Posture, locomotion, spatial orientation, and motion sickness as a function of space flight
| Autor: | Charles S. Layne, Deborah L. Harm, Jacob J. Bloomberg, Vernon McDonald, Millard F. Reschke, William H. Paloski |
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| Rok vydání: | 1998 |
| Předmět: |
medicine.medical_specialty
Computer science media_common.quotation_subject Posture Crew Illusory motion Perception Orientation medicine Humans Motion perception media_common Communication business.industry General Neuroscience Eye movement Space Flight medicine.disease Motion control Motion sickness Space Perception Neurology (clinical) Aviation medicine Space Motion Sickness business Locomotion Cognitive psychology |
| Zdroj: | Brain research. Brain research reviews. 28(1-2) |
| Popis: | This article summarizes a variety of newly published findings obtained by the Neuroscience Laboratory, Johnson Space Center, and attempts to place this work within a historical framework of previous results on posture, locomotion, motion sickness, and perceptual responses that have been observed in conjunction with space flight. In this context, we have taken the view that correct transduction and integration of signals from all sensory systems is essential to maintaining stable vision, postural and locomotor control, and eye-hand coordination as components of spatial orientation. The plasticity of the human central nervous system allows individuals to adapt to altered stimulus conditions encountered in a microgravity environment. However, until some level of adaptation is achieved, astronauts and cosmonauts often experience space motion sickness, disturbances in motion control and eye-hand coordination, unstable vision, and illusory motion of the self, the visual scene, or both. Many of the same types of disturbances encountered in space flight reappear immediately after crew members return to earth. The magnitude of these neurosensory, sensory-motor and perceptual disturbances, and the time needed to recover from them, tend to vary as a function of mission duration and the space travelers prior experience with the stimulus rearrangement of space flight. To adequately chart the development of neurosensory changes associated with space flight, we recommend development of enhanced eye movement systems and body position measurement. We also advocate the use of a human small radius centrifuge as both a research tool and as a means of providing on-orbit countermeasures that will lessen the impact of living for long periods of time with out exposure to altering gravito-inertial forces. Copyright 1998 Elsevier Science B.V. |
| Databáze: | OpenAIRE |
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