改变足跟着地方式和步频对髌股关节疼痛跑者下肢关节协调性和变异性的影响。
Influences of altering footstrike pattern and cadence on lower extremity joint coordination and variability among runners with patellofemoral pain.
机构信息
Key Laboratory of Exercise and Health Sciences (Shanghai University of Sport), Ministry of Education, Shanghai, China.
School of Kinesiology, Shanghai University of Sport, Shanghai, China.
出版信息
PLoS One. 2023 Jan 23;18(1):e0280477. doi: 10.1371/journal.pone.0280477. eCollection 2023.
BACKGROUND
Patellofemoral pain (PFP) is a common overuse injury among runners. It is not only a hindrance to the runner's training, but also to the runner's quality of life. PFP runners may strategize different running strategies to reduce patellofemoral joint stress, release pain, and improve function.
PURPOSE
This study aimed to determine the changes in joint coordination and variability under combinations of foot strike pattern and cadence for runners with patellofemoral pain.
METHODS
Twenty male runners with PFP performed six running strategies which were two strike patterns named forefoot (FFS) and rearfoot (RFS) accompanied by three running cadences named slow10%, normal, and fast10%. A modified vector coding technique and circular statistics were respectively used to identify the coordination pattern and variability between hip sagittal-knee frontal (HsKf), hip sagittal-knee sagittal (HsKs) and knee transverse-ankle frontal (KtAf) during stance phase. Coordination patterns which were conformed with anatomical motion pattern was classified as mechanically sound, and the distribution frequency of each coordination pattern was quantified.
RESULTS
Switching to FFS, the HsKf couples (p < 0.001, ES = 1.34) and the HsKs couples (p = 0.001, ES = 0.82) displayed significantly greater frequency in mechanically unsound coordination pattern during the initial stance phase. The effect of increasing running cadence on RFS displayed significantly greater frequency in mechanically unsound hip dominancy (p = 0.042, ES = 0.65) and knee dominancy (p = 0.05, ES = 0.70) coordination patterns for HsKf couples as well as for HsKs couples (p = 0.023, ES = 0.86) during the initial stance phase. Combined with FFS and fast10% cadence, HsKs couples showed more hip-dominated mechanical sound coordination pattern (p = 0.002, ES = 1.25). Further, altering footstrike pattern and cadence failed to change the coordination variability.
CONCLUSIONS
Changing running cadence (± 10%) combined with transfer strike pattern from RFS to FFS could not increase the distribution frequency in mechanically sound coordination patterns and change coordination variability for PFP runners.
背景
髌股疼痛(PFP)是跑步者中常见的过度使用损伤。它不仅阻碍跑步者的训练,还影响跑步者的生活质量。髌股疼痛的跑步者可能会制定不同的跑步策略,以减轻髌股关节的压力、缓解疼痛和改善功能。
目的
本研究旨在确定髌股疼痛患者在不同的足触地模式和步频组合下,关节协调性和可变性的变化。
方法
20 名男性髌股疼痛跑步者进行了 6 种跑步策略,分别是前足(FFS)和后足(RFS)两种触地模式,以及慢 10%、正常和快 10%三种步频。分别使用改良的向量编码技术和循环统计学方法来识别站立相时髋关节矢状面-膝关节额状面(HsKf)、髋关节矢状面-膝关节矢状面(HsKs)和膝关节横向-踝关节额状面(KtAf)之间的协调模式和可变性。符合解剖运动模式的协调模式被归类为机械合理,并且量化了每种协调模式的分布频率。
结果
切换到 FFS 时,在初始站立相时,HsKf 耦合(p<0.001,ES=1.34)和 HsKs 耦合(p=0.001,ES=0.82)的机械不合理协调模式的出现频率显著增加。增加跑步步频对 RFS 的影响显示,在初始站立相时,HsKf 耦合和 HsKs 耦合的机械不合理髋关节主导(p=0.042,ES=0.65)和膝关节主导(p=0.05,ES=0.70)协调模式的出现频率显著增加(p=0.023,ES=0.86)。结合 FFS 和快 10%的步频,HsKs 耦合显示出更多的髋关节主导的机械合理协调模式(p=0.002,ES=1.25)。此外,改变触地模式和步频并不能增加机械合理协调模式的分布频率,也不能改变髌股疼痛跑步者的协调可变性。
结论
改变跑步步频(±10%)并结合从 RFS 到 FFS 的触地模式转换,不能增加机械合理协调模式的分布频率,并改变髌股疼痛跑步者的协调可变性。
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