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Estimating a neutral reference for electroencephalographic recordings: the importance of using a high-density montage and a realistic head model
- Source :
- Journal of Neural Engineering, Journal of Neural Engineering, 12 (5)
- Publication Year :
- 2015
- Publisher :
- Institute of Physics Pub., 2015.
-
Abstract
- Objective. In electroencephalography (EEG) measurements, the signal of each recording electrode is contrasted with a reference electrode or a combination of electrodes. The estimation of a neutral reference is a long-standing issue in EEG data analysis, which has motivated the proposal of different re-referencing methods, among which linked-mastoid re-referencing (LMR), average re-referencing (AR) and reference electrode standardization technique (REST). In this study we quantitatively assessed the extent to which the use of a high-density montage and a realistic head model can impact on the optimal estimation of a neutral reference for EEG recordings. Approach. Using simulated recordings generated by projecting specific source activity over the sensors, we assessed to what extent AR, REST and LMR may distort the scalp topography. We examined the impact electrode coverage has on AR and REST, and how accurate the REST reconstruction is for realistic and less realistic (three-layer and single-layer spherical) head models, and with possible uncertainty in the electrode positions. We assessed LMR, AR and REST also in the presence of typical EEG artifacts that are mixed in the recordings. Finally, we applied them to real EEG data collected in a target detection experiment to corroborate our findings on simulated data. Main results. Both AR and REST have relatively low reconstruction errors compared to LMR, and that REST is less sensitive than AR and LMR to artifacts mixed in the EEG data. For both AR and REST, high electrode density yields low re-referencing reconstruction errors. A realistic head model is critical for REST, leading to a more accurate estimate of a neutral reference compared to spherical head models. With a low-density montage, REST shows a more reliable reconstruction than AR either with a realistic or a three-layer spherical head model. Conversely, with a high-density montage AR yields better results unless precise information on electrode positions is available. Significance. Our study is the first to quantitatively assess the performance of EEG re-referencing techniques in relation to the use of a high-density montage and a realistic head model. We hope our study will help researchers in the choice of the most effective re-referencing approach for their EEG studies.<br />Journal of Neural Engineering, 12 (5)<br />ISSN:1741-2560<br />ISSN:1741-2552
- Subjects :
- Paper
Neural activity
Computer science
Models, Neurological
Biomedical Engineering
Action Potentials
Electroencephalography
Sensitivity and Specificity
Signal
Reference electrode
Montage
Cellular and Molecular Neuroscience
Eeg data
Reference Values
Head model
medicine
Humans
Computer Simulation
Reference electrode standardization
Simulation
Rest (physics)
medicine.diagnostic_test
Optimal estimation
business.industry
Brain
Reproducibility of Results
Pattern recognition
Electrode position
Average reference
Simulated data
Artificial intelligence
Nerve Net
business
Head
Subjects
Details
- Language :
- English
- ISSN :
- 17412560 and 17412552
- Database :
- OpenAIRE
- Journal :
- Journal of Neural Engineering, Journal of Neural Engineering, 12 (5)
- Accession number :
- edsair.doi.dedup.....08ece3de00ccd3eb9c9e577fb016df81