限制踝关节背屈活动范围对深蹲过程中下肢运动学及肌肉激活模式的影响。

Effect of limiting ankle-dorsiflexion range of motion on lower extremity kinematics and muscle-activation patterns during a squat.

作者信息

Macrum Elisabeth, Bell David Robert, Boling Michelle, Lewek Michael, Padua Darin

机构信息

Dept of Athletics, University of Richmond, Richmond, VA, USA.

出版信息

J Sport Rehabil. 2012 May;21(2):144-50. doi: 10.1123/jsr.21.2.144. Epub 2011 Nov 15.

DOI:10.1123/jsr.21.2.144

PMID:22100617

Abstract

CONTEXT

Limitations in gastrocnemius/soleus flexibility that restrict ankle dorsiflexion during dynamic tasks have been reported in individuals with patellofemoral pain (PFP) and are theorized to play a role in its development.

OBJECTIVE

To determine the effect of restricted ankle-dorsiflexion range of motion (ROM) on lower extremity kinematics and muscle activity (EMG) during a squat. The authors hypothesized that restricted ankle-dorsiflexion ROM would alter knee kinematics and lower extremity EMG during a squat.

DESIGN

Cross-sectional.

PARTICIPANTS

30 healthy, recreationally active individuals without a history of lower extremity injury.

INTERVENTIONS

Each participant performed 7 trials of a double-leg squat under 2 conditions: a no-wedge condition (NW) with the foot flat on the floor and a wedge condition (W) with a 12° forefoot angle to simulate reduced plantar-flexor flexibility.

MAIN OUTCOME MEASURES

3-dimensional hip and knee kinematics, medial knee displacement (MKD), and ankle-dorsiflexion angle. EMG of vastus medialis oblique (VMO), vastus lateralis (VL), lateral gastrocnemius (LG), and soleus (SOL). One-way repeated-measures ANOVAs were performed to determine differences between the W and NW conditions.

RESULTS

Compared with the NW condition, the wedge produced decreased peak knee flexion (P < .001, effect size [ES] = 0.81) and knee-flexion excursion (P < .001, ES = 0.82) while producing increased peak ankle dorsiflexion (P = .006, ES = 0.31), ankle-dorsiflexion excursion (P < .001, ES = 0.31), peak knee-valgus angle (P = .02, ES = 0.21), and MKD (P < .001, ES = 2.92). During the W condition, VL (P = 0.002, ES = 0.33) and VMO (P = .049, ES = 0.20) activity decreased while soleus activity increased (P = .03, ES = 0.64) compared with the NW condition. No changes were seen in hip kinematics (P > .05).

CONCLUSIONS

Altering ankle-dorsiflexion starting position during a double-leg squat resulted in increased knee valgus and MKD, as well as decreased quadriceps activation and increased soleus activation. These changes are similar to those seen in people with PFP.

摘要

背景

据报道，在动态任务中，腓肠肌/比目鱼肌灵活性受限会限制踝关节背屈，这在髌股疼痛（PFP）患者中较为常见，并且理论上认为这在其发病过程中起一定作用。

目的

确定踝关节背屈活动度（ROM）受限对深蹲过程中下肢运动学和肌肉活动（肌电图，EMG）的影响。作者假设，踝关节背屈ROM受限会改变深蹲过程中的膝关节运动学和下肢EMG。

设计

横断面研究。

参与者

30名健康、有休闲运动习惯且无下肢损伤史的个体。

干预措施

每位参与者在两种条件下进行7次双腿深蹲试验：一种是无楔形物条件（NW），即脚平放在地面上；另一种是楔形物条件（W），即前脚角度为12°，以模拟足底屈肌灵活性降低的情况。

主要观察指标

三维髋关节和膝关节运动学、膝关节内侧位移（MKD）以及踝关节背屈角度。股内侧斜肌（VMO）、股外侧肌（VL）、外侧腓肠肌（LG）和比目鱼肌（SOL）的肌电图。采用单因素重复测量方差分析来确定W组和NW组之间的差异。

结果

与NW条件相比，楔形物条件下膝关节最大屈曲角度减小（P <.001，效应量[ES]=0.81），膝关节屈曲幅度减小（P <.001，ES = 0.82），而踝关节最大背屈角度增加（P =.006，ES = 0.31），踝关节背屈幅度增加（P <.001，ES = 0.31），膝关节最大外翻角度增加（P =.02，ES = 0.21），MKD增加（P <.001，ES = 2.92）。在W条件下，与NW条件相比，VL（P = 0.002，ES = 0.33）和VMO（P =.049）活动减少，而比目鱼肌活动增加（P =.03，ES = 0.64）。髋关节运动学未见变化（P >.05）。