Potential of on-scalp MEG: Robust detection of human visual gamma-band responses

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Abstract

Electrophysiological signals recorded intracranially show rich frequency content spanning from near-DC to hundreds of hertz. Noninvasive electromagnetic signals measured with electroencephalography (EEG) or magnetoencephalography (MEG) typically contain less signal power in high frequencies than invasive recordings. Particularly, noninvasive detection of gamma-band activity (>30 Hz) is challenging since coherently active source areas are small at such frequencies and the available imaging methods have limited spatial resolution. Compared to EEG and conventional SQUID-based MEG, on-scalp MEG should provide substantially improved spatial resolution, making it an attractive method for detecting gamma-band activity. Using an on-scalp array comprised of eight optically pumped magnetometers (OPMs) and a conventional whole-head SQUID array, we measured responses to a dynamic visual stimulus known to elicit strong gamma-band responses. OPMs had substantially higher signal power than SQUIDs, and had a slightly larger relative gamma-power increase over the baseline. With only eight OPMs, we could obtain gamma-activity source estimates comparable to those of SQUIDs at the group level. Our results show the feasibility of OPMs to measure gamma-band activity. To further facilitate the noninvasive detection of gamma-band activity, the on-scalp OPM arrays should be optimized with respect to sensor noise, the number of sensors and intersensor spacing.

Original languageEnglish
Number of pages12
JournalHuman Brain Mapping
DOIs
Publication statusPublished - 1 Oct 2019
MoE publication typeA1 Journal article-refereed

Keywords

  • gamma band
  • magnetoencephalography
  • optically pumped magnetometer
  • visual system
  • HIGH-FREQUENCY OSCILLATIONS
  • LOCAL-FIELD POTENTIALS
  • SOMATOSENSORY CORTEX
  • WORKING-MEMORY
  • EEG
  • SYNCHRONIZATION
  • MAGNETOENCEPHALOGRAPHY
  • DESYNCHRONIZATION
  • DYNAMICS
  • RHYTHMS

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