A neuromorphic spiking neural network detects epileptic high frequency oscillations in the scalp EEG.
Journal:
Scientific reports
PMID:
35110665
Abstract
Interictal High Frequency Oscillations (HFO) are measurable in scalp EEG. This development has aroused interest in investigating their potential as biomarkers of epileptogenesis, seizure propensity, disease severity, and treatment response. The demand for therapy monitoring in epilepsy has kindled interest in compact wearable electronic devices for long-term EEG recording. Spiking neural networks (SNN) have emerged as optimal architectures for embedding in compact low-power signal processing hardware. We analyzed 20 scalp EEG recordings from 11 pediatric focal lesional epilepsy patients. We designed a custom SNN to detect events of interest (EoI) in the 80-250 Hz ripple band and reject artifacts in the 500-900 Hz band. We identified the optimal SNN parameters to detect EoI and reject artifacts automatically. The occurrence of HFO thus detected was associated with active epilepsy with 80% accuracy. The HFO rate mirrored the decrease in seizure frequency in 8 patients (p = 0.0047). Overall, the HFO rate correlated with seizure frequency (rho = 0.90 CI [0.75 0.96], p < 0.0001, Spearman's correlation). The fully automated SNN detected clinically relevant HFO in the scalp EEG. This study is a further step towards non-invasive epilepsy monitoring with a low-power wearable device.
Authors
Keywords
Adolescent
Artifacts
Brain
Brain Waves
Child
Child, Preschool
Drug Resistant Epilepsy
Electroencephalography
Epilepsies, Partial
Female
Humans
Infant
Male
Neural Networks, Computer
Predictive Value of Tests
Reproducibility of Results
Signal Processing, Computer-Assisted
Time Factors
Treatment Outcome
Wearable Electronic Devices