在前臂进行正弦运动时,人体肘关节所产生的力。
The forces generated at the human elbow joint in response to imposed sinusoidal movements of the forearm.
作者信息
Joyce G C, Rack P M, Ross H F
出版信息
J Physiol. 1974 Jul;240(2):351-74. doi: 10.1113/jphysiol.1974.sp010614.
Abstract
- The mechanical resistance of the human forearm has been measured during imposed sinusoidal flexion-extension movements of the elbow joint.2. The force required to move the limb can be divided into components required to move the mass, and components required to overcome the resistance offered by elastic and frictional properties of the muscles and other soft tissues.3. When during a vigorous flexing effort the limb was subjected to a small amplitude sinusoidal movement each extension was followed by a considerable reflex contraction of the flexor muscles. At low frequencies of movement this reflex provided an added resistance to extension, but at 8-12 Hz the delay in the reflex pathway was such that the reflex response to extension occurred after the extension phase of the movement was over and during the subsequent flexion movement. The reflex activity then assisted the movement whereas at other frequencies it impeded it.4. The reflex response to movement increased as the subject exerted a greater flexing force.5. Small movements generated a relatively larger reflex response than big ones.6. Even with large amplitudes of movement when the reflex activity was relatively small, the limb resisted extension with a high level of stiffness; this was comparable with the short range stiffness of muscles in experimental animals.7. The fact that at some frequencies the reflex response assisted the movement implies that with appropriate loading the limb could undergo a self-sustaining oscillation at those frequencies.
摘要
在肘关节进行正弦波屈伸运动时,对人体前臂的机械阻力进行了测量。
移动肢体所需的力可分为移动质量所需的分量,以及克服肌肉和其他软组织的弹性和摩擦特性所提供阻力所需的分量。
在剧烈的屈曲动作中,当肢体受到小幅度的正弦波运动时,每次伸展后屈肌都会出现相当程度的反射性收缩。在低运动频率下,这种反射为伸展增加了阻力,但在8 - 12赫兹时,反射通路的延迟使得对伸展的反射反应在运动的伸展阶段结束后且在随后的屈曲运动期间才出现。此时反射活动有助于运动,而在其他频率下则会阻碍运动。
随着受试者施加更大的屈曲力,对运动的反射反应增强。
小幅度运动产生的反射反应相对比大幅度运动更大。
即使在运动幅度较大且反射活动相对较小时,肢体在伸展时仍具有较高的刚度抵抗;这与实验动物肌肉的短程刚度相当。
在某些频率下反射反应有助于运动这一事实意味着,在适当的负荷下,肢体在这些频率下可能会发生自持振荡。
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