腘绳肌的肌电图活动、肌肉长度与扭矩之间的关系。

Relationship between wire EMG activity, muscle length, and torque of the hamstrings.

作者信息

Mohamed Olfat, Perry Jacquelin, Hislop Helen

机构信息

Department of Physical Therapy, California State University, 1250 Bellflower Boulevard, Long Beach, CA 90840-5603, USA.

出版信息

Clin Biomech (Bristol). 2002 Oct;17(8):569-79. doi: 10.1016/s0268-0033(02)00070-0.

DOI:10.1016/s0268-0033(02)00070-0

PMID:12243716

Abstract

OBJECTIVE

To determine the effect of change of muscle length on the torque and wire electromyographic activity of six knee flexor muscles.

DESIGN

Maximum isometric knee flexion torque and wire EMG data were collected at nine different positions.

BACKGROUND

In vivo EMG-length-tension relationship is difficult to determine because of the interaction between muscle length and moment arm. The study of two-joint muscles allows the change of muscle length at one joint while preserving stable mechanical relationships at the other. This model facilitates understanding of length-tension and EMG-length relationship in vivo.

METHODS

Nineteen subjects performed maximum isometric knee flexion contraction at nine positions of varying hip and knee angles. Wire EMG activity was recorded from semitendionsus, semimembranosus, long and short head of the biceps femoris, gracilis and sartorious muscles.

RESULTS

As the two-joint hamstrings were lengthened, torque was significantly increased. Maximum isometric torque ranged from 257 to 716 kg cm. The ratio of the torque values to EMG activity of all muscles was increased at longer muscle lengths. A change in the muscle length of the two-joint hamstrings did not produce a consistent change of EMG activity. The short head of the biceps femoris and sartorius muscles increased their activity as the angle of knee flexion increased.

CONCLUSIONS

Maximum torque of knee flexion occurs at the most lengthened position of the hamstrings. EMG activity did not consistently change with the change in muscle length.

RELEVANCE

Understanding in vivo length-tension relationship and associated EMG activity is important for designing rehabilitation protocols, tendon lengthening and transfer and interpretation of EMG data.

摘要

目的

确定肌肉长度变化对六条膝屈肌的扭矩和钢丝肌电图活动的影响。

设计

在九个不同位置收集最大等长屈膝扭矩和钢丝肌电图数据。

背景

由于肌肉长度和力臂之间的相互作用，体内肌电图-长度-张力关系难以确定。对双关节肌肉的研究允许一个关节处的肌肉长度发生变化，同时保持另一个关节处稳定的力学关系。该模型有助于理解体内的长度-张力和肌电图-长度关系。

方法

19名受试者在髋部和膝部角度不同的九个位置进行最大等长屈膝收缩。记录半腱肌、半膜肌、股二头肌长头和短头、股薄肌和缝匠肌的钢丝肌电图活动。

结果

随着双关节绳肌的延长，扭矩显著增加。最大等长扭矩范围为257至716千克厘米。在较长肌肉长度时，所有肌肉的扭矩值与肌电图活动的比值增加。双关节绳肌的肌肉长度变化并未产生肌电图活动的一致变化。随着屈膝角度增加，股二头肌短头和缝匠肌的活动增加。

结论

屈膝的最大扭矩出现在绳肌最长的位置。肌电图活动并未随肌肉长度的变化而一致改变。

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腘绳肌的肌电图活动、肌肉长度与扭矩之间的关系。

Relationship between wire EMG activity, muscle length, and torque of the hamstrings.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

RELEVANCE

目的

设计

背景

方法

结果

结论

相关性

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