Wearable detection of tonic seizures in childhood epilepsy: An exploratory cohort study

Proost, Renee; Macea, Jaiver; Lagae, Lieven; Van Paesschen, Wim; Jansen, Katrien

doi:10.1111/epi.17756

Epilepsia

2023

DOI: 10.1111/epi.17756

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Wearable detection of tonic seizures in childhood epilepsy: An exploratory cohort study

Renee Proost,

Jaiver Macea,

Lieven Lagae

et al.

Abstract: ObjectiveTo investigate the performance of a multimodal wearable device for the offline detection of tonic seizures (TS) in a pediatric childhood epilepsy cohort, with a focus on patients with Lennox–Gastaut syndrome.MethodsParallel with prolonged video‐electroencephalography (EEG), the Plug 'n Patch system, a multimodal wearable device using the Sensor Dot and replaceable electrode adhesives, was used to detect TS. Multiple biosignals were recorded: behind‐the‐ear EEG, surface electromyography, electrocardiog… Show more

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2024

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Cited by 3 publications

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Wearable biosensors for pediatric hospitals: a scoping review

Hyun,

Takashima,

Hall

et al. 2024

Pediatr Res

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Wearable biosensors for pediatric hospitals: a scoping review

Hyun,

Takashima,

Hall

et al. 2024

Pediatr Res

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Ambulatory seizure detection

Bernini,

Dan,

Ryvlin

2024

Current Opinion in Neurology

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Purpose of review To review recent advances in the field of seizure detection in ambulatory patients with epilepsy. Recent findings Recent studies have shown that wrist or arm wearable sensors, using 3D-accelerometry, electrodermal activity or photoplethysmography, in isolation or in combination, can reliably detect focal-to-bilateral and generalized tonic-clonic seizures (GTCS), with a sensitivity over 90%, and false alarm rates varying from 0.1 to 1.2 per day. A headband EEG has also demonstrated a high sensitivity for detecting and help monitoring generalized absence seizures. In contrast, no appropriate solution is yet available to detect focal seizures, though some promising findings were reported using ECG-based heart rate variability biomarkers and subcutaneous EEG. Summary Several FDA and/or EU-certified solutions are available to detect GTCS and trigger an alarm with acceptable rates of false alarms. However, data are still missing regarding the impact of such intervention on patients’ safety. Noninvasive solutions to reliably detect focal seizures in ambulatory patients, based on either EEG or non-EEG biosignals, remain to be developed. To this end, a number of challenges need to be addressed, including the performance, but also the transparency and interpretability of machine learning algorithms.

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Automated detection of tonic seizures using wearable movement sensor and artificial neural network

Larsen,

Johansen,

Beniczky

2024

Epilepsia

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Although several validated wearable devices are available for detection of generalized tonic–clonic seizures, automated detection of tonic seizures is still a challenge. In this phase 1 study, we report development and validation of an artificial neural network (ANN) model for automated detection of tonic seizures with visible clinical manifestation using a wearable wristband movement sensor (accelerometer and gyroscope). The dataset prospectively recorded for this study included 70 tonic seizures from 15 patients (seven males, age 3–46 years, median = 19 years). We trained an ANN model to detect tonic seizures. The independent test dataset comprised nocturnal recordings, including 10 tonic seizures from three patients and additional (distractor) data from three subjects without seizures. The ANN model detected nocturnal tonic seizures with visible clinical manifestation with a sensitivity of 100% (95% confidence interval = 69%–100%) and with an average false alarm rate of .16/night. The mean detection latency was 14.1 s (median = 10 s), with a maximum of 47 s. These data suggest that nocturnal tonic seizures can be reliably detected with movement sensors using ANN. Large‐scale, multicenter prospective (phase 3) trials are needed to provide compelling evidence for the clinical utility of this device and detection algorithm.

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Wearable detection of tonic seizures in childhood epilepsy: An exploratory cohort study

Cited by 3 publications

References 35 publications

Wearable biosensors for pediatric hospitals: a scoping review

Wearable biosensors for pediatric hospitals: a scoping review

Ambulatory seizure detection

Automated detection of tonic seizures using wearable movement sensor and artificial neural network

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