在重力改变情况下目标手臂运动的准确性。

Accuracy of aimed arm movements in changed gravity.

作者信息

Bock O, Howard I P, Money K E, Arnold K E

机构信息

Institute for Space and Terrestrial Science, York University, North York, Ont., Canada.

出版信息

Aviat Space Environ Med. 1992 Nov;63(11):994-8.

PMID:1445164

Abstract

We studied the accuracy of aimed arm movements in normal gravity, and during the hypergravity (hyper-G) and microgravity (micro-G) episodes of KC-135 parabolic flights. Subjects pointed at mirror-viewed targets without sight of their arm, and final pointing position was measured by a digitizing pad. Compared with the normal gravity (normal-G) baseline, subjects pointed consistently higher in hyper-G, and still higher in micro-G. Results were not different if subjects viewed targets only during normal-G and pointed at their memorized position under changed gravity (changed-G); this suggests that the "elevator illusion" played a minor role in our study. The observed impairments were attributed to degraded proprioceptive feedback and/or inappropriate motor programs in changed-G. Pointing accuracy improved movement-to-movement but not parabola-to-parabola, indicating that prolonged exposure is needed for sustained adaptation.

摘要

我们研究了在正常重力环境下，以及在KC - 135抛物线飞行的超重（hyper - G）和微重力（micro - G）阶段，目标手臂运动的准确性。受试者在看不到自己手臂的情况下指向镜子中看到的目标，最终指向位置由数字化仪测量。与正常重力（normal - G）基线相比，受试者在超重环境下指向的位置始终更高，在微重力环境下更高。如果受试者仅在正常重力环境下观察目标，并在重力改变（changed - G）的情况下指向他们记忆中的位置，结果并无差异；这表明“电梯错觉”在我们的研究中起的作用较小。观察到的损伤归因于重力改变时本体感觉反馈的退化和/或不适当的运动程序。指向准确性在每次运动中有所提高，但在抛物线飞行之间没有提高，这表明持续适应需要长时间暴露。

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在重力改变情况下目标手臂运动的准确性。

Accuracy of aimed arm movements in changed gravity.

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