Diagnosing Epilepsy with Normal Interictal EEG Using Dynamic Network Models.

Authors

• Patrick Myers
• Kristin M Gunnarsdottir
• Adam Li
• Vlad Razskazovskiy
• Jeff Craley
• Alana Chandler
• Dale Wyeth
• Edmund Wyeth
• Kareem A Zaghloul
• Sara K Inati
• Jennifer L Hopp
• Babitha Haridas
• Jorge Gonzalez-Martinez
• Anto Bagíc
• Joon-Yi Kang
• Michael R Sperling
• Niravkumar Barot
• Sridevi V Sarma
• Khalil S Husari

Publication/Presentation Date

5-1-2025

Abstract

OBJECTIVE: Whereas a scalp electroencephalogram (EEG) is important for diagnosing epilepsy, a single routine EEG is limited in its diagnostic value. Only a small percentage of routine EEGs show interictal epileptiform discharges (IEDs) and overall misdiagnosis rates of epilepsy are 20% to 30%. We aim to demonstrate how network properties in EEG recordings can be used to improve the speed and accuracy differentiating epilepsy from mimics, such as functional seizures - even in the absence of IEDs.

METHODS: In this multicenter study, we analyzed routine scalp EEGs from 218 patients with suspected epilepsy and normal initial EEGs. The patients' diagnoses were later confirmed based on an epilepsy monitoring unit (EMU) admission. About 46% ultimately being diagnosed with epilepsy and 54% with non-epileptic conditions. A logistic regression model was trained using spectral and network-derived EEG features to differentiate between epilepsy and non-epilepsy. Of the 218 patients, 90% were used for training and 10% were held out for testing. Within the training set, 10-fold cross validation was performed. The resulting tool was named "EpiScalp."

RESULTS: EpiScalp achieved an area under the curve (AUC) of 0.940, an accuracy of 0.904, a sensitivity of 0.835, and a specificity of 0.963 in classifying patients as having epilepsy or not.

INTERPRETATION: EpiScalp provides an accurate diagnostic aid from a single initial EEG recording, even in more challenging epilepsy cases with normal initial EEGs. This may represent a paradigm shift in epilepsy diagnosis by deriving an objective measure of epilepsy likelihood from previously uninformative EEGs. ANN NEUROL 2025;97:907-918.

Volume

97

Issue

5

First Page

907

Last Page

918

ISSN

1531-8249

Published In/Presented At

Myers, P., Gunnarsdottir, K. M., Li, A., Razskazovskiy, V., Craley, J., Chandler, A., Wyeth, D., Wyeth, E., Zaghloul, K. A., Inati, S. K., Hopp, J. L., Haridas, B., Gonzalez-Martinez, J., Bagíc, A., Kang, J. Y., Sperling, M. R., Barot, N., Sarma, S. V., & Husari, K. S. (2025). Diagnosing Epilepsy with Normal Interictal EEG Using Dynamic Network Models. Annals of neurology, 97(5), 907–918. https://doi.org/10.1002/ana.27168

Disciplines

Medicine and Health Sciences

PubMedID

39817338

Department(s)

Department of Medicine

Document Type

Article