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Issue title: 6th NASA Symposium on The Role of the Vestibular Organs in the Exploration of Space, Portland, OR, USA, September 30–October 3, 2002
Article type: Research Article
Authors: Lackner, James R. | DiZio, Paul A.
Affiliations: Ashton Graybiel Spatial Orientation Laboratory, and Center for Complex Systems, Brandeis University, Waltham MA 02454, USA. Tel.: +1 781 736 2033; Fax: +1 781 736 2031; E-mail: [email protected]
Abstract: A series of pioneering experiments on adaptation to rotating artificial gravity environments was conducted in the 1960s. The results of these experiments led to the general belief that humans with normal vestibular function would not be able to adapt to rotating environments with angular velocities above 3 or 4 rpm. By contrast, our recent work has shown that sensory-motor adaptation to 10~rpm can be achieved relatively easily and quickly if subjects make the same movement repeatedly. This repetition allows the nervous system to gauge how the Coriolis forces generated by movements in a rotating reference frame are deflecting movement paths and endpoints and to institute corrective adaptations. Independent mechanisms appear to underlie restoration of straight movement paths and of accurate movement endpoints. Control of head movements involves adaptation of vestibulo-collic and vestibulo-spinal mechanisms as well as adaptation to motor control of the head as an inertial mass. The vestibular adaptation has a long time constant and the motor adaptation a short one. Surprisingly, Coriolis forces generated by natural turning and reaching movements in our normal environment are typically larger than those elicited in rotating artificial gravity environments. They are not recognized as such because self-generated Coriolis forces during voluntary trunk rotation are perceptually transparent. After adaptation to a rotating environment is complete, the Coriolis forces generated by movements within it also become transparent and are not felt although they are still present.
Keywords: artificial gravity, Coriolis forces, adaptation, movement control, vestibular function
DOI: 10.3233/VES-2003-134-616
Journal: Journal of Vestibular Research, vol. 13, no. 4-6, pp. 321-330, 2003
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