including, but not limited to, technique, skill acquisition, training, strength and conditioning, exercise, coaching, teaching, equipment, modeling and simulation, measurement, and injury prevention and rehabilitation. As well as maintaining scientific rigour, there is a strong editorial emphasis on ''reader friendliness''. By emphasising the practical implications and applications of research, the journal seeks to benefit practitioners directly. Sports Biomechanics publishes papers in four sections: Original Research, Reviews, Teaching, and Methods and Theoretical Perspectives.