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Automatic artifacts and arousals detection in whole-night sleep EEG recordings

Automatic artifacts and arousals detection in whole-night sleep EEG recordings
Automatic artifacts and arousals detection in whole-night sleep EEG recordings
Background: In sleep electroencephalographic (EEG) signals, artifacts and arousals marking are usually part of the processing. This visual inspection by a human expert has two main drawbacks: it is very time consuming and subjective.
New method: To detect artifacts and arousals in a reliable, systematic and reproducible automatic way, we developed an automatic detection based on time and frequency analysis with adapted thresholds derived from data themselves.
Results: The automatic detection performance is assessed using 5 statistic parameters, on 60 whole night sleep recordings coming from 35 healthy volunteers (male and female) aged between 19 and 26. The proposed approach proves its robustness against inter- and intra-, subjects and raters’ scorings, variability. The agreement with human raters is rated overall from substantial to excellent and provides a significantly more reliable method than between human raters.
Comparison: Existing methods detect only specific artifacts or only arousals, and/or these methods are validated on short episodes of sleep recordings, making it difficult to compare with our whole night results.
Conclusion: The method works on a whole night recording and is fully automatic, reproducible, and reliable. Furthermore the implementation of the method will be made available online as open source code.
0165-0270
124-133
Wallant, Dorothée Coppieters T.
bd20bb4c-3e81-495f-9601-aed5a4ea98b8
Muto, V
ce7ba591-3383-4fa3-ab02-edc341c35eb9
Gaggioni, G
32062755-d193-452c-a698-af3bd908f816
Jaspar, M
329c9b0a-cdd3-435b-8cd5-0fe47900000f
Chellappa, S.L.
516582b5-3cba-4644-86c9-14c91a4510f2
Meyer, C
58af247c-0c51-4872-bb9c-3384fbf8d3a2
Vandewalle, G
26e86381-f07d-41ae-ae39-debbfd10013b
Maquet, P
33e5f3a5-63bf-4a5f-920d-26f61bd2fbd6
Phillips, C
8d629376-9cbd-4354-b24a-70db5e670c25
et al.
Wallant, Dorothée Coppieters T.
bd20bb4c-3e81-495f-9601-aed5a4ea98b8
Muto, V
ce7ba591-3383-4fa3-ab02-edc341c35eb9
Gaggioni, G
32062755-d193-452c-a698-af3bd908f816
Jaspar, M
329c9b0a-cdd3-435b-8cd5-0fe47900000f
Chellappa, S.L.
516582b5-3cba-4644-86c9-14c91a4510f2
Meyer, C
58af247c-0c51-4872-bb9c-3384fbf8d3a2
Vandewalle, G
26e86381-f07d-41ae-ae39-debbfd10013b
Maquet, P
33e5f3a5-63bf-4a5f-920d-26f61bd2fbd6
Phillips, C
8d629376-9cbd-4354-b24a-70db5e670c25

Wallant, Dorothée Coppieters T., Muto, V and Gaggioni, G , et al. (2016) Automatic artifacts and arousals detection in whole-night sleep EEG recordings. Journal of Neuroscience Methods, 258 (1), 124-133. (doi:10.1016/j.jneumeth.2015.11.005).

Record type: Article

Abstract

Background: In sleep electroencephalographic (EEG) signals, artifacts and arousals marking are usually part of the processing. This visual inspection by a human expert has two main drawbacks: it is very time consuming and subjective.
New method: To detect artifacts and arousals in a reliable, systematic and reproducible automatic way, we developed an automatic detection based on time and frequency analysis with adapted thresholds derived from data themselves.
Results: The automatic detection performance is assessed using 5 statistic parameters, on 60 whole night sleep recordings coming from 35 healthy volunteers (male and female) aged between 19 and 26. The proposed approach proves its robustness against inter- and intra-, subjects and raters’ scorings, variability. The agreement with human raters is rated overall from substantial to excellent and provides a significantly more reliable method than between human raters.
Comparison: Existing methods detect only specific artifacts or only arousals, and/or these methods are validated on short episodes of sleep recordings, making it difficult to compare with our whole night results.
Conclusion: The method works on a whole night recording and is fully automatic, reproducible, and reliable. Furthermore the implementation of the method will be made available online as open source code.

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More information

Accepted/In Press date: 5 November 2015
Published date: 1 January 2016
Learn more about Engineering Sciences research Learn more about School of Psychology research

Identifiers

Local EPrints ID: 479505
URI: http://eprints.soton.ac.uk/id/eprint/479505
DOI: doi:10.1016/j.jneumeth.2015.11.005
ISSN: 0165-0270
PURE UUID: c179caca-cb98-477f-91b7-4cbc3bfab771
ORCID for S.L. Chellappa: ORCID iD orcid.org/0000-0002-6190-464X

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Date deposited: 25 Jul 2023 16:49
Last modified: 17 Mar 2024 04:20

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Contributors

Author: Dorothée Coppieters T. Wallant
Author: V Muto
Author: G Gaggioni
Author: M Jaspar
Author: S.L. Chellappa ORCID iD
Author: C Meyer
Author: G Vandewalle
Author: P Maquet
Author: C Phillips
Corporate Author: et al.

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