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1. Epileptic seizure forecasting with long short-term memory (LSTM) neural networks

Author

Payne, Daniel E., Chambers, Jordan D., Burkitt, Anthony, Cook, Mark J., Kuhlman, Levin, Freestone, Dean R., and Grayden, David B.

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

Objective: Forecasting epileptic seizures can reduce uncertainty for patients and allow preventative actions. While many models can predict the occurrence of seizures from features of the EEG, few models incorporate changes in features over time. Long Short-Term Memory (LSTM) neural networks are a machine learning architecture that can display temporal dynamics due to the recurrent connections. In this paper, we used LSTMs to monitor changes in EEG features over time to improve the accuracy of seizure forecasts and to alter the time window of the forecast. Methods: Long-term intracranial EEG recordings from eight patients from the NeuroVista dataset were used. A Fourier transform of 1-minute segments of EEG was fed into a Convolutional Neural Network (CNN). The outputs from the CNN were input to three different LSTM models at different time intervals: 1 minute, 1 hour and 1 day. The LSTM model outputs were used to predict seizure onset within a time window. The prediction and start of the time window were separated by the same length of time as the window. Window sizes tested included 2, 4, 10, 20 and 40 minutes. Results and Conclusion: Our model forecast seizure onsets well above a random predictor. Compared to other models using the same dataset, our model performed better for some patients and worse for others. Monitoring the change in EEG features over time allowed our model to produce good results over a range of different window sizes, which is an improvement on previous models and raises the possibility of altering the forecast to meet individual patient needs. Furthermore, a window size of 40 minutes provides a potential intervention time of 40 minutes, which is the first time an intervention time of more than 5 minutes have been forecast using long-term EEG recordings., Comment: Currently submitted at Journal of Neural Engineering. 26 pages and 6 Figures

Published
2023

8. Seizure likelihood varies with day-to-day variations in sleep duration in patients with refractory focal epilepsy: A longitudinal electroencephalography investigation

Author

Dell, Katrina L., Payne, Daniel E., Kremen, Vaclav, Maturana, Matias I., Gerla, Vaclav, Nejedly, Petr, Worrell, Gregory A., Lenka, Lhotska, Mivalt, Filip, Boston, Raymond C., Brinkmann, Benjamin H., D'Souza, Wendyl, Burkitt, Anthony N., Grayden, David B., Kuhlmann, Levin, Freestone, Dean R., and Cook, Mark J.

Published
2021
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10. Pro-ictal EEG scheduling improves the yield of epilepsy monitoring: Validating the use of multiday seizure cycles to optimize video-EEG timing

Author

Naim-Feil, Jodie, primary, Stirling, Rachel E, additional, Karoly, Philippa J, additional, Payne, Daniel, additional, Winterling, Nicholas, additional, Eden, Dominique, additional, Cook, Mark J, additional, Grayden, David B, additional, Maturana, Matias, additional, Freestone, Dean R, additional, and Nurse, Ewan S, additional

Published
2023
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16. Seizure forecasting using minimally invasive, ultra‐long‐term subcutaneous EEG: Generalizable cross‐patient models.

Author

Pal Attia, Tal, Viana, Pedro F., Nasseri, Mona, Duun‐Henriksen, Jonas, Biondi, Andrea, Winston, Joel S., P. Martins, Isabel, Nurse, Ewan S., Dümpelmann, Matthias, Worrell, Gregory A., Schulze‐Bonhage, Andreas, Freestone, Dean R., Kjaer, Troels W., Brinkmann, Benjamin H., and Richardson, Mark P.

Subjects
RECURRENT neural networks, ARTIFICIAL neural networks, ELECTROENCEPHALOGRAPHY, SEIZURES (Medicine), FORECASTING
Abstract

This study describes a generalized cross‐patient seizure‐forecasting approach using recurrent neural networks with ultra‐long‐term subcutaneous EEG (sqEEG) recordings. Data from six patients diagnosed with refractory epilepsy and monitored with an sqEEG device were used to develop a generalized algorithm for seizure forecasting using long short‐term memory (LSTM) deep‐learning classifiers. Electrographic seizures were identified by a board‐certified epileptologist. One‐minute data segments were labeled as preictal or interictal based on their relationship to confirmed seizures. Data were separated into training and testing data sets, and to compensate for the unbalanced data ratio in training, noise‐added copies of preictal data segments were generated to expand the training data set. The mean and standard deviation (SD) of the training data were used to normalize all data, preserving the pseudo‐prospective nature of the analysis. Different architecture classifiers were trained and tested using a leave‐one‐patient‐out cross‐validation method, and the area under the receiver‐operating characteristic (ROC) curve (AUC) was used to evaluate the performance classifiers. The importance of each input signal was evaluated using a leave‐one‐signal‐out method with repeated training and testing for each classifier. Cross‐patient classifiers achieved performance significantly better than chance in four of the six patients and an overall mean AUC of 0.602 ± 0.126 (mean ± SD). A time in warning of 37.386% ± 5.006% (mean ± std) and sensitivity of 0.691 ± 0.068 (mean ± std) were observed for patients with better than chance results. Analysis of input channels showed a significant contribution (p <.05) by the Fourier transform of signals channels to overall classifier performance. The relative contribution of input signals varied among patients and architectures, suggesting that the inclusion of all signals contributes to robustness in a cross‐patient classifier. These early results show that it is possible to forecast seizures training with data from different patients using two‐channel ultra‐long‐term sqEEG. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Seizure forecasting using minimally invasive, ultra‐long‐term subcutaneous electroencephalography: Individualized intrapatient models.

Author

Viana, Pedro F., Pal Attia, Tal, Nasseri, Mona, Duun‐Henriksen, Jonas, Biondi, Andrea, Winston, Joel S., Pavão Martins, Isabel, Nurse, Ewan S., Dümpelmann, Matthias, Schulze‐Bonhage, Andreas, Freestone, Dean R., Kjaer, Troels W., Richardson, Mark P., and Brinkmann, Benjamin H.

Subjects
RECEIVER operating characteristic curves, SEIZURES (Medicine), PARTIAL epilepsy, BRAIN-computer interfaces, ELECTROENCEPHALOGRAPHY, FORECASTING
Abstract

Objective: One of the most disabling aspects of living with chronic epilepsy is the unpredictability of seizures. Cumulative research in the past decades has advanced our understanding of the dynamics of seizure risk. Technological advances have recently made it possible to record pertinent biological signals, including electroencephalogram (EEG), continuously. We aimed to assess whether patient‐specific seizure forecasting is possible using remote, minimally invasive ultra‐long‐term subcutaneous EEG. Methods: We analyzed a two‐center cohort of ultra‐long‐term subcutaneous EEG recordings, including six patients with drug‐resistant focal epilepsy monitored for 46–230 days with median 18 h/day of recorded data, totaling >11 000 h of EEG. Total electrographic seizures identified by visual review ranged from 12 to 36 per patient. Three candidate subject‐specific long short‐term memory network deep learning classifiers were trained offline and pseudoprospectively on preictal (1 h before) and interictal (>1 day from seizures) EEG segments. Performance was assessed relative to a random predictor. Periodicity of the final forecasts was also investigated with autocorrelation. Results: Depending on each architecture, significant forecasting performance was achieved in three to five of six patients, with overall mean area under the receiver operating characteristic curve of.65–.74. Significant forecasts showed sensitivity ranging from 64% to 80% and time in warning from 10.9% to 44.4%. Overall, the output of the forecasts closely followed patient‐specific circadian patterns of seizure occurrence. Significance: This study demonstrates proof‐of‐principle for the possibility of subject‐specific seizure forecasting using a minimally invasive subcutaneous EEG device capable of ultra‐long‐term at‐home recordings. These results are encouraging for the development of a prospective seizure forecasting trial with minimally invasive EEG. [ABSTRACT FROM AUTHOR]

Published
2023
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18. A Transfer Learning-based Model for Individualized Clustered Seizure Prediction Using Intracranial EEG

Author

Cao, Yurui, primary, Saboo, Krishnakant V., additional, Kremen, Vaclav, additional, Sladky, Vladimir, additional, Gregg, Nicholas M., additional, Arnold, Paul M., additional, Pappu, Suguna, additional, Karoly, Philippa J., additional, Freestone, Dean R., additional, Cook, Mark J., additional, Worrell, Gregory A., additional, and Iyer, Ravishankar K., additional

Published
2023
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20. Seizure occurrence is linked to multiday cycles in diverse physiological signals

Author

Gregg, Nicholas M., primary, Attia, Tal Pal, additional, Nasseri, Mona, additional, Joseph, Boney, additional, Karoly, Philippa, additional, Cui, Jie, additional, Stirling, Rachel E., additional, Viana, Pedro F., additional, Richner, Thomas J., additional, Nurse, Ewan S., additional, Schulze‐Bonhage, Andreas, additional, Cook, Mark J., additional, Worrell, Gregory A., additional, Richardson, Mark P., additional, Freestone, Dean R., additional, and Brinkmann, Benjamin H., additional

Published
2023
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21. Seizure forecasting using minimally invasive, ultra-long-term subcutaneous electroencephalography:Individualized intrapatient models

Author

Viana, Pedro F., Pal Attia, Tal, Nasseri, Mona, Duun-Henriksen, Jonas, Biondi, Andrea, Winston, Joel S., Pavão Martins, Isabel, Nurse, Ewan S., Dümpelmann, Matthias, Schulze-Bonhage, Andreas, Freestone, Dean R., Kjaer, Troels W., Richardson, Mark P., Brinkmann, Benjamin H., Viana, Pedro F., Pal Attia, Tal, Nasseri, Mona, Duun-Henriksen, Jonas, Biondi, Andrea, Winston, Joel S., Pavão Martins, Isabel, Nurse, Ewan S., Dümpelmann, Matthias, Schulze-Bonhage, Andreas, Freestone, Dean R., Kjaer, Troels W., Richardson, Mark P., and Brinkmann, Benjamin H.

Abstract

Objective: One of the most disabling aspects of living with chronic epilepsy is the unpredictability of seizures. Cumulative research in the past decades has advanced our understanding of the dynamics of seizure risk. Technological advances have recently made it possible to record pertinent biological signals, including electroencephalogram (EEG), continuously. We aimed to assess whether patient-specific seizure forecasting is possible using remote, minimally invasive ultra-long-term subcutaneous EEG. Methods: We analyzed a two-center cohort of ultra-long-term subcutaneous EEG recordings, including six patients with drug-resistant focal epilepsy monitored for 46–230 days with median 18 h/day of recorded data, totaling >11 000 h of EEG. Total electrographic seizures identified by visual review ranged from 12 to 36 per patient. Three candidate subject-specific long short-term memory network deep learning classifiers were trained offline and pseudoprospectively on preictal (1 h before) and interictal (>1 day from seizures) EEG segments. Performance was assessed relative to a random predictor. Periodicity of the final forecasts was also investigated with autocorrelation. Results: Depending on each architecture, significant forecasting performance was achieved in three to five of six patients, with overall mean area under the receiver operating characteristic curve of.65–.74. Significant forecasts showed sensitivity ranging from 64% to 80% and time in warning from 10.9% to 44.4%. Overall, the output of the forecasts closely followed patient-specific circadian patterns of seizure occurrence. Significance: This study demonstrates proof-of-principle for the possibility of subject-specific seizure forecasting using a minimally invasive subcutaneous EEG device capable of ultra-long-term at-home recordings. These results are encouraging for the development of a prospective seizure forecasting trial with minimally invasive EEG.

Published
2023

22. Seizure forecasting using minimally invasive, ultra-long-term subcutaneous EEG:Generalizable cross-patient models

Author

Pal Attia, Tal, Viana, Pedro F., Nasseri, Mona, Duun-Henriksen, Jonas, Biondi, Andrea, Winston, Joel S., P. Martins, Isabel, Nurse, Ewan S., Dümpelmann, Matthias, Worrell, Gregory A., Schulze-Bonhage, Andreas, Freestone, Dean R., Kjaer, Troels W., Brinkmann, Benjamin H., Richardson, Mark P., Pal Attia, Tal, Viana, Pedro F., Nasseri, Mona, Duun-Henriksen, Jonas, Biondi, Andrea, Winston, Joel S., P. Martins, Isabel, Nurse, Ewan S., Dümpelmann, Matthias, Worrell, Gregory A., Schulze-Bonhage, Andreas, Freestone, Dean R., Kjaer, Troels W., Brinkmann, Benjamin H., and Richardson, Mark P.

Abstract

This study describes a generalized cross-patient seizure-forecasting approach using recurrent neural networks with ultra-long-term subcutaneous EEG (sqEEG) recordings. Data from six patients diagnosed with refractory epilepsy and monitored with an sqEEG device were used to develop a generalized algorithm for seizure forecasting using long short-term memory (LSTM) deep-learning classifiers. Electrographic seizures were identified by a board-certified epileptologist. One-minute data segments were labeled as preictal or interictal based on their relationship to confirmed seizures. Data were separated into training and testing data sets, and to compensate for the unbalanced data ratio in training, noise-added copies of preictal data segments were generated to expand the training data set. The mean and standard deviation (SD) of the training data were used to normalize all data, preserving the pseudo-prospective nature of the analysis. Different architecture classifiers were trained and tested using a leave-one-patient-out cross-validation method, and the area under the receiver-operating characteristic (ROC) curve (AUC) was used to evaluate the performance classifiers. The importance of each input signal was evaluated using a leave-one-signal-out method with repeated training and testing for each classifier. Cross-patient classifiers achieved performance significantly better than chance in four of the six patients and an overall mean AUC of 0.602 ± 0.126 (mean ± SD). A time in warning of 37.386% ± 5.006% (mean ± std) and sensitivity of 0.691 ± 0.068 (mean ± std) were observed for patients with better than chance results. Analysis of input channels showed a significant contribution (p <.05) by the Fourier transform of signals channels to overall classifier performance. The relative contribution of input signals varied among patients and architectures, suggesting that the inclusion of all signals contributes to robustness in a cross-patient classifier. These early r

Published
2023

26. WE-120. Seizure forecasting and detection with wearable devices and subcutaneous EEG - A practical seizure gauge

Author

Brinkmann, Benjamin, primary, Nurse, Ewan, additional, Nasseri, Mona, additional, Viana, Pedro, additional, Karoly, Philippa, additional, Pal Attia, Tal, additional, Gregg, Nicholas, additional, Joseph, Boney, additional, Grzeskowiak, Caitlin, additional, Dumpelmann, Matthias, additional, Cook, Mark, additional, Worrell, Gregory, additional, Schulz-Bonhage, Andreas, additional, Freestone, Dean R., additional, and Richardson, Mark P., additional

Published
2022
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27. Seizure Forecasting with Non-invasive and Minimally Invasive Mobile Devices: The Epilepsy Foundation’s My Seizure Gauge Study

Author

Viana, Pedro F., primary, Nurse, Ewan S., additional, Nasseri, Mona, additional, Karoly, Phillippa, additional, Attia, Tal Pal, additional, Gregg, Nicholas, additional, Joseph, Boney, additional, Grzeskowiak, Caitlin, additional, Dümpelmann, Matthias, additional, Cook, Mark, additional, Worrell, Gregory A., additional, Schulze-Bonhage, Andreas, additional, Freestone, Dean R., additional, Richardson, Mark P., additional, and Brinkmann, Benjamin H., additional

Published
2022
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28. Multimodal wearable sensors inform cycles of seizure risk

Author

Gregg, Nicholas M., primary, Pal Attia, Tal, additional, Nasseri, Mona, additional, Joseph, Boney, additional, Karoly, Philippa J., additional, Cui, Jie, additional, Stirling, Rachel E., additional, Viana, Pedro F., additional, Richner, Thomas J., additional, Nurse, Ewan S., additional, Schulze-Bonhage, Andreas, additional, Cook, Mark J., additional, Worrell, Gregory A., additional, Richardson, Mark P., additional, Freestone, Dean R., additional, and Brinkmann, Benjamin H., additional

Published
2022
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31. Seizure forecasting using minimally invasive, ultra‐long‐term subcutaneous EEG: Generalizable cross‐patient models

Author

Pal Attia, Tal, primary, Viana, Pedro F., additional, Nasseri, Mona, additional, Duun‐Henriksen, Jonas, additional, Biondi, Andrea, additional, Winston, Joel S., additional, P. Martins, Isabel, additional, Nurse, Ewan S., additional, Dümpelmann, Matthias, additional, Worrell, Gregory A., additional, Schulze‐Bonhage, Andreas, additional, Freestone, Dean R., additional, Kjaer, Troels W., additional, Brinkmann, Benjamin H., additional, and Richardson, Mark P., additional

Published
2022
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32. Seizure forecasting using minimally invasive, ultra‐long‐term subcutaneous electroencephalography: Individualized intrapatient models

Author

Viana, Pedro F., primary, Pal Attia, Tal, additional, Nasseri, Mona, additional, Duun‐Henriksen, Jonas, additional, Biondi, Andrea, additional, Winston, Joel S., additional, Pavão Martins, Isabel, additional, Nurse, Ewan S., additional, Dümpelmann, Matthias, additional, Schulze‐Bonhage, Andreas, additional, Freestone, Dean R., additional, Kjaer, Troels W., additional, Richardson, Mark P., additional, and Brinkmann, Benjamin H., additional

Published
2022
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33. Ambient air pollution and epileptic seizures: a panel study in Australia

Author

Chen, Zhuying, primary, Yu, Wenhua, additional, Xu, Rongbin, additional, Karoly, Philippa J., additional, Maturana, Matias I., additional, Payne, Daniel E., additional, Li, Lyra, additional, Nurse, Ewan S., additional, Freestone, Dean R., additional, Li, Shanshan, additional, Burkitt, Anthony N., additional, Cook, Mark J., additional, Guo, Yuming, additional, and Grayden, David B., additional

Published
2022
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40. Multiday cycles of heart rate are associated with seizure likelihood: An observational cohort study

Author

Karoly, Philippa J., primary, Stirling, Rachel E., additional, Freestone, Dean R., additional, Nurse, Ewan S., additional, Maturana, Matias I., additional, Halliday, Amy J., additional, Neal, Andrew, additional, Gregg, Nicholas M., additional, Brinkmann, Benjamin H., additional, Richardson, Mark P., additional, La Gerche, Andre, additional, Grayden, David B., additional, D'Souza, Wendyl, additional, and Cook, Mark J., additional

Published
2021
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41. Seizure Forecasting Using a Novel Sub-Scalp Ultra-Long Term EEG Monitoring System

Author

Stirling, Rachel E., primary, Maturana, Matias I., additional, Karoly, Philippa J., additional, Nurse, Ewan S., additional, McCutcheon, Kate, additional, Grayden, David B., additional, Ringo, Steven G., additional, Heasman, John M., additional, Hoare, Rohan J., additional, Lai, Alan, additional, D'Souza, Wendyl, additional, Seneviratne, Udaya, additional, Seiderer, Linda, additional, McLean, Karen J., additional, Bulluss, Kristian J., additional, Murphy, Michael, additional, Brinkmann, Benjamin H., additional, Richardson, Mark P., additional, Freestone, Dean R., additional, and Cook, Mark J., additional

Published
2021
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42. Epileptic Seizure Cycles: Six Common Clinical Misconceptions

Author

Karoly, Philippa J., primary, Freestone, Dean R., additional, Eden, Dominique, additional, Stirling, Rachel E., additional, Li, Lyra, additional, Vianna, Pedro F., additional, Maturana, Matias I., additional, D'Souza, Wendyl J., additional, Cook, Mark J., additional, Richardson, Mark P., additional, Brinkmann, Benjamin H., additional, and Nurse, Ewan S., additional

Published
2021
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43. Forecasting Seizure Likelihood With Wearable Technology

Author

Stirling, Rachel E., primary, Grayden, David B., additional, D'Souza, Wendyl, additional, Cook, Mark J., additional, Nurse, Ewan, additional, Freestone, Dean R., additional, Payne, Daniel E., additional, Brinkmann, Benjamin H., additional, Pal Attia, Tal, additional, Viana, Pedro F., additional, Richardson, Mark P., additional, and Karoly, Philippa J., additional

Published
2021
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45. Signal quality and power spectrum analysis of remote ultra long‐term subcutaneous EEG

Author

Viana, Pedro F., primary, Remvig, Line S., additional, Duun‐Henriksen, Jonas, additional, Glasstetter, Martin, additional, Dümpelmann, Matthias, additional, Nurse, Ewan S., additional, Martins, Isabel P., additional, Schulze‐Bonhage, Andreas, additional, Freestone, Dean R., additional, Brinkmann, Benjamin H., additional, Kjaer, Troels W., additional, and Richardson, Mark P., additional

Published
2021
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46. Signal quality and power spectrum analysis of remote ultra long-term subcutaneous EEG

Author

Viana, Pedro F., Remvig, Line S., Duun-Henriksen, Jonas, Glasstetter, Martin, Dümpelmann, Matthias, Nurse, Ewan S., Martins, Isabel P., Schulze-Bonhage, Andreas, Freestone, Dean R., Brinkmann, Benjamin H., Kjaer, Troels W., Richardson, Mark P., Viana, Pedro F., Remvig, Line S., Duun-Henriksen, Jonas, Glasstetter, Martin, Dümpelmann, Matthias, Nurse, Ewan S., Martins, Isabel P., Schulze-Bonhage, Andreas, Freestone, Dean R., Brinkmann, Benjamin H., Kjaer, Troels W., and Richardson, Mark P.

Abstract

Objective: Ultra long-term subcutaneous electroencephalography (sqEEG) monitoring is a new modality with great potential for both health and disease, including epileptic seizure detection and forecasting. However, little is known about the long-term quality and consistency of the sqEEG signal, which is the objective of this study. Methods: The largest multicenter cohort of sqEEG was analyzed, including 14 patients with epilepsy and 12 healthy subjects, implanted with a sqEEG device (24/7 EEG™ SubQ), and recorded from 23 to 230 days (median 42 days), with a median data capture rate of 75% (17.9 hours/day). Median power spectral density plots of each subject were examined for physiological peaks, including at diurnal and nocturnal periods. Long-term temporal trends in signal impedance and power spectral features were investigated with subject-specific linear regression models and group-level linear mixed-effects models. Results: sqEEG spectrograms showed an approximate 1/f power distribution. Diurnal peaks in the alpha range (8-13Hz) and nocturnal peaks in the sigma range (12-16Hz) were seen in the majority of subjects. Signal impedances remained low, and frequency band powers were highly stable throughout the recording periods. Significance: The spectral characteristics of minimally invasive, ultra long-term sqEEG are similar to scalp EEG, whereas the signal is highly stationary. Our findings reinforce the suitability of this system for chronic implantation on diverse clinical applications, from seizure detection and forecasting to brain-computer interfaces.

Published
2021

48. Seizure likelihood varies with day-to-day variations in sleep duration in patients with refractory focal epilepsy: A longitudinal EEG investigation

Author

Dell, Katrina L., primary, Payne, Daniel E., additional, Kremen, Vaclav, additional, Maturana, Matias I., additional, Gerla, Vaclav, additional, Nejedly, Petr, additional, Worrell, Gregory A., additional, Lenka, Lhotska, additional, Mivalt, Filip, additional, Boston, Raymond C., additional, Brinkmann, Benjamin H., additional, D’Souza, Wendyl, additional, Burkitt, Anthony N., additional, Grayden, David B., additional, Kuhlmann, Levin, additional, Freestone, Dean R., additional, and Cook, Mark J., additional

Published
2021
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49. Non-invasive wearable seizure detection using long–short-term memory networks with transfer learning

Author

Nasseri, Mona, primary, Pal Attia, Tal, additional, Joseph, Boney, additional, Gregg, Nicholas M, additional, Nurse, Ewan S, additional, Viana, Pedro F, additional, Schulze-Bonhage, Andreas, additional, Dümpelmann, Matthias, additional, Worrell, Gregory, additional, Freestone, Dean R, additional, Richardson, Mark P, additional, and Brinkmann, Benjamin H, additional

Published
2021
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