Abstract

The review presents data on functional disorders in mammals caused by changes in the vestibular system after space flight. These data show that the mammalian vestibular system responds to weightlessness dissimilarly at different ontogenetic stages. During the embryonic period, orbital space flight conditions have a little effect on the developing vestibular system and even promote normal fetal development. During the early postnatal period, when optimal sensorymotor tactics arise, long-term exposure to space flight conditions leads to the development of novel, “extraterrestrial”, sensory-motor programs that may fixate in CNS for life. In adult individuals, substantial vestibular changes and disorders may occur immediately after landing depending on the weightlessness duration. An adult organism has to solve two concurrent and mutually conflicting problems: to adapt to weightlessness and not to adapt to it in order to facilitate readaptation after return. Thus, individuals have to counteract weightlessness to retain a maximum of their pre-flight health status. The means of such a counteraction have to be adjusted according to the weightlessness duration. It is noteworthy, however, that not all functional changes occurring in adult individuals under weightlessness can be adequately accounted for. Some of them can assume a chronic or even pathological character. The review raises for the first time the question of necessity to include into the scope of studies the effect of weightlessness on a senile (senescent) organism and its vestibular system. We believe that development of space gerontology as a special branch of space biology and medicine is undoubtedly of interest and may become practically important in the future in view of the ever-growing age of space explorers.

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