Directional Abnormalities of Vestibular and Optokinetic Responses in Cerebellar Disease

A bstract : Directional abnormalities of vestibular and optokinetic responses in patients with cerebellar degeneration are reported. Three‐axis magnetic search‐coil recordings of the eye and head were performed in eight cerebellar patients. Among these patients, examples of directional cross‐coupling were found during (1) high‐frequency, high‐acceleration head thrusts; (2) constant‐velocity chair rotations with the head fixed; (3) constant‐velocity optokinetic stimulation; and (4) following repetitive head shaking. Cross‐coupling during horizontal head thrusts consisted of an inappropriate upward eye‐velocity component. In some patients, sustained constant‐velocity yaw‐axis chair rotations produced a mixed horizontal‐torsional nystagmus and/or an increase in the baseline vertical slow‐phase velocity. Following horizontal head shaking, some patients showed an increase in the slow‐phase velocity of their downbeat nystagmus. These various forms of cross‐coupling did not necessarily occur to the same degree in a given patient; this suggests that different mechanisms may be responsible. It is suggested that cross‐coupling during head thrusts may reflect a loss of calibration of brainstem connections involved in the direct vestibular pathways, perhaps due to dysfunction of the flocculus. Cross‐coupling during constant‐velocity rotations and following head shaking may result from a misorientation of the angular eye‐velocity vector in the velocity‐storage system. Finally, responses to horizontal optokinetic stimulation included an inappropriate torsional component in some patients. This suggests that the underlying organization of horizontal optokinetic tracking is in labyrinthine coordinates. The findings are also consistent with prior animal‐lesion studies that have shown a role for the vestibulocerebellum in the control of the direction of the VOR.