Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans
We established an optimal combination of EEG recording during sparse multiband (MB) fMRI that preserves high resolution, whole brain fMRI coverage whilst enabling broad-band EEG recordings which are uncorrupted by MRI gradient artefacts (GAs). We firstly determined the safety of simultaneous EEG rec...
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| Format: | Article |
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Wiley
2018
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| Online Access: | https://eprints.nottingham.ac.uk/49149/ |
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| author | Uji, Makoto Wilson, Ross Francis, Susan T. Mullinger, Karen J. Mayhew, Stephen D. |
| author_facet | Uji, Makoto Wilson, Ross Francis, Susan T. Mullinger, Karen J. Mayhew, Stephen D. |
| author_sort | Uji, Makoto |
| building | Nottingham Research Data Repository |
| collection | Online Access |
| description | We established an optimal combination of EEG recording during sparse multiband (MB) fMRI that preserves high resolution, whole brain fMRI coverage whilst enabling broad-band EEG recordings which are uncorrupted by MRI gradient artefacts (GAs). We firstly determined the safety of simultaneous EEG recording during MB fMRI. Application of MB factor = 4 produced <1°C peak heating of electrode/hardware during 20-minutes of GE–EPI data acquisition. However, higher SAR sequences require specific safety testing, with greater heating observed using PCASL with MB factor =4. Heating was greatest in the electrocardiogram channel, likely due to it possessing longest lead length. We investigated the effect of MB factoron the temporal signal to noise ratio for a range of GE-EPI sequences (varying MB factor and temporal interval between slice acquisitions). We found that, for our experimental purpose, the optimal acquisition was achieved with MB factor=3, 3mm isotropic voxels and 33 slices providing whole head coverage. This sequence afforded a 2.25s duration quiet period (without GAs) in every 3s TR. Using this sequence we demonstrated the ability to record gamma frequency (55-80Hz) EEG oscillations, in response to right index finger abduction, that are usually obscured by Gas during continuous fMRI data acquisition. In this novel application of EEG - MB fMRI to a motor task we observed a positive correlation between gamma and BOLD responses in bilateral motor regions. These findings support and extend previous work regarding coupling between neural and haemodynamic measures of brain activity in humans and showcase the utility of EEG-MB fMRI for future investigations. |
| first_indexed | 2025-11-14T20:11:45Z |
| format | Article |
| id | nottingham-49149 |
| institution | University of Nottingham Malaysia Campus |
| institution_category | Local University |
| last_indexed | 2025-11-14T20:11:45Z |
| publishDate | 2018 |
| publisher | Wiley |
| recordtype | eprints |
| repository_type | Digital Repository |
| spelling | nottingham-491492024-08-15T15:25:57Z https://eprints.nottingham.ac.uk/49149/ Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans Uji, Makoto Wilson, Ross Francis, Susan T. Mullinger, Karen J. Mayhew, Stephen D. We established an optimal combination of EEG recording during sparse multiband (MB) fMRI that preserves high resolution, whole brain fMRI coverage whilst enabling broad-band EEG recordings which are uncorrupted by MRI gradient artefacts (GAs). We firstly determined the safety of simultaneous EEG recording during MB fMRI. Application of MB factor = 4 produced <1°C peak heating of electrode/hardware during 20-minutes of GE–EPI data acquisition. However, higher SAR sequences require specific safety testing, with greater heating observed using PCASL with MB factor =4. Heating was greatest in the electrocardiogram channel, likely due to it possessing longest lead length. We investigated the effect of MB factoron the temporal signal to noise ratio for a range of GE-EPI sequences (varying MB factor and temporal interval between slice acquisitions). We found that, for our experimental purpose, the optimal acquisition was achieved with MB factor=3, 3mm isotropic voxels and 33 slices providing whole head coverage. This sequence afforded a 2.25s duration quiet period (without GAs) in every 3s TR. Using this sequence we demonstrated the ability to record gamma frequency (55-80Hz) EEG oscillations, in response to right index finger abduction, that are usually obscured by Gas during continuous fMRI data acquisition. In this novel application of EEG - MB fMRI to a motor task we observed a positive correlation between gamma and BOLD responses in bilateral motor regions. These findings support and extend previous work regarding coupling between neural and haemodynamic measures of brain activity in humans and showcase the utility of EEG-MB fMRI for future investigations. Wiley 2018-01-13 Article PeerReviewed Uji, Makoto, Wilson, Ross, Francis, Susan T., Mullinger, Karen J. and Mayhew, Stephen D. (2018) Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans. Human Brain Mapping . ISSN 1097-0193 EEG-fMRI; Multiband or multislice fMRI; Gamma-BOLD coupling; Gradient artefacts; Safety; Heating; Motor gamma oscillations http://onlinelibrary.wiley.com/doi/10.1002/hbm.23943/abstract doi:10.1002/hbm.23943 doi:10.1002/hbm.23943 |
| spellingShingle | EEG-fMRI; Multiband or multislice fMRI; Gamma-BOLD coupling; Gradient artefacts; Safety; Heating; Motor gamma oscillations Uji, Makoto Wilson, Ross Francis, Susan T. Mullinger, Karen J. Mayhew, Stephen D. Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans |
| title | Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans |
| title_full | Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans |
| title_fullStr | Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans |
| title_full_unstemmed | Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans |
| title_short | Exploring the advantages of multiband fMRI with simultaneous EEG to investigate coupling between gamma frequency neural activity and the BOLD response in humans |
| title_sort | exploring the advantages of multiband fmri with simultaneous eeg to investigate coupling between gamma frequency neural activity and the bold response in humans |
| topic | EEG-fMRI; Multiband or multislice fMRI; Gamma-BOLD coupling; Gradient artefacts; Safety; Heating; Motor gamma oscillations |
| url | https://eprints.nottingham.ac.uk/49149/ https://eprints.nottingham.ac.uk/49149/ https://eprints.nottingham.ac.uk/49149/ |