单腿下蹲的生物力学分析

Biomechanical analysis of the single-leg decline squat.

作者信息

Zwerver J, Bredeweg S W, Hof A L

机构信息

Center for Sports Medicine, University Center for Sport, Exercise and Health, University Medical Center Groningen, University of Groningen, The Netherlands.

出版信息

Br J Sports Med. 2007 Apr;41(4):264-8; discussion 268. doi: 10.1136/bjsm.2006.032482. Epub 2007 Jan 15.

DOI:10.1136/bjsm.2006.032482

PMID:17224441

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2658963/

Abstract

BACKGROUND

The single-leg squat on a 25 degrees decline board has been described as a clinical assessment tool and as a rehabilitation exercise for patients with patellar tendinopathy. Several assumptions have been made about its working mechanism on patellar load and patellofemoral forces, but these are not substantiated by biomechanical evaluations.

AIM

To investigate knee moment and patellofemoral contact force as a function of decline angle in the single-leg squat.

METHODS

Five subjects performed single-leg eccentric squats at decline angles of 0 degrees, 5 degrees, 10 degrees, 15 degrees, 20 degrees and 25 degrees (with/without a backpack of 10 kg), and 30 degrees on a board that was placed over a forceplate. Kinematic and forceplate data were recorded by the Optotrak system. Joint moments of ankle, knee and hip were calculated by two-dimensional inverse dynamics.

RESULTS

Knee moment increased by 40% at decline angles of 15 degrees and higher, whereas hip and ankle moment decreased. Maximum knee and ankle angles increased with steeper decline. With a 10 kg backpack at 25 degrees decline, the knee moment was 23% higher than unloaded. Both patellar tendon and patellofemoral forces increased with higher decline angles, but beyond 60 degrees, the patellofemoral force rose steeper than the tendon force.

CONCLUSIONS

All single-leg squats at decline angles >15 degrees result in 40% increase in maximum patellar tendon force. In knee flexions >60 degrees, patellofemoral forces increase more than patellar tendon forces. Higher tendon load can be achieved by the use of a backpack with extra weight.

摘要

背景

在25度倾斜板上进行单腿深蹲已被描述为一种临床评估工具，也是髌腱病患者的康复锻炼方法。关于其对髌股负荷和髌股关节力的作用机制，已经有一些假设，但这些假设并未得到生物力学评估的证实。

目的

研究单腿深蹲时膝关节力矩和髌股接触力随倾斜角度的变化情况。

方法

五名受试者在一块放置在测力平台上的板子上，以0度、5度、10度、15度、20度和25度（有/无10千克背包）以及30度的倾斜角度进行单腿离心深蹲。运动学和测力平台数据由Optotrak系统记录。通过二维逆动力学计算踝关节、膝关节和髋关节的关节力矩。

结果

在15度及以上的倾斜角度时，膝关节力矩增加了40%，而髋关节和踝关节力矩减小。最大膝关节和踝关节角度随着倾斜度增加而增大。在25度倾斜且背负10千克背包时，膝关节力矩比无负重时高23%。髌腱力和髌股关节力均随着倾斜角度增加而增大，但超过60度后，髌股关节力的上升幅度比髌腱力更大。

结论

所有倾斜角度>15度的单腿深蹲都会使髌腱最大力增加40%。在膝关节屈曲>60度时，髌股关节力的增加幅度大于髌腱力。通过使用加重背包可以实现更高的肌腱负荷。

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