Clinical Validation of the Champagne Algorithm for Epilepsy Spike Localization
Magnetoencephalography (MEG) is increasingly used for presurgical planning in people with medically refractory focal epilepsy. Localization of interictal epileptiform activity, a surrogate for the seizure onset zone whose removal may prevent seizures, is challenging and depends on the use of multipl...
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| Published in | Frontiers in Human Neuroscience Vol. 15; p. 642819 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media SA
20.05.2021
Frontiers Research Foundation Frontiers Media S.A |
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| Online Access | Get full text |
| ISSN | 1662-5161 1662-5161 |
| DOI | 10.3389/fnhum.2021.642819 |
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| Abstract | Magnetoencephalography (MEG) is increasingly used for presurgical planning in people with medically refractory focal epilepsy. Localization of interictal epileptiform activity, a surrogate for the seizure onset zone whose removal may prevent seizures, is challenging and depends on the use of multiple complementary techniques. Accurate and reliable localization of epileptiform activity from spontaneous MEG data has been an elusive goal. One approach toward this goal is to use a novel Bayesian inference algorithm—the Champagne algorithm with noise learning—which has shown tremendous success in source reconstruction, especially for focal brain sources. In this study, we localized sources of manually identified MEG spikes using the Champagne algorithm in a cohort of 16 patients with medically refractory epilepsy collected in two consecutive series. To evaluate the reliability of this approach, we compared the performance to equivalent current dipole (ECD) modeling, a conventional source localization technique that is commonly used in clinical practice. Results suggest that Champagne may be a robust, automated, alternative to manual parametric dipole fitting methods for localization of interictal MEG spikes, in addition to its previously described clinical and research applications. |
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| AbstractList | Magnetoencephalography (MEG) is increasingly used for presurgical planning in people with medically refractory focal epilepsy. Localization of interictal epileptiform activity, a surrogate for the seizure onset zone whose removal may prevent seizures, is challenging and depends on the use of multiple complementary techniques. Accurate and reliable localization of epileptiform activity from spontaneous MEG data has been an elusive goal. One approach toward this goal is to use a novel Bayesian inference algorithm—the Champagne algorithm with noise learning—which has shown tremendous success in source reconstruction, especially for focal brain sources. In this study, we localized sources of manually identified MEG spikes using the Champagne algorithm in a cohort of 16 patients with medically refractory epilepsy collected in two consecutive series. To evaluate the reliability of this approach, we compared the performance to equivalent current dipole (ECD) modeling, a conventional source localization technique that is commonly used in clinical practice. Results suggest that Champagne may be a robust, automated, alternative to manual parametric dipole fitting methods for localization of interictal MEG spikes, in addition to its previously described clinical and research applications. Magnetoencephalography (MEG) is increasingly used for presurgical planning in people with medically refractory focal epilepsy. Localization of interictal epileptiform activity, a surrogate for the seizure onset zone whose removal may prevent seizures, is both subjective and challenging. Automatic localization of epileptiform activity from spontaneous MEG data has been an elusive goal. Recently, we introduced the Champagne algorithm with noise learning, a novel Bayesian inference algorithm that has shown tremendous success in MEG source reconstruction, especially for focal brain sources. In this study, we localized the sources of MEG interictal epileptiform activity using the Champagne algorithm and tested the usefulness of these reconstructions for determining the epileptogenic zone in a cohort of 14 presurgical patients collected in two consecutive series. The reliability of this approach was compared to the performance of equivalent current dipole (ECD) modeling, a conventional source localization technique that is used in clinical practice. Results suggest that Champagne may be a robust, automated, alternative to manual parametric dipole fitting methods for epileptiform activity localization and other clinical applications of MEG. Magnetoencephalography (MEG) is increasingly used for presurgical planning in people with medically refractory focal epilepsy. Localization of interictal epileptiform activity, a surrogate for the seizure onset zone whose removal may prevent seizures, is challenging and depends on the use of multiple complementary techniques. Accurate and reliable localization of epileptiform activity from spontaneous MEG data has been an elusive goal. One approach toward this goal is to use a novel Bayesian inference algorithm-the Champagne algorithm with noise learning-which has shown tremendous success in source reconstruction, especially for focal brain sources. In this study, we localized sources of manually identified MEG spikes using the Champagne algorithm in a cohort of 16 patients with medically refractory epilepsy collected in two consecutive series. To evaluate the reliability of this approach, we compared the performance to equivalent current dipole (ECD) modeling, a conventional source localization technique that is commonly used in clinical practice. Results suggest that Champagne may be a robust, automated, alternative to manual parametric dipole fitting methods for localization of interictal MEG spikes, in addition to its previously described clinical and research applications.Magnetoencephalography (MEG) is increasingly used for presurgical planning in people with medically refractory focal epilepsy. Localization of interictal epileptiform activity, a surrogate for the seizure onset zone whose removal may prevent seizures, is challenging and depends on the use of multiple complementary techniques. Accurate and reliable localization of epileptiform activity from spontaneous MEG data has been an elusive goal. One approach toward this goal is to use a novel Bayesian inference algorithm-the Champagne algorithm with noise learning-which has shown tremendous success in source reconstruction, especially for focal brain sources. In this study, we localized sources of manually identified MEG spikes using the Champagne algorithm in a cohort of 16 patients with medically refractory epilepsy collected in two consecutive series. To evaluate the reliability of this approach, we compared the performance to equivalent current dipole (ECD) modeling, a conventional source localization technique that is commonly used in clinical practice. Results suggest that Champagne may be a robust, automated, alternative to manual parametric dipole fitting methods for localization of interictal MEG spikes, in addition to its previously described clinical and research applications. |
| Author | Heidi E. Kirsch Jessie Chen Kensuke Sekihara Srikantan S. Nagarajan Danielle Mizuiri Anne M. Findlay Chang Cai |
| AuthorAffiliation | 1 National Engineering Research Center for E-Learning, Central China Normal University , Wuhan , China 4 Signal Analysis Inc. , Hachioji , Japan 2 Department of Radiology and Biomedical Imaging, University of California, San Francisco , San Francisco, CA , United States 3 Department of Advanced Technology in Medicine, Tokyo Medical and Dental University , Tokyo , Japan 5 Department of Neurology, University of California, San Francisco , San Francisco, CA , United States |
| AuthorAffiliation_xml | – name: 2 Department of Radiology and Biomedical Imaging, University of California, San Francisco , San Francisco, CA , United States – name: 4 Signal Analysis Inc. , Hachioji , Japan – name: 1 National Engineering Research Center for E-Learning, Central China Normal University , Wuhan , China – name: 5 Department of Neurology, University of California, San Francisco , San Francisco, CA , United States – name: 3 Department of Advanced Technology in Medicine, Tokyo Medical and Dental University , Tokyo , Japan |
| Author_xml | – sequence: 1 givenname: Chang surname: Cai fullname: Cai, Chang – sequence: 2 givenname: Jessie surname: Chen fullname: Chen, Jessie – sequence: 3 givenname: Anne M. surname: Findlay fullname: Findlay, Anne M. – sequence: 4 givenname: Danielle surname: Mizuiri fullname: Mizuiri, Danielle – sequence: 5 givenname: Kensuke surname: Sekihara fullname: Sekihara, Kensuke – sequence: 6 givenname: Heidi E. surname: Kirsch fullname: Kirsch, Heidi E. – sequence: 7 givenname: Srikantan S. surname: Nagarajan fullname: Nagarajan, Srikantan S. |
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| Cites_doi | 10.1016/j.neuroimage.2020.117411 10.1097/WNP.0b013e3182272fed 10.1016/j.neuroimage.2009.06.083 10.1109/TMI.2019.2932290 10.1016/j.neuroimage.2011.12.027 10.1016/S1474-4422(14)70156-5 10.1111/j.1528-1167.2006.00901.x 10.1002/ana.20857 10.1684/epd.2020.1160 10.1111/j.0013-9580.2005.31404.x 10.1111/epi.13829 10.1002/hbm.23837 10.1007/s10548-020-00789-y 10.1097/01.nrl.0000126589.21840.a1 10.1038/s41582-019-0224-y 10.1111/j.1528-1167.2012.03629.x 10.1006/meth.2001.1238 10.4172/2324-9307.1000150 10.1016/S0140-6736(14)60456-6 10.1016/j.neuroimage.2018.07.056 10.1016/S1474-4422(17)30114-X |
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| Copyright | Copyright © 2021 Cai, Chen, Findlay, Mizuiri, Sekihara, Kirsch and Nagarajan. 2021. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. Copyright © 2021 Cai, Chen, Findlay, Mizuiri, Sekihara, Kirsch and Nagarajan. 2021 Cai, Chen, Findlay, Mizuiri, Sekihara, Kirsch and Nagarajan |
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| Keywords | epilepsy brain source imaging source imaging analysis source localization spike analysis brain source localization magnetoencephalography |
| Language | English |
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| References | Cai (B4) 2018; 183 Kobayashi (B8) 2005; 46 Wheless (B19) 2004; 10 (B21) 2005 Koster (B9) 2020; 22 Sekihara (B17) 2016; 5 Cai (B3) 2020; 225 Frauscher (B5) 2017; 58 Fujiwara (B6) 2012; 53 Moshé (B12) 2015; 385 Ryvlin (B16) 2014; 13 Luria (B11) 2020; 33 RamachandranNair (B15) 2007; 48 Owen (B13) 2012; 60 Knowlton (B7) 2006; 59 Vrba (B18) 2001; 25 Lamberink (B10) 2017; 16 Bagic (B1) 2011; 28 Cai (B2) 2019; 39 Pellegrino (B14) 2018; 39 Wipf (B20) 2010; 49 Zijlmans (B22) 2019; 15 |
| References_xml | – volume: 225 start-page: 117411 year: 2020 ident: B3 article-title: Robust estimation of noise for electromagnetic brain imaging with the champagne algorithm publication-title: Neuroimage doi: 10.1016/j.neuroimage.2020.117411 – volume: 28 start-page: 348 year: 2011 ident: B1 article-title: American clinical magnetoencephalography society clinical practice guideline 1: recording and analysis of spontaneous cerebral activity publication-title: J. Clin. Neurophysiol doi: 10.1097/WNP.0b013e3182272fed – volume: 49 start-page: 641 year: 2010 ident: B20 article-title: Robust bayesian estimation of the location, orientation, and time course of multiple correlated neural sources using MEG publication-title: Neuroimage doi: 10.1016/j.neuroimage.2009.06.083 – volume: 39 start-page: 567 year: 2019 ident: B2 article-title: Robust empirical bayesian reconstruction of distributed sources for electromagnetic brain imaging publication-title: IEEE Trans. Med. Imaging doi: 10.1109/TMI.2019.2932290 – volume: 60 start-page: 305 year: 2012 ident: B13 article-title: Performance evaluation of the Champagne source reconstruction algorithm on simulated and real M/EEG data publication-title: Neuroimage doi: 10.1016/j.neuroimage.2011.12.027 – volume: 13 start-page: 1114 year: 2014 ident: B16 article-title: Epilepsy surgery in children and adults publication-title: Lancet Neurol doi: 10.1016/S1474-4422(14)70156-5 – volume: 48 start-page: 149 year: 2007 ident: B15 article-title: Meg predicts outcome following surgery for intractable epilepsy in children with normal or nonfocal MRI findings publication-title: Epilepsia doi: 10.1111/j.1528-1167.2006.00901.x – volume: 59 start-page: 835 year: 2006 ident: B7 article-title: Magnetic source imaging versus intracranial electroencephalogram in epilepsy surgery: a prospective study publication-title: Ann. Neurol doi: 10.1002/ana.20857 – volume: 22 start-page: 264 year: 2020 ident: B9 article-title: Sensitivity of magnetoencephalography as a diagnostic tool for epilepsy: a prospective study publication-title: Epileptic Disord doi: 10.1684/epd.2020.1160 – volume: 46 start-page: 397 year: 2005 ident: B8 article-title: Dipole modeling of epileptic spikes can be accurate or misleading publication-title: Epilepsia doi: 10.1111/j.0013-9580.2005.31404.x – volume: 58 start-page: 1316 year: 2017 ident: B5 article-title: High-frequency oscillations: the state of clinical research publication-title: Epilepsia doi: 10.1111/epi.13829 – volume: 39 start-page: 218 year: 2018 ident: B14 article-title: Clinical yield of magnetoencephalography distributed source imaging in epilepsy: a comparison with equivalent current dipole method publication-title: Hum. Brain Mapp doi: 10.1002/hbm.23837 – volume: 33 start-page: 651 year: 2020 ident: B11 article-title: Towards the automatic localization of the irritative zone through magnetic source imaging publication-title: Brain Topogr doi: 10.1007/s10548-020-00789-y – volume: 10 start-page: 138 year: 2004 ident: B19 article-title: Magnetoencephalography (MEG) and magnetic source imaging (MSI) publication-title: Neurologist doi: 10.1097/01.nrl.0000126589.21840.a1 – volume: 15 start-page: 594 year: 2019 ident: B22 article-title: Changing concepts in presurgical assessment for epilepsy surgery publication-title: Nat. Rev. Neurol doi: 10.1038/s41582-019-0224-y – volume: 53 start-page: 1607 year: 2012 ident: B6 article-title: Resection of ictal high-frequency oscillations leads to favorable surgical outcome in pediatric epilepsy publication-title: Epilepsia doi: 10.1111/j.1528-1167.2012.03629.x – volume: 25 start-page: 249 year: 2001 ident: B18 article-title: Signal processing in magnetoencephalography publication-title: Methods doi: 10.1006/meth.2001.1238 – volume: 5 start-page: 3 year: 2016 ident: B17 article-title: Computing resolution for neuromagnetic imaging systems publication-title: J. Comput. Eng. Inf. Technol doi: 10.4172/2324-9307.1000150 – volume: 385 start-page: 884 year: 2015 ident: B12 article-title: Epilepsy: new advances publication-title: Lancet doi: 10.1016/S0140-6736(14)60456-6 – volume-title: Atlas: Epilepsy Care in the World year: 2005 ident: B21 – volume: 183 start-page: 698 year: 2018 ident: B4 article-title: Hierarchical multiscale bayesian algorithm for robust MEG/EEG source reconstruction publication-title: Neuroimage doi: 10.1016/j.neuroimage.2018.07.056 – volume: 16 start-page: 523 year: 2017 ident: B10 article-title: Individualised prediction model of seizure recurrence and long-term outcomes after withdrawal of antiepileptic drugs in seizure-free patients: a systematic review and individual participant data meta-analysis publication-title: Lancet Neurol doi: 10.1016/S1474-4422(17)30114-X |
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| Snippet | Magnetoencephalography (MEG) is increasingly used for presurgical planning in people with medically refractory focal epilepsy. Localization of interictal... |
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| SubjectTerms | 2.1 Biological and endogenous factors Aetiology Algorithms Bayesian analysis Biological psychology Biomedical and Clinical Sciences Biomedical Imaging Brain Disorders Brain research brain source imaging brain source localization Clinical Research Cognitive and computational psychology Cognitive Sciences Convulsions & seizures Epilepsy Experimental Psychology Human Neuroscience Localization Magnetic fields Magnetic resonance imaging Magnetoencephalography Neurodegenerative Neurological Neurosciences Neurosciences. Biological psychiatry. Neuropsychiatry Noise Performance evaluation Psychology RC321-571 Seizures source imaging analysis source localization spike analysis |
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| Title | Clinical Validation of the Champagne Algorithm for Epilepsy Spike Localization |
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