Bleuse Séverine, Cassim François, Blatt Jean-Louis, Defebvre Luc, Guieu Jean-Daniel
Service de neurophysiologie clinique, hôpital Roger-Salengro, CHU Lille, 59037 Lille, France.
Neurophysiol Clin. 2002 Dec;32(6):352-60. doi: 10.1016/s0987-7053(02)00335-0.
To find a biomechanical parameter able to characterize postural adjustments in different movement conditions.
The arm-raising movement performed during the upright human position imposes a vertical torque (Tz) that can be measured by a force plate-form. This torque was studied in ten healthy young subjects with opto electronic system Vicon 370. The subjects stood on a force platform, performed shoulder flexion of their right arm, to grasp a handle in front of them, in five conditions : self-paced at 3 different velocities (slow, medium, maximal), triggered by an auditory signal, loaded (1 kg attached to the wrist), all at maximal velocity. In a sixth condition, the arm was passively displaced by an experimenter.
Tz displayed a negative phase (counter-clock wise body rotation) in all conditions. A positive phase occurred prior to the negative one, and preceded movement onset only if the movement was voluntary. In the triggered condition, the positive phase of Tz was delayed (- 60 ms) compared to the self-paced condition at maximal velocity (- 155 ms). However Tz onset latency was modified neither by load nor velocity. Tz amplitude increased with increasing velocity, load and in a reaction time condition.
The vertical torque Tz, especially its positive phase gives useful informations about the latency, duration and intensity of the postural preparation related to a voluntary movement, according to the movement parameters. Tz is therefore able to characterise postural adjustments in all conditions, even with low movement velocity.
寻找一种能够表征不同运动条件下姿势调整的生物力学参数。
人体直立位时进行的举臂动作会产生一个垂直扭矩(Tz),可通过测力平台进行测量。使用光电系统Vicon 370对10名健康年轻受试者的该扭矩进行了研究。受试者站在测力平台上,在五种条件下进行右臂的肩部前屈以抓住前方的手柄:三种不同速度(慢、中、最大)的自定节奏,由听觉信号触发,负重(手腕上系1千克重物),均为最大速度。在第六种条件下,手臂由实验者被动移动。
在所有条件下,Tz均呈现一个负相(身体逆时针旋转)。在负相之前有一个正相,且只有在运动为自主运动时,正相才先于运动开始。在触发条件下,与最大速度的自定节奏条件相比,Tz的正相延迟了(-60毫秒)(自定节奏条件下为-155毫秒)。然而,Tz的起始潜伏期不受负重和速度的影响。Tz的幅度随速度、负重增加以及在反应时间条件下而增大。
垂直扭矩Tz,尤其是其正相,根据运动参数,可提供与自主运动相关的姿势准备的潜伏期、持续时间和强度的有用信息。因此,Tz能够表征所有条件下的姿势调整,即使在低运动速度时也是如此。
