Human Vestibuloocular Reflex and Its Interactions With Vision and Fixation Distance During Linear and Angular Head Movement

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Human Vestibuloocular Reflex and Its Interactions With Vision and Fixation Distance During Linear and Angular Head Movement

Gary D. Paige¹, Laura Telford¹, Scott H. Seidman¹, and Graham R. Barnes²

¹ Department of Neurology and the Center for Visual Science, University of Rochester, Rochester, New York 14642; and ² Medical Research Council, Institute of Neurology, London, United Kingdom

Paige, Gary D., Laura Telford, Scott H. Seidman, and Graham R. Barnes. Human vestibuloocular reflex and its interactionswith vision and fixation distance during linear and angular headmovement. J. Neurophysiol. 80: 2391-2404, 1998. The vestibuloocularreflex (VOR) maintains visual image stability by generating eyemovements that compensate for both angular (AVOR) and linear (LVOR)head movements, typically in concert with visual following mechanisms.The VORs are generally modulated by the "context" in which headmovements are made. Three contextual influences on VOR performancewere studied during passive head translations and rotations overa range of frequencies (0.5-4 Hz) that emphasized shifting dynamicsin the VORs and visual following, primarily smooth pursuit. First,the dynamic characteristics of head movements themselves ("stimuluscontext") influence the VORs. Both the AVOR and LVOR operate withhigh-pass characteristics relative to a head velocity input, althoughthe cutoff frequency of the AVOR (<0.1 Hz) is far below that ofthe LVOR (~1 Hz), and both perform well at high frequencies thatexceed, but complement, the capabilities of smooth pursuit. Second,the LVOR and AVOR are modulated by fixation distance, implementedwith a signal related to binocular vergence angle ("fixation context").The effect was quantified by analyzing the response during eachtrial as a linear relationship between LVOR sensitivity (in deg/cm),or AVOR gain, and vergence (in m¹) to yield a slope (vergence influence) and an intercept (responseat 0 vergence). Fixation distance (vergence) was modulated bypresenting targets at different distances. The response sloperises with increasing frequency, but much more so for the LVORthan the AVOR, and reflects a positive relationship for all butthe lowest stimulus frequencies in the AVOR. A third influenceis the context of real and imagined targets on the VORs ("visualcontext"). This was studied in two ways $---$ when targets were eitherearth-fixed to allow visual enhancement of the VOR or head-fixedto permit visual suppression. The VORs were assessed by extinguishingtargets for brief periods while subjects continued to "fixate"them in darkness. The influences of real and imagined targetswere most robust at lower frequencies, declining as stimulus frequencyincreased. The effects were nearly gone at 4 Hz. These propertieswere equivalent for the LVOR and AVOR and imply that the influencesof real and imagined targets on the VORs generally follow low-passand pursuit-like dynamics. The influence of imagined targets accountsfor roughly one-third of the influence of real targets on theVORs at 0.5 Hz.

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				S. Ramat, D. Straumann, and D. S. Zee Interaural Translational VOR: Suppression, Enhancement, and Cognitive Control J Neurophysiol, October 1, 2005; 94(4): 2391 - 2402. [Abstract] [Full Text] [PDF]

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				G. R. Barnes and G. D. Paige Anticipatory VOR Suppression Induced by Visual and Nonvisual Stimuli in Humans J Neurophysiol, September 1, 2004; 92(3): 1501 - 1511. [Abstract] [Full Text] [PDF]

				A. M. Green and D. E. Angelaki An Integrative Neural Network for Detecting Inertial Motion and Head Orientation J Neurophysiol, August 1, 2004; 92(2): 905 - 925. [Abstract] [Full Text] [PDF]

				D. E. Angelaki Eyes on Target: What Neurons Must do for the Vestibuloocular Reflex During Linear Motion J Neurophysiol, July 1, 2004; 92(1): 20 - 35. [Abstract] [Full Text] [PDF]

				M. Wei, G. C. DeAngelis, and D. E. Angelaki Do Visual Cues Contribute to the Neural Estimate of Viewing Distance Used by the Oculomotor System? J. Neurosci., September 10, 2003; 23(23): 8340 - 8350. [Abstract] [Full Text] [PDF]

				W. P. Medendorp, D. B. Tweed, and J. D. Crawford Motion Parallax Is Computed in the Updating of Human Spatial Memory J. Neurosci., September 3, 2003; 23(22): 8135 - 8142. [Abstract] [Full Text] [PDF]

				S. Ramat and D. S. Zee Ocular Motor Responses to Abrupt Interaural Head Translation in Normal Humans J Neurophysiol, August 1, 2003; 90(2): 887 - 902. [Abstract] [Full Text] [PDF]

				S. T. Aw, M. J. Todd, L. A. McGarvie, A. A. Migliaccio, and G. M. Halmagyi Effects of Unilateral Vestibular Deafferentation on the Linear Vestibulo-Ocular Reflex Evoked by Impulsive Eccentric Roll Rotation J Neurophysiol, February 1, 2003; 89(2): 969 - 978. [Abstract] [Full Text] [PDF]

				W. P. Medendorp, J.A.M. Van Gisbergen, and C.C.A.M. Gielen Human Gaze Stabilization During Active Head Translations J Neurophysiol, January 1, 2002; 87(1): 295 - 304. [Abstract] [Full Text] [PDF]

				G. Wiest, J.-R. Tian, R. W. Baloh, B. T. Crane, and J. L. Demer Otolith function in cerebellar ataxia due to mutations in the calcium channel gene CACNA1A Brain, December 1, 2001; 124(12): 2407 - 2416. [Abstract] [Full Text] [PDF]

				Y. Han, J. T. Somers, J. I. Kim, A. N. Kumar, and R. J. Leigh Ocular Responses to Head Rotations During Mirror Viewing J Neurophysiol, November 1, 2001; 86(5): 2323 - 2329. [Abstract] [Full Text] [PDF]

				W. P. Medendorp, J.A.M. Van Gisbergen, S. Van Pelt, and C.C.A.M. Gielen Context Compensation in the Vestibuloocular Reflex During Active Head Rotations J Neurophysiol, December 1, 2000; 84(6): 2904 - 2917. [Abstract] [Full Text] [PDF]