Human Vestibulo-ocular Responses to Rapid, Helmet-driven Head Movements

Overview

Journal Exp Brain Res

Specialty Neurology

Date 1994 Jan 1

PMID 7705514

Citations 9

Authors

S Tabak

H COLLEWIJN

Affiliations

Soon will be listed here.

Abstract

High-frequency head rotations in the 2-20 Hz range and passive, unpredictable head acceleration impulses were produced by a new technique, utilizing a helmet with a torque motor oscillating a mass. Unrestrained head and eye movements were recorded using magnetic sensor coils in a homogeneous magnetic field. In order to analyze the influence of the visual system on the vestibulo-ocular reflex (VOR), we took measurements under three experimental conditions: (1) with a stationary visual target; (2) in total darkness with the subject imagining the stationary target; and (3) with a head-fixed target. The results in 15 healthy subjects were highly consistent. At 2 Hz, VOR gain was near unity; above 2 Hz, VOR gain started to decrease, but this trend reversed beyond 8 Hz, where the gain increased continuously up to 1.1-1.3 at 20 Hz. Phase lag increased with frequency, from a few deg at 2 Hz to about 45 degrees at 20 Hz. Above 2 Hz, VOR gain was not significantly different for the three experimental conditions. Head acceleration impulses produced a VOR with near-unity gain in both directions. We also tested three subjects with clinically total bilateral loss of labyrinthine functions. These labyrinthine-defective subjects showed, in comparison to the normal subjects, strikingly lower gains and much longer delays in the VOR during sinusoidal and step-like head movements. These results suggest that our new torque-driven helmet technique is effective, safe and convenient, enabling the assessment of the VOR at relatively high frequencies where both visual and mental influences are minimized.

Citing Articles

Selective suppression of the vestibulo-ocular reflex during human locomotion.

Dietrich H, Wuehr M J Neurol. 2019; 266(Suppl 1):101-107.

PMID: 31073715 DOI: 10.1007/s00415-019-09352-7.

Automated head motion system improves reliability and lessens operator dependence for head impulse testing of vestibular reflexes.

Tan G, Schoo D, Della Santina C, Rahman M, Valentin Contreras N, Sun C IEEE Int Symp Med Meas Appl. 2018; 2017:94-99.

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Three dimensional vestibular ocular reflex testing using a six degrees of freedom motion platform.

Dits J, Houben M, van der Steen J J Vis Exp. 2013; (75):e4144.

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What does galvanic vestibular stimulation actually activate: response.

Cohen B, Yakushin S, Holstein G Front Neurol. 2012; 3:148.

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Optimal control of natural eye-head movements minimizes the impact of noise.

Saglam M, Lehnen N, Glasauer S J Neurosci. 2011; 31(45):16185-93.

PMID: 22072670 PMC: 6633248. DOI: 10.1523/JNEUROSCI.3721-11.2011.

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