Source analysis of short and long latency vestibular-evoked potentials (VsEPs) produced by left versus right ear air-conducted 500 Hz pips

Todd, Neil P. M., Paillard, Aurore, Kluk, Karolina, Whittle, Elizabeth and Colebatch, James G. (2014) Source analysis of short and long latency vestibular-evoked potentials (VsEPs) produced by left versus right ear air-conducted 500 Hz pips. Hearing Research, 312. pp. 91-102. ISSN 0378-5955

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Abstract / Description

Todd et al. (2014) have recently demonstrated the presence of vestibular dependent changes both in the morphology and in the intensity dependence of auditory evoked potentials (AEPs) when passing through the vestibular threshold as determined by vestibular evoked myogenic potentials (VEMPs). In this paper we extend this work by comparing left vs. right ear stimulation and by conducting a source analysis of the resulting evoked potentials of short and long latency. Ten healthy, right-handed subjects were recruited and evoked potentials were recorded to both left- and right-ear sound stimulation, above and below vestibular threshold. Below VEMP threshold, typical AEPs were recorded, consisting of mid- latency (MLR) waves Na and Pa followed by long latency AEPs (LAEPs) N1 and P2. In the suprathreshold condition, the expected changes in morphology were observed, consisting of: (1) short- latency vestibular evoked potentials (VsEPs) which have no auditory correlate, i.e. the ocular VEMP (OVEMP) and inion response-related potentials; (2) a later deflection, labelled N42/P52, followed by the LAEPs N1 and P2. Statistical analysis of the vestibular dependent responses indicated a contralateral effect for inion related short-latency responses and a left-ear/right-hemisphere advantage for the long- latency responses. Source analysis indicated that the short-latency effects may be mediated by a contralateral projection to left cerebellum, while the long-latency effects were mediated by a contralateral projection to right cingulate cortex. In addition we found evidence of a possible vestibular contribution to the auditory T-complex in radial temporal lobe sources. These last results raise the possibility that acoustic activation of the otolith organs could potentially contribute to auditory processing.

Item Type: Article
Uncontrolled Keywords: vestibular-evoked potentials (VsEPs); auditory evoked potentials (AEPs); vestibular evoked myogenic potentials (VEMPs)
Subjects: 100 Philosophy & psychology > 150 Psychology
Department: School of Social Sciences (to June 2021)
School of Social Sciences and Professions
Depositing User: Aurore Bardey
Date Deposited: 07 Aug 2020 13:49
Last Modified: 07 Aug 2020 13:49

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