Role of the Cerebellar Flocculus Region in the Coordination of Eye and Head Movements During Gaze Pursuit

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Role of the Cerebellar Flocculus Region in the Coordination of Eye and Head Movements During Gaze Pursuit

Timothy Belton and Robert A. McCrea

Department of Neurobiology, Pharmacology and Physiology, University of Chicago, Chicago, Illinois 60637

Belton, Timothy and Robert A. McCrea. Role of the Cerebellar Flocculus Region in the Coordination of Eye and Head Movements During Gaze Pursuit. J. Neurophysiol. 84: 1614-1626, 2000. The contribution of the flocculus region of the cerebellum to horizontal gaze pursuit was studied in squirrel monkeys. Whenthe head was free to move, the monkeys pursued targets with acombination of smooth eye and head movements; with the majorityof the gaze velocity produced by smooth tracking head movements.In the accompanying study we reported that the flocculus regionwas necessary for cancellation of the vestibuloocular reflex (VOR)evoked by passive whole body rotation. The question addressedin this study was whether the flocculus region of the cerebellumalso plays a role in canceling the VOR produced by active headmovements during gaze pursuit. The firing behavior of 121 Purkinje(Pk) cells that were sensitive to horizontal smooth pursuit eyemovements was studied. The sample included 66 eye velocity Pkcells and 55 gaze velocity Pk cells. All of the cells remainedsensitive to smooth pursuit eye movements during combined eyeand head tracking. Eye velocity Pk cells were insensitive to smoothpursuit head movements. Gaze velocity Pk cells were nearly assensitive to active smooth pursuit head movements as they werepassive whole body rotation; but they were less than half as sensitive( $approx$ 43%) to smooth pursuit head movements as they were to smoothpursuit eye movements. Considered as a whole, the Pk cells inthe flocculus region of the cerebellar cortex were <20% as sensitiveto smooth pursuit head movements as they were to smooth pursuiteye movements, which suggests that this region does not producesignals sufficient to cancel the VOR during smooth head tracking.The comparative effect of injections of muscimol into the flocculusregion on smooth pursuit eye and head movements was studied intwo monkeys. Muscimol inactivation of the flocculus region profoundlyaffected smooth pursuit eye movements but had little effect onsmooth pursuit head movements or on smooth tracking of visualtargets when the head was free to move. We conclude that the signalsproduced by flocculus region Pk cells are neither necessary norsufficient to cancel the VOR during gazepursuit.

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