DocumentCode
1541277
Title
Preprocessing and time-frequency analysis of newborn EEG seizures
Author
Celka, Patrick ; Boashash, Boualem ; Colditz, Paul
Volume
20
Issue
5
fYear
2001
Firstpage
30
Lastpage
39
Abstract
Neurological disease or dysfunction in newborn infants is often first manifested by seizures. Prolonged seizures can result in impaired neurodevelopment or even death. In adults, the clinical signs of seizures are well defined and easily recognized. In newborns, however, the clinical signs are subtle and may be absent or easily missed without constant close observation. This article describes the use of adaptive signal processing techniques for removing artifacts from newborn electroencephalogram (EEG) signals. Three adaptive algorithms have been designed in the context of EEG signals. This preprocessing is necessary before attempting a fine time-frequency analysis of EEG rhythmical activities, such as electrical seizures, corrupted by high amplitude signals. After an overview of newborn EEG signals, the authors describe the data acquisition set-up. They then introduce the basic physiological concepts related to normal and abnormal newborn EEGs and discuss the three adaptive algorithms for artifact removal. They also present time-frequency representations (TFRs) of seizure signals and discuss the estimation and modeling of the instantaneous frequency related to the main ridge of the TFR.
Keywords
adaptive signal processing; data acquisition; electroencephalography; medical signal processing; paediatrics; time-frequency analysis; abnormal newborn EEGs; adaptive algorithms; adaptive signal processing techniques; artifact removal; artifacts removal; clinical signs; data acquisition set-up; death; electrodiagnostics; high amplitude signals; impaired neurodevelopment; neurological disease; neurological dysfunction; newborn EEG seizures; newborn infants; normal newborn EEGs; prolonged seizures; seizure signals; Adaptive algorithm; Adaptive signal processing; Algorithm design and analysis; Diseases; Electroencephalography; Frequency estimation; Pediatrics; Signal design; Signal processing; Time frequency analysis; Algorithms; Biomedical Engineering; Data Interpretation, Statistical; Electroencephalography; Humans; Infant, Newborn; Monitoring, Physiologic; Seizures; Signal Processing, Computer-Assisted;
fLanguage
English
Journal_Title
Engineering in Medicine and Biology Magazine, IEEE
Publisher
ieee
ISSN
0739-5175
Type
jour
DOI
10.1109/51.956817
Filename
956817
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