Responses of Irregularly Discharging Chinchilla Semicircular Canal Vestibular-Nerve Afferents During High-Frequency Head Rotations

doi:10.1152/jn.01002.2004

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Responses of Irregularly Discharging Chinchilla Semicircular Canal Vestibular-Nerve Afferents During High-Frequency Head Rotations

Timothy E. Hullar¹^,2, Charles C. Della Santina¹, Timo Hirvonen¹, David M. Lasker¹, John P. Carey¹ and Lloyd B. Minor¹

¹Department of Otolaryngology—Head and Neck Surgery, The Johns Hopkins University School of Medicine, Baltimore, Maryland; and ²Department of Otolaryngology—Head and Neck Surgery, Washington University School of Medicine, St. Louis, Missouri

Submitted 23 September 2004; accepted in final form 7 December 2004

Mammalian vestibular-nerve afferents innervating the semicircularcanals have been divided into groups according to their dischargeregularity, gain at 2-Hz rotational stimulation, and morphology.Low-gain irregular afferents terminate in calyx endings in thecentral crista, high-gain irregular afferents synapse more peripherallyin dimorphic (bouton and calyx) endings, and regular afferentsterminate in the peripheral zone as bouton-only and dimorphicendings. The response dynamics of these three groups have beendescribed only up to 4 Hz in previous studies. Reported hereare responses of chinchilla semicircular canal vestibular-nerveafferents to rotational stimuli at frequencies up to 16 Hz.The sensitivity of all afferents increased with increasing frequencywith the sensitivity of low-gain irregular afferents increasingthe most and matching the high-gain irregular afferents at 16Hz. All afferents increased their phase lead with respect tostimulus velocity at higher frequencies with the highest leadsin low-gain irregular afferents and the lowest in regular afferents.No attenuation of sensitivity or shift in phase consistent withthe presence of a high-frequency pole over the range testedwas noted. Responses were best fit with a torsion-pendulum modelcombined with a lead operator ( ${tau}$ _HF1s + 1)( ${tau}$ _HF2s + 1). The dischargeregularity of individual afferents was correlated to the valueof each afferent's lead operator time constants. These findingssuggest that low-gain irregular afferents are well suited forencoding the onset of rapid head movements, a property thatwould be advantageous for initiation of reflexes with shortlatency such as the vestibulo-ocular reflex.

Address for reprint requests and other correspondence: T. E. Hullar, Dept. of Otolaryngology—Head and Neck Surgery, Washington University School of Medicine, 660 S. Euclid Ave. #8115, Saint Louis, MO 63110 (E-mail: hullart{at}ent.wustl.edu)

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