Visual-manual tracking and vestibular function during a seven-day dry immersion

A seven-day dry immersion experiment provided the opportunity to study the effects of decreased proprioceptive tactile and support afferentations on the vestibular function and visual-manual tracking. Before and after immersion, six subjects participated in a video oculographic evaluation of the static torsion otolith-cervicoocular reflex (OCOR) in response to head tilt by 30° in the frontal plane and dynamic vestibular-cervicoocular reactions to head longitudinal rotations at 0.125 Hz. In addition, the hand-eye motor coordination of tracking a jerky (sinusoidal) or smooth (linear) movement of point targets along the horizontal or vertical lines was evaluated on the basis of the data of electrooculography and records of manipulations with the joystick during immersion. A computerized test was performed in virtual glasses displaying images of visual stimuli and hand motor acts. The computed parameters included the reaction’s latent time, amplitude, speed and time of eye and hand movements, and gains of optooculomotor reactions and manual tracking as a ratio of eye/hand to visual stimulus speed. Testing was carried out before the experiment, after 3 h of immersion, on days 3 and 6 of staying in the bath, in the initial hours after immersion and on the third day of recovery. It was shown that removal of support and minimization of proprioceptive afferentation had a profound effect on the ocular tracking rather than pursuing the visual stimulus by hand. The accuracy of manual tracking was better in comparison with the eye tracking in all subjects. This was the first observation of changes in the peripheral vestibular system in two out of six subjects, i.e., inversion of the static torsion OCOP and positional nystagmus against a background of converted reflex, which did not change the parameters of the visual-manual tracking.