Seizure detection algorithm for neonates based on wave-sequence analysis


Autoria(s): Navakatikyan, MA; Colditz, PB; Burke, CJ; Inder, TE; Richmond, J; Williams, CE
Contribuinte(s)

M. Hallett

Data(s)

01/01/2006

Resumo

Objective: The description and evaluation of the performance of a new real-time seizure detection algorithm in the newborn infant. Methods: The algorithm includes parallel fragmentation of EEG signal into waves; wave-feature extraction and averaging; elementary, preliminary and final detection. The algorithm detects EEG waves with heightened regularity, using wave intervals, amplitudes and shapes. The performance of the algorithm was assessed with the use of event-based and liberal and conservative time-based approaches and compared with the performance of Gotman's and Liu's algorithms. Results: The algorithm was assessed on multi-channel EEG records of 55 neonates including 17 with seizures. The algorithm showed sensitivities ranging 83-95% with positive predictive values (PPV) 48-77%. There were 2.0 false positive detections per hour. In comparison, Gotman's algorithm (with 30 s gap-closing procedure) displayed sensitivities of 45-88% and PPV 29-56%; with 7.4 false positives per hour and Liu's algorithm displayed sensitivities of 96-99%, and PPV 10-25%; with 15.7 false positives per hour. Conclusions: The wave-sequence analysis based algorithm displayed higher sensitivity, higher PPV and a substantially lower level of false positives than two previously published algorithms. Significance: The proposed algorithm provides a basis for major improvements in neonatal seizure detection and monitoring. Published by Elsevier Ireland Ltd. on behalf of International Federation of Clinical Neurophysiology.

Identificador

http://espace.library.uq.edu.au/view/UQ:80838

Idioma(s)

eng

Publicador

Elsevier Ireland Ltd

Palavras-Chave #Seizure Detection #Algorithm #Newborn #Electroencephalography (eeg) #Clinical Neurology #Neurosciences #Cerebral Function Monitor #Automatic Recognition #Newborn Eeg #Epileptic Activity #Quantification #Infants #Device #Discharges #Preterm #Model #C1 #320702 Central Nervous System #730204 Child health
Tipo

Journal Article