Lam Tania, Wolstenholme Claire, van der Linden Marleen, Pang Marco Y C, Yang Jaynie F
Department of Physical Therapy, University of Alberta, Edmonton, Canada.
J Physiol. 2003 Nov 15;553(Pt 1):319-31. doi: 10.1113/jphysiol.2003.043984. Epub 2003 Sep 8.
This study examined stumbling corrective (tripping) responses to mechanical disturbances applied to the foot during stepping in healthy human infants, in whom independent walking had not yet developed. During treadmill-elicited stepping, a foam-padded baton instrumented with a force transducer was used to deliver light touches to either the dorsum or the side of the foot at various times of the step cycle. Disturbances to the dorsum of the foot during the swing phase resulted in a general enhancement of flexor activity, including a significant facilitation in the tibialis anterior muscle and an increase in knee flexion during swing. There was also an increase in step cycle duration. Stance phase disturbances resulted in a significant inhibitory effect in the quadriceps muscle and after early stance disturbances, a significant prolongation of the stance phase duration. Disturbances applied to the side of the foot during the swing phase of forward stepping did not result in any effect on the kinematic pattern. If the infant was stepping sideways, however, disturbances to the side of the foot resulted in an increase in flexion during the swing phase. The results show that infants have a phase-dependent reflex response to light touches applied to the foot. Furthermore, the reflex response is location specific and task specific. Thus, much of the sophistication necessary for controlling sensory inputs in walking is present well before the onset of independent walking.
本研究考察了在尚未开始独立行走的健康人类婴儿行走过程中,对施加于足部的机械干扰的绊倒纠正(绊倒)反应。在跑步机诱发的行走过程中,使用一根装有力传感器的泡沫填充警棍在步周期的不同时间对足背或足部侧面进行轻触。摆动期对足背的干扰导致屈肌活动普遍增强,包括胫骨前肌的显著易化以及摆动期膝关节屈曲增加。步周期持续时间也增加。支撑期干扰导致股四头肌出现显著抑制作用,早期支撑期干扰后,支撑期持续时间显著延长。向前行走摆动期对足部侧面施加的干扰对运动模式没有任何影响。然而,如果婴儿向侧面行走,对足部侧面的干扰会导致摆动期屈曲增加。结果表明,婴儿对施加于足部的轻触有相位依赖性反射反应。此外,反射反应是位置特异性和任务特异性的。因此,在独立行走开始之前,就已经具备了控制行走中感觉输入所需的许多复杂性。