What does galvanic vestibular stimulation stimulate?

The technique of galvanic vestibular stimulation (GVS) has been used for a long time. The stimulus produces stereotyped automatic postural and ocular responses. The mechanisms underlying these responses are not understood although they are commonly attributed to altered otolith output. Based on animal studies, it seems reasonable to assume that vestibular afferents from the otoliths and semicircular canals are affected similarly by GVS. With this assumption, and anatomical knowledge of the vestibular apparatus, a model is developed to describe the expected responses of vestibular afferents to percutaneous GVS and the physiological implications of this altered sensory signal. Bilateral bipolar GVS, the most commonly used technique, should produce a canal signal consistent with a strong ear-down roll towards the cathodal side, a smaller nose-to-cathode yaw, but no pitch signal. Bilateral bipolar GVS should also produce an otolith signal consistent with tilt towards the cathodal side or a translational acceleration towards the anodal side. The expected responses for other configurations of GVS are also described. The model appears consistent with published data on the ocular and postural responses to GVS, and suggests other testable hypotheses concerning postural, ocular and perceptual responses to GVS.

[1]  M. Gresty,et al.  Ocular tilt reaction with peripheral vestibular lesion , 1979, Annals of neurology.

[2]  L. Nashner,et al.  Influence of head position and proprioceptive cues on short latency postural reflexes evoked by galvanic stimulation of the human labyrinth. , 1974, Brain research.

[3]  Brian Pickard,et al.  The Vestibular System and Its Diseases , 1967 .

[4]  Barany's History of Vestibular Physiology Translation and Commentary , 1984, The Annals of otology, rhinology & laryngology. Supplement.

[5]  A M Bronstein,et al.  Neurology of otolith function. Peripheral and central disorders. , 1992, Brain : a journal of neurology.

[6]  Thomas Brandt,et al.  Galvanic vestibular stimulation in humans: effects on otolith function in roll , 1997, Neuroscience Letters.

[7]  M. Pera,et al.  The Ambiguous Frog: The Galvani-Volta Controversy on Animal Electricity , 1991 .

[8]  A K Moschovakis,et al.  Inputs from regularly and irregularly discharging vestibular nerve afferents to secondary neurons in the vestibular nuclei of the squirrel monkey. II. Correlation with output pathways of secondary neurons. , 1987, Journal of neurophysiology.

[9]  Hamish G. MacDougall,et al.  Maintained ocular torsion produced by bilateral and unilateral galvanic (DC) vestibular stimulation in humans , 1998, Experimental Brain Research.

[10]  A H Clarke,et al.  Variable otolith contribution to the galvanically induced vestibulo-ocular reflex. , 1999, Neuroreport.

[11]  Robert Joseph Wolfson,et al.  Ultrastructure of the Vestibular Sense Organ , 1966 .

[12]  J. Goldberg,et al.  The vestibular nerve of the chinchilla. IV. Discharge properties of utricular afferents. , 1990, Journal of neurophysiology.

[13]  I. Curthoys,et al.  The human ocular torsion position response during yaw angular acceleration , 1995, Vision Research.

[14]  E. Peterson,et al.  Are There Parallel Channels in the Vestibular Nerve? , 1998, News in physiological sciences : an international journal of physiology produced jointly by the International Union of Physiological Sciences and the American Physiological Society.

[15]  R. Fitzpatrick,et al.  Task‐dependent reflex responses and movement illusions evoked by galvanic vestibular stimulation in standing humans. , 1994, The Journal of physiology.

[16]  R. S. Creed,et al.  The physiology of the vestibular apparatus , 1930 .

[17]  Maurice Ouaknine,et al.  Orientation of the body response to galvanic stimulation as a function of the inter-vestibular imbalance , 2000, Experimental Brain Research.

[18]  M Dieterich,et al.  Effects of galvanic vestibular stimulation on otolithic and semicircular canal eye movements and perceived vertical. , 1998, Electroencephalography and Clinical Neurophysiology.

[19]  J. Goldberg,et al.  The vestibular nerve of the chinchilla. II. Relation between afferent response properties and peripheral innervation patterns in the semicircular canals. , 1988, Journal of neurophysiology.

[20]  B. Day,et al.  Human body‐segment tilts induced by galvanic stimulation: a vestibularly driven balance protection mechanism. , 1997, The Journal of physiology.

[21]  J. C. Rothwell,et al.  Postural electromyographic responses in the arm and leg following galvanic vestibular stimulation in man , 2004, Experimental Brain Research.

[22]  A. Coats,et al.  Effect of Varying Stimulus Parameters on the Galvanic Body-Sway Response , 1973, The Annals of otology, rhinology, and laryngology.

[23]  S. Lund,et al.  Effects of different head positions on postural sway in man induced by a reproducible vestibular error signal. , 1983, Acta physiologica Scandinavica.

[24]  F B Horak,et al.  Effect of galvanic vestibular stimulation on human postural responses during support surface translations. , 1995, Journal of neurophysiology.

[25]  T. Sekitani,et al.  Test for Galvanic Vestibular Response : Survey through our Experimental and Clinical Investigations for Last 20 Years , 1975 .

[26]  J. Goldberg,et al.  Relation between discharge regularity and responses to externally applied galvanic currents in vestibular nerve afferents of the squirrel monkey. , 1984, Journal of neurophysiology.

[27]  Torsional eye movements induced by galvanic vestibular stimulation in man , 1998 .