Eye blink correction: a test on the preservation of common ERP components using a regression based technique
Eye blinks are a pervasive problem in electroencephalography research as they contaminate the brain signal. This paper tests the merits of a software tool employing the regression-based Gratton method that claims to remove the detrimental effects of the eye blink and leaves the activity of the brain...
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PeerJ Inc.
2013-05-01
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| Online Access: | https://peerj.com/articles/76.pdf |
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doaj-53061531cd6a4f58af4f2ed200797c3a2020-11-24T22:32:24ZengPeerJ Inc.PeerJ2167-83592013-05-011e7610.7717/peerj.7676Eye blink correction: a test on the preservation of common ERP components using a regression based techniqueSteven Woltering0Narges Bazargani1Zhong-Xu Liu2University of Toronto, CanadaUniversity College London, EnglandUniversity of Toronto, CanadaEye blinks are a pervasive problem in electroencephalography research as they contaminate the brain signal. This paper tests the merits of a software tool employing the regression-based Gratton method that claims to remove the detrimental effects of the eye blink and leaves the activity of the brain. The efficacy of the correction tool was tested on five common stimulus-locked Event Related Potential (ERP) components used in a standard Go/Nogo task. Results suggested that the ‘corrected’ data could be predicted from data containing no eye blinks, suggesting the tool does not distort the data to great extent. This effect was found significant for all components, except for the P3. The conclusion is that this tool distorts the data at acceptable levels, yet caution should be taken when interpreting later components, like the P3.https://peerj.com/articles/76.pdfEye blink correctionERPEEGArtifactsGo/nogo task |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Steven Woltering Narges Bazargani Zhong-Xu Liu |
| spellingShingle |
Steven Woltering Narges Bazargani Zhong-Xu Liu Eye blink correction: a test on the preservation of common ERP components using a regression based technique PeerJ Eye blink correction ERP EEG Artifacts Go/nogo task |
| author_facet |
Steven Woltering Narges Bazargani Zhong-Xu Liu |
| author_sort |
Steven Woltering |
| title |
Eye blink correction: a test on the preservation of common ERP components using a regression based technique |
| title_short |
Eye blink correction: a test on the preservation of common ERP components using a regression based technique |
| title_full |
Eye blink correction: a test on the preservation of common ERP components using a regression based technique |
| title_fullStr |
Eye blink correction: a test on the preservation of common ERP components using a regression based technique |
| title_full_unstemmed |
Eye blink correction: a test on the preservation of common ERP components using a regression based technique |
| title_sort |
eye blink correction: a test on the preservation of common erp components using a regression based technique |
| publisher |
PeerJ Inc. |
| series |
PeerJ |
| issn |
2167-8359 |
| publishDate |
2013-05-01 |
| description |
Eye blinks are a pervasive problem in electroencephalography research as they contaminate the brain signal. This paper tests the merits of a software tool employing the regression-based Gratton method that claims to remove the detrimental effects of the eye blink and leaves the activity of the brain. The efficacy of the correction tool was tested on five common stimulus-locked Event Related Potential (ERP) components used in a standard Go/Nogo task. Results suggested that the ‘corrected’ data could be predicted from data containing no eye blinks, suggesting the tool does not distort the data to great extent. This effect was found significant for all components, except for the P3. The conclusion is that this tool distorts the data at acceptable levels, yet caution should be taken when interpreting later components, like the P3. |
| topic |
Eye blink correction ERP EEG Artifacts Go/nogo task |
| url |
https://peerj.com/articles/76.pdf |
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AT stevenwoltering eyeblinkcorrectionatestonthepreservationofcommonerpcomponentsusingaregressionbasedtechnique AT nargesbazargani eyeblinkcorrectionatestonthepreservationofcommonerpcomponentsusingaregressionbasedtechnique AT zhongxuliu eyeblinkcorrectionatestonthepreservationofcommonerpcomponentsusingaregressionbasedtechnique |
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