University of Groningen, UMCG, Groningen, Netherlands.
Neurorehabil Neural Repair. 2012 Jan;26(1):58-67. doi: 10.1177/1545968311417449. Epub 2011 Sep 8.
Motor unit firing frequencies are low during maximal voluntary contractions (MVCs) of human thenar muscles impaired by cervical spinal cord injury (SCI).
This study aimed to examine whether thenar motor unit firing frequencies increase when driven by both maximal voluntary drive and other concurrent inputs compared with an MVC alone.
Motor unit firing rates, force, and surface electromyographic activity (EMG) were compared across 2 contractions: (a) MVC alone and (b) MVC combined with another input (combination contraction). Other inputs (conditions) included vibration, heat, or cold applied to the anterior surface of the forearm, electrical stimulation delivered to the anterior surface of the middle finger, a muscle spasm, or a voluntary contraction of the contralateral thenar muscles against resistance.
The maximal firing frequency (n = 68 units), force, and electromyographic activity (n = 92 contraction pairs) were all significantly higher during the combined contractions compared with MVCs alone. There was a 3-way interaction between contraction, condition, and subject for maximal motor unit firing rates, force, and EMG. Thus, combined contraction responses were different for conditions across subjects. Some conditions (eg, a muscle spasm) resulted in more effective and more frequent responses (increases in unit firing frequency, force, EMG in >50% contractions) than others. Recruitment of new units also occurred in combined contractions.
Motoneurons are still responsive to additional afferent inputs from various sources when rate modulation from voluntary drive is limited by SCI. Individuals with SCI may be able to combine inputs to control functional tasks they cannot perform with voluntary drive alone.
患有颈髓损伤(SCI)的人,其鱼际肌肉在进行最大自主收缩(MVC)时,运动单位的放电频率较低。
本研究旨在检查与单独 MVC 相比,当运动单位同时受到最大自主驱动和其他同时输入的驱动时,其放电频率是否会增加。
在 2 种收缩情况下(a)单独 MVC 和(b)MVC 与另一种输入(组合收缩)相结合,比较运动单位放电率、力和表面肌电图(EMG)。其他输入(条件)包括在前臂前表面施加振动、热或冷、在前中指表面施加电刺激、肌肉痉挛或对侧鱼际肌肉对抗阻力进行自愿收缩。
最大放电频率(n=68 个单位)、力和肌电图(n=92 个收缩对)在组合收缩期间均显著高于单独 MVC。收缩、条件和受试者之间存在最大运动单位放电率、力和 EMG 的 3 -way 相互作用。因此,不同受试者的组合收缩反应因条件而异。一些条件(例如,肌肉痉挛)导致更有效和更频繁的反应(单位放电频率、力、EMG 增加>50%的收缩)比其他条件更多。在组合收缩中也会招募新的单位。
当 SCI 限制了自主驱动的调制时,运动神经元仍然对来自各种来源的额外传入输入有反应。SCI 患者可能能够结合输入来控制他们仅靠自主驱动无法完成的功能任务。
