[牵引运动和重力:中央或外围调节?]。

C Papaxanthis, T Pozzo, J Van Hoecke, A Vinter, X Skoura
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引用次数: 0

摘要

8名受试者分别以正常和快速两种不同的速度,画出a)向上垂直(0度)、b)向上倾斜(45度)、c)向下垂直(180度)和d)向下倾斜(135度)四个不同方向的手臂动作。使用光电(2电视,100赫兹)系统记录手臂的运动,该系统允许计算机重建关节运动。分析主要集中在笔头平面的运动学上。速度分布在所有条件下都是单峰的。加速时间与总运动时间之比随着运动方向和速度的变化而发生显著变化。运动时间和不受运动方向的影响,因此重力力矩的变化,对于两种速度的测试。本研究结果提供了中枢神经系统利用重力执行运动的间接证据。
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[Drawing movements and gravitational force: central or peripheral regulation?].

Drawing arm movements in four different directions: a) upward vertical (0 degree), b) upward oblique (45 degrees), c) downward vertical (180 degrees) and d) downward oblique (135 degrees), and at two different speeds, normal and fast, were executed by eight subjects. Movements of the arm were recorded using an optoelectronic (2 TV, 100 Hz) system which allowed the computer reconstruction of joint motion. Analyses focused upon pen kinematics in the frontal plane. Velocity profiles were unimodal for all conditions. The ratio of acceleration time to total movement time changed significantly as a function of the direction and the speed of the movement. Movement time and was not affected by movement direction and consequently changes in gravitational torques, for both speeds tested. Results from this study provide indirect evidence that the CNS executes movements by taking advantage of gravitational force.

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