Locomotion in adult cats with early vestibular deprivation: visual cue substitution.

Four cats labyrinthectomized shortly after birth ( DELAB ) exhibited the classical vestibular syndrome and recovery, while their motor development was otherwise unimpaired. As adults, they were tested for visual vestibular substitution in a locomotor task with either orientation requirements (tilted platforms) or balance requirements (narrow platforms). Visual motion cues or static visual cues were controlled using normal or stroboscopic lighting, or darkness. Measurements of the average speed of locomotion showed that: - Although all cats increase their speed when more visual cues become available, a marked deficit occurs in darkness only in the DELAB cats. - With either vestibular cues alone or static visual cues alone, cats are able to reach the same level of performance in the tilted platform test, which suggests a total visual-vestibular interchangeability in orientation. - DELAB cats perform very poorly in the narrow rail test. - When continuous vision is allowed in the narrow rail test the DELABs ' performance rises but does not match that of the control group. - A specific deficit in balance for the DELAB group is thus reduced by normal continuous vision as compared to stroboscopic vision, suggesting a significant, though imperfect, substitution of motion visual cues for the missing dynamic vestibular cues. - Dynamic visual cues play only a minor role in most situations, when locomotory speed is high. This results support the view that both the vestibular and the visual system can subserve two distinct functions: - dynamic information may stabilize the stance in narrow unstable situations, during slow locomotion, - and static orientation cues may mainly control the direction for displacement. Possible interactions between head positioning and body orientation in the DELAB cats are discussed.