Winter D A, Wells R P, Orr G W
Eur J Appl Physiol Occup Physiol. 1981;46(4):397-408. doi: 10.1007/BF00422127.
The use of constant velocity dynamometers in functional testing and in exercise and therapy programs has been increasing in the past few years. For movements in the horizontal plane there are no gravitational errors. However, in vertical movements the limbs are not only working against the dynamometer but also are either aided or opposed by gravity. Far too often these gravitational forces have not been taken into account, and the error involved can be quite large. 1. A study on four subjects using knee extension (against gravity) and flexion (with gravity) showed the error in mechanical work to vary from 26-43% in extension and from 55-510% in flexion. 2. A relatively simple solution is offered to overcome the problem by compensating for the gravitational errors over the full range of movement. The time course of the error is such as to cause erroneous magnitudes of recorded moments which are a maximum at low level contractions and minimum at high level contractions. 3. The effect of gravitational and other acceleration errors are such as to cause false early peaks in the muscle moment curves resulting in erroneous conclusions about muscle function.
在过去几年中,等速测力计在功能测试以及运动和治疗项目中的应用一直在增加。对于水平面内的运动,不存在重力误差。然而,在垂直运动中,肢体不仅要对抗测力计,而且还要受到重力的助力或阻力。这些重力往往没有被考虑在内,所涉及的误差可能相当大。1. 一项针对四名受试者进行的研究,让他们进行伸膝(对抗重力)和屈膝(借助重力)运动,结果显示,伸膝时机械功的误差在26%至43%之间,屈膝时在55%至510%之间。2. 提供了一种相对简单的解决方案来克服这个问题,即在整个运动范围内补偿重力误差。误差的时间进程会导致记录力矩的大小出现错误,在低水平收缩时最大,在高水平收缩时最小。3. 重力和其他加速度误差的影响会导致肌肉力矩曲线出现错误的早期峰值,从而得出关于肌肉功能的错误结论。
