在最大等长收缩中，股二头肌长头拮抗肌的肌构筑和腱膜/肌腱应变。

Antagonist muscle architecture and aponeurosis/tendon strain of biceps femoris long head during maximal isometric efforts.

机构信息

Laboratory of Neuromechanics, Department of Physical Education and Sport Sciences at Serres, Aristotle University of Thessaloniki, TEFAA Serres, Serres, 62100, Greece.

出版信息

Eur J Appl Physiol. 2019 Jan;119(1):73-83. doi: 10.1007/s00421-018-4000-2. Epub 2018 Oct 3.

DOI:10.1007/s00421-018-4000-2

PMID:30284028

Abstract

INTRODUCTION

Examination of the mechanical behavior of the hamstrings when acting as antagonists provides information about loading of this muscle group and its role for joint stability during forceful quadriceps contractions. The aim of this study was to quantify biceps femoris long head fascicle length (FL), angle of pennation (PA) and distal tendon/aponeurosis strain during maximum voluntary contraction efforts of the knee extensors using real-time ultrasound.

METHODS

Fourteen participants performed passive joint movements and maximum voluntary knee extension and flexion efforts of the knee flexors at 0°, 45° and 90° of knee flexion. An ultrasound probe was used to visualize FL, PA and tendon/aponeurosis strain from the distal part of the muscle.

RESULTS

Two-way analysis of variance designs indicated that: (a) antagonist BFlh tendon/aponeurosis strain increased significantly up to 2.77 ± 1.25% relative to rest (p < 0.05). The FL increased non-significantly (2.86 ± 6.81%) while the PA was unaltered during isometric MVC efforts of the knee extensors (p > 0.05) (b) FL, PA and tendon/aponeurosis strain of the BFlh when acting as antagonist were not significantly affected by knee joint angular position (p > 0.05).

CONCLUSIONS

Antagonist hamstring function takes the form of a lengthened tendon/aponeurosis, no fascicle shortening and submaximal neural activation. Future research could examine whether exercise interventions that aim to alter tendon/aponeurosis mechanical properties of the hamstrings when acting as antagonists are beneficial for injury prevention and rehabilitation.

摘要

简介

检查作为拮抗剂的腘绳肌的机械行为提供了有关该肌肉群受力情况的信息，以及在股四头肌强力收缩时对关节稳定性的作用。本研究的目的是使用实时超声量化股二头肌长头（BFlh）的肌腹长度（FL）、羽状角（PA）和远端肌腱/腱膜应变，在膝关节最大自主收缩时。

方法

14 名参与者进行被动关节运动和膝关节最大自主伸展和屈曲运动，膝关节屈曲角度分别为 0°、45°和 90°。使用超声探头从肌肉的远端可视化 FL、PA 和肌腱/腱膜应变。

结果

双向方差分析设计表明：（a）拮抗肌 BFlh 肌腱/腱膜应变相对于休息时显著增加了 2.77±1.25%（p<0.05）。FL 增加不显著（2.86±6.81%），而在膝关节伸肌等长最大自主收缩期间 PA 保持不变（p>0.05）（b）BFlh 作为拮抗剂时的 FL、PA 和肌腱/腱膜应变不受膝关节角度位置的显著影响（p>0.05）。

结论

拮抗腘绳肌的功能表现为拉长的肌腱/腱膜，无肌腹缩短和亚最大神经激活。未来的研究可以检查当作为拮抗剂时，改变腘绳肌肌腱/腱膜力学特性的运动干预是否对预防和康复损伤有益。

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在最大等长收缩中，股二头肌长头拮抗肌的肌构筑和腱膜/肌腱应变。

Antagonist muscle architecture and aponeurosis/tendon strain of biceps femoris long head during maximal isometric efforts.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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