Towards OPM-MEG in a virtual reality environment

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PubDate: Otc 2019

Teams: University Park;Aston University;QuSpin Inc;Insitute of Neurology,

Writers: GillianRobertsaNiallHolmesaNicholasAlexandercElenaBotoaJamesLeggettaRyan M.HillaVishalShahbMollyReaaRichardVaughanaEleanor A.MaguiredKlausKesslerceShaunBeebeaMarkFromholdaGareth R.BarnesdRichardBowtellaMatthew J.Brookesa

PDF: Towards OPM-MEG in a virtual reality environment

Abstract

Virtual reality (VR) provides an immersive environment in which a participant can experience a feeling of presence in a virtual world. Such environments generate strong emotional and physical responses and have been used for wide-ranging applications. The ability to collect functional neuroimaging data whilst a participant is immersed in VR would represent a step change for experimental paradigms; unfortunately, traditional brain imaging requires participants to remain still, limiting the scope of naturalistic interaction within VR. Recently however, a new type of magnetoencephalography (MEG) device has been developed, that employs scalp-mounted optically-pumped magnetometers (OPMs) to measure brain electrophysiology. Lightweight OPMs, coupled with precise control of the background magnetic field, enables participant movement during data acquisition. Here, we exploit this technology to acquire MEG data whilst a participant uses a virtual reality head-mounted display (VRHMD). We show that, despite increased magnetic interference from the VRHMD, we were able to measure modulation of alpha-band oscillations, and the visual evoked field. Moreover, in a VR experiment in which a participant had to move their head to look around a virtual wall and view a visual stimulus, we showed that the measured MEG signals map spatially in accordance with the known organisation of primary visual cortex. This technique could transform the type of neuroscientific experiment that can be undertaken using functional neuroimaging.

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