Top-down Control of Vestibular Inputs by the Dorsolateral Prefrontal Cortex

Overview

Journal Exp Brain Res

Specialty Neurology

Date 2023 Oct 30

PMID 37902866

Authors

Brendan McCarthy

Sudipta Datta

Gianni Sesa-Ashton

Rebecca Wong

Luke A Henderson

Tye Dawood

Vaughan G Macefield

Affiliations

Soon will be listed here.

Abstract

The vestibular apparatus provides spatial information on the position of the head in space and with respect to gravity. Low-frequency sinusoidal galvanic vestibular stimulation (sGVS), a means of selectively changing the firing of vestibular afferents, induces a frequency-dependent perception of sway and, in some individuals, induces nausea. Given that vestibular afferents project to the insular cortex-which forms part of the vestibular cortex-and that the insula receives inputs from the dorsolateral prefrontal cortex (dlPFC), we tested the hypothesis that electrical stimulation of the dlPFC can modulate vestibular inputs. Sinusoidal electrical stimulation (± 2 mA, 0.08 Hz, 100 cycles) was delivered via surface electrodes over (1) the mastoid processes alone (sGVS), (2) electroencephalogram (EEG) site F4 (right dlPFC) and the nasion or (3) to each site concurrently (sGVS + dlPFC) in 23 participants. The same stimulation protocol was used in a separate study to investigate EEG site F3 (left dlPFC) instead of F4 in 13 participants. During sGVS, all participants reported perceptions of sway and 13 participants also reported nausea, neither sensation of which occurred as a result of dlPFC stimulation. Interestingly, when sGVS and dlPFC stimulations were delivered concurrently, vestibular perceptions and sensations of nausea were almost completely abolished. We conclude that the dlPFC provides top-down control of vestibular inputs and further suggests that dlPFC stimulation may provide a novel means of controlling nausea.

Citing Articles

Non-additive effects of electrical stimulation of the dorsolateral prefrontal cortex and the vestibular system on muscle sympathetic nerve activity in humans.

McCarthy B, Datta S, Sesa-Ashton G, Wong R, Henderson L, Dawood T Exp Brain Res. 2024; 242(7):1773-1786.

PMID: 38822824 PMC: 11208219. DOI: 10.1007/s00221-024-06852-5.

Localization of Vestibular Cortex Using Electrical Cortical Stimulation: A Systematic Literature Review.

Arvaniti C, Brotis A, Paschalis T, Kapsalaki E, Fountas K Brain Sci. 2024; 14(1).

PMID: 38248290 PMC: 10813901. DOI: 10.3390/brainsci14010075.

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