抄録
On Earth, signals from otolith organs can be interpreted either as linear motion or as tilt with respect to gravity. In microgravity, static tilt will no longer give rise to changes in otolith activity. However, linear acceleration as well as angular acceleration stimulates the otolith organ. Therefore, during adaptation to microgravity, otolith-mediated response such as eye movements would alter. Flatfish provide a natural model for the study of adaptive changes in the vestibulo-ocular reflex. During metamorphosis, vestibular and oculomotor coordinate of flatfish displaced 90 degrees about the longitudinal body axis. Therefore, it is expected that microgravity induce the sensory mismatch in adult flatfish. In this study, we analyzed the eye movements of flatfish for body tilting. The eye movements for body tilting along the different body axis were video-recorded. The vertical and torsional eye rotations were analyzed frame by frame. In normal flatfish, tilting the fish body to the left produced an upward rotation in the left eye and a downward rotation in the right eye. For head up or head down tilting, both eyes rotated downward or upward respectively. Furthermore, the properties of torsional eye movements for body tilt were almost the same as that in goldfish. These results suggested that flatfish perfectly adapted gravity environment and sacculus and/or lagena were important for otolith-ocular reflex. [J Physiol Sci. 2007;57 Suppl:S192]
