Marchand-Pauvert V, Nielsen J B
Division of Neurophysiology, Department of Medical Physiology, the Panum Institute, University of Copenhagen, Blegdamsvej 3, 2200 Copenhagen N, Denmark.
J Physiol. 2002 Jan 15;538(Pt 2):647-57. doi: 10.1113/jphysiol.2001.012675.
Modulation of non-monosynaptic excitation from ankle dorsiflexors to quadriceps (Q) motoneurones during human treadmill walking was investigated in 25 healthy human subjects. Stimulation of the common peroneal nerve (CPN) evoked a biphasic facilitation in the rectified and averaged (n = 50) Q electromyographic (EMG) activity between 0 and 100 ms after heel strike. Prior to heel strike, the stimulation had no effect on the Q EMG. The latency of both peaks in the response was too long to be explained by a monosynaptic pathway to Q motoneurones. During voluntary tonic co-contraction of Q and tibialis anterior (TA) while standing, only the first of the two peaks was evoked by the CPN stimulation despite a background EMG activity level in the Q and TA muscles corresponding to that observed 30-60 ms after heel strike during walking. Stimulation of cutaneous nerves did not evoke a similar biphasic facilitation in the Q motoneurones, which suggests that muscular afferents mediate the response. The second peak had a higher threshold than the earlier peak. During cooling of the CPN, the latency of the second peak was more prolonged than the latency of the earlier peak. This suggests that afferents of different diameters contributed to the two peaks. It is proposed that afferents from TA assist the contraction of Q during walking via spinal interneurones to stabilize the knee joint and maintain upright posture during walking.
在25名健康人体受试者中,研究了人类在跑步机上行走时,从踝背屈肌到股四头肌(Q)运动神经元的非单突触兴奋的调制情况。刺激腓总神经(CPN)在足跟撞击后0至100毫秒内,在整流平均(n = 50)的Q肌电图(EMG)活动中诱发双相促进作用。在足跟撞击之前,刺激对Q肌电图没有影响。反应中两个峰值的潜伏期太长,无法用通向Q运动神经元的单突触通路来解释。在站立时Q和胫前肌(TA)进行自愿性强直共同收缩期间,尽管Q和TA肌肉中的背景肌电图活动水平与行走时足跟撞击后30 - 60毫秒时观察到的水平相对应,但CPN刺激仅诱发了两个峰值中的第一个。刺激皮神经在Q运动神经元中未诱发类似的双相促进作用,这表明肌肉传入神经介导了该反应。第二个峰值的阈值高于较早的峰值。在CPN冷却期间,第二个峰值的潜伏期比较早峰值的潜伏期延长得更多。这表明不同直径的传入神经对两个峰值有贡献。有人提出,在行走过程中,来自TA的传入神经通过脊髓中间神经元协助Q的收缩,以稳定膝关节并在行走过程中保持直立姿势。