OBJECTIVE: Recently the FDA approved the first responsive, closed-loop intracranial device to treat epilepsy. Because these devices must respond within seconds of seizure onset and not miss events, they are tuned to have high sensitivity, leading to frequent false positive stimulations and decreased battery life. In this work, we propose a more robust seizure detection model. APPROACH: We use a Bayesian nonparametric Markov switching process to parse intracranial EEG (iEEG) data into distinct dynamic event states. Each event state is then modeled as a multidimensional Gaussian distribution to allow for predictive state assignment. By detecting event states highly specific for seizure onset zones, the method can identify precise regions of iEEG data associated with the transition to seizure activity, reducing false positive detections associated with interictal bursts. The seizure detection algorithm was translated to a real-time application and validated in a small pilot study using 391 days of continuous iEEG data from two dogs with naturally occurring, multifocal epilepsy. A feature-based seizure detector modeled after the NeuroPace RNS System was developed as a control. MAIN RESULTS: Our novel seizure detection method demonstrated an improvement in false negative rate (0/55 seizures missed versus 2/55 seizures missed) as well as a significantly reduced false positive rate (0.0012 h versus 0.058 h(-1)). All seizures were detected an average of 12.1 ± 6.9 s before the onset of unequivocal epileptic activity (unequivocal epileptic onset (UEO)). SIGNIFICANCE: This algorithm represents a computationally inexpensive, individualized, real-time detection method suitable for implantable antiepileptic devices that may considerably reduce false positive rate relative to current industry standards.
OBJECTIVE: Recently the FDA approved the first responsive, closed-loop intracranial device to treat epilepsy. Because these devices must respond within seconds of seizure onset and not miss events, they are tuned to have high sensitivity, leading to frequent false positive stimulations and decreased battery life. In this work, we propose a more robust seizure detection model. APPROACH: We use a Bayesian nonparametric Markov switching process to parse intracranial EEG (iEEG) data into distinct dynamic event states. Each event state is then modeled as a multidimensional Gaussian distribution to allow for predictive state assignment. By detecting event states highly specific for seizure onset zones, the method can identify precise regions of iEEG data associated with the transition to seizure activity, reducing false positive detections associated with interictal bursts. The seizure detection algorithm was translated to a real-time application and validated in a small pilot study using 391 days of continuous iEEG data from two dogs with naturally occurring, multifocal epilepsy. A feature-based seizure detector modeled after the NeuroPace RNS System was developed as a control. MAIN RESULTS: Our novel seizure detection method demonstrated an improvement in false negative rate (0/55 seizures missed versus 2/55 seizures missed) as well as a significantly reduced false positive rate (0.0012 h versus 0.058 h(-1)). All seizures were detected an average of 12.1 ± 6.9 s before the onset of unequivocal epileptic activity (unequivocal epileptic onset (UEO)). SIGNIFICANCE: This algorithm represents a computationally inexpensive, individualized, real-time detection method suitable for implantable antiepileptic devices that may considerably reduce false positive rate relative to current industry standards.
Authors: Kathryn A Davis; Beverly K Sturges; Charles H Vite; Vanessa Ruedebusch; Gregory Worrell; Andrew B Gardner; Kent Leyde; W Douglas Sheffield; Brian Litt Journal: Epilepsy Res Date: 2011-06-14 Impact factor: 3.045
Authors: A Gambardella; A Palmini; F Andermann; F Dubeau; J C Da Costa; L F Quesney; E Andermann; A Olivier Journal: Electroencephalogr Clin Neurophysiol Date: 1996-04
Authors: J Claassen; N Jetté; F Chum; R Green; M Schmidt; H Choi; J Jirsch; J A Frontera; E Sander Connolly; R G Emerson; S A Mayer; L J Hirsch Journal: Neurology Date: 2007-09-25 Impact factor: 9.910
Authors: Paul Wicks; Matthew Hotopf; Vaibhav A Narayan; Ethan Basch; James Weatherall; Muir Gray Journal: BMC Med Date: 2016-11-07 Impact factor: 8.775
Authors: Brittany H Scheid; Arian Ashourvan; Jennifer Stiso; Kathryn A Davis; Fadi Mikhail; Fabio Pasqualetti; Brian Litt; Danielle S Bassett Journal: Proc Natl Acad Sci U S A Date: 2021-02-02 Impact factor: 11.205