Vestibular Reflexes
King, William Michael   
University of Michigan Ann Arbor, Ann Arbor, MI, United States

This proposal will establish a new research direction and develop novel techniques for my laboratory while promoting a new collaboration between my lab and that of my co- investigator, Dr. Yehoash Raphael. We plan to develop a guinea pig model of vestibular function for two sets of planned studies in the future: first, a study of hair cell regeneration and the physiology that underlies recovery of function in the vestibular system, and second, a study of central vestibular signals related to detection of linear acceleration, which occurs when head orientation with respect to gravity is changed or when the head is translated inertially in space. There are 5 specific aims, all performed in alert guinea pigs: (1) demonstrate and characterize head and eye orientation responses to gravity;(2) characterize the frequency responses of the vestibulo-collic (VCR) and vestibulo-ocular (VOR) reflexes about multiple axes;(3) characterize ocular responses to low and high frequency linear accceleration in the horizontal plane;(4) using methodology developed in Aims 1-3, quantitatively assess the time course and extent of recovery of dynamic and static vestibular reflexes after bilateeral chemical lesions of the vestibular periphery;and (5) determine the time course and extent of recovery, if any, of vestibular reflexes after bilateral surgical labyrinthectomies. Eye and head position in space will be measured using 3D dual search coils and vestibular stimulation will be provided using a servo- controlled turntable that generates angular motion about earth vertical or horizontal axes or a linear sled that accelerates in the horizontal plane. At the completion of lesion experiments, temporal bones will be dissected and analyzed to assess the extent of loss and spontaneous regeneration of sensory hair cells. Recovery of vestibular reflexes will be correlated with the extent of hair cell loss or possible regeneration over time. This project has significant potential to enhance health related research since no therapeutic procedure is currently available to replace vestibular loss despite its serious consequences for affected individuals. Although patients may recover substantially, the extent of recovery depends on age and overall health, and the physiological mechanisms that underlie it are not fully understood. The set of proposed studies will characterize the fundamental vestibular mechanisms involved in spatial orientation and gaze stability and will address the question of how these mechanisms are affected by both chemical and surgical modification of the vestibular end organs.Project Narrative: This project has significant potential to enhance health related research since no therapeutic procedure is currently available to replace vestibular loss despite its serious consequences for affected individuals. Even fully compensated patients may lose their balance and fall in darkness or if exposed to uneven surfaces. Falling behavior, at least partially related to vestibular loss, is also a significant cause of mortality in the elderly.