Normal Performance and Expression of Learning in the Vestibulo-Ocular Reflex (VOR) at High Frequencies

doi:10.1152/jn.00832.2004

Normal Performance and Expression of Learning in the Vestibulo-Ocular Reflex (VOR) at High Frequencies

Ramnarayan Ramachandran and Stephen G. Lisberger

Howard Hughes Medical Institute and W. M. Keck Center for Integrative Neuroscience, University of California, San Francisco, California

Submitted 13 August 2004; accepted in final form 13 November 2004

The rotatory vestibulo-ocular reflex (VOR) keeps the visualworld stable during head movements by causing eye velocity thatis equal in amplitude and opposite in direction to angular headvelocity. We have studied the performance of the VOR in darknessfor sinusoidal angular head oscillation at frequencies rangingfrom 0.5 to 50 Hz. At frequencies of $≥$ 25 Hz, the harmonic distortionof the stimulus and response were estimated to be <14 and22%, respectively. We measured the gain of the VOR (eye velocitydivided by head velocity) and the phase shift between eye andhead velocity before and after adaptation with altered vision.Before adaptation, VOR gains were close to unity for frequencies $≤$ 20 Hz and increased as a function of frequency reaching valuesof 3 or 4 at 50 Hz. Eye velocity was almost perfectly out ofphase with head velocity for frequencies $≤$ 12.5 Hz, and laggedperfect compensation increasingly as a function of frequency.After adaptive modification of the VOR with magnifying or miniaturizingoptics, gain showed maximal changes at frequencies <12.5Hz, smaller changes at higher frequencies, and no change atfrequencies larger than 25 Hz. Between 15 and 25 Hz, the phaseof eye velocity led the unmodified VOR by as much as 50°when the gain of the VOR had been decreased, and lagged whenthe gain of the VOR had been increased. We were able to reproducethe main features of our data with a two-pathway model of theVOR, where the two pathways had different relationships betweenphase shift and frequency.

Address for reprint requests and other correspondence: R. Ramachandran, Dept. of Physiology, Univ. of California at San Francisco, 513 Parnassus Ave., Box 0444, San Francisco, CA 94143-0444 (E-mail: rramacha{at}phy.ucsf.edu)

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