HORIZONTAL ANGULAR VOR CHANGES IN ORBITAL AND PARABOLIC FLIGHT - HUMAN NEUROVESTIBULAR STUDIES ON SLS-2

Further evidence was found for adaptive changes in the vestibular ''ve locity storage'' (VS) component of the vestibuloocular reflex in four shuttle astronauts tested in parabolic flight and before, during, and after a 14-day mission. Nystagmus was recorded during and after 1 min of 120 degrees/s rotation. Gains and time constants were determined by computer analysis. Responses correlated with experience. Two subjects were making their first spaceflight. In parabolic flight, their time constants shortened to an average of 60% of 1 G values, presumably bec ause unfamiliar otolith cues reduced VS. However, after 4-10 days in o rbit, their time constants were similar or greater than those prefligh t, indicating VS recovery. The other two subjects had previously flown in space. Their time constants shortened in orbit to an average of 69 % of 1 G values, indicating a persisting reduction of VS. This correla tion with spaceflight experience has been seen in 9 of 11 subjects on 3 missions. Head pitch did not significantly ''dump'' nystagmus as it does on Earth.