Combined EEG/MEG Can Outperform Single Modality EEG or MEG Source Reconstruction in Presurgical Epilepsy Diagnosis

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Abstract

We investigated two important means for improving source reconstruction in presurgical epilepsy diagnosis. The first investigation is about the optimal choice of the number of epileptic spikes in averaging to (1) sufficiently reduce the noise bias for an accurate determination of the center of gravity of the epileptic activity and (2) still get an estimation of the extent of the irritative zone. The second study focuses on the differences in single modality EEG (80-electrodes) or MEG (275-gradiometers) and especially on the benefits of combined EEG/MEG (EMEG) source analysis. Both investigations were validated with simultaneous stereo-EEG (sEEG) (167-contacts) and low-density EEG (ldEEG) (21-electrodes). To account for the different sensitivity profiles of EEG and MEG, we constructed a six-compartment finite element head model with anisotropic white matter conductivity, and calibrated the skull conductivity via somatosensory evoked responses. Our results show that, unlike single modality EEG or MEG, combined EMEG uses the complementary information of both modalities and thereby allows accurate source reconstructions also at early instants in time (epileptic spike onset), i.e., time points with low SNR, which are not yet subject to propagation and thus supposed to be closer to the origin of the epileptic activity. EMEG is furthermore able to reveal the propagation pathway at later time points in agreement with sEEG, while EEG or MEG alone reconstructed only parts of it. Subaveraging provides important and accurate information about both the center of gravity and the extent of the epileptogenic tissue that neither single nor grand-averaged spike localizations can supply.

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Realistic conductivity geometry model of the human head for interpretation of neuromagnetic data.

M.S. Hämäläinen, J Sarvas (1989)

In this paper, the computational and practical aspects of a realistically-shaped multilayer model for the conductivity geometry of the human head are discussed. A novel way to handle the numerical difficulties caused by the presence of the poorly conducting skull is presented. Using our method, both the potential on the surface of the head and the magnetic field outside the head can be computed accurately. The procedure was tested with the multilayer sphere model, for which analytical expressions are available. The method is then applied to a realistically-shaped head model, and it is numerically shown that for the computation of B, produced by cerebral current sources, it is sufficient to consider a brain-shaped homogeneous conductor only since the secondary currents on the outer interfaces give only a negligible contribution to the magnetic field outside the head. Comparisons with the sphere model are also included to pinpoint areas where the homogeneous conductor model provides essential improvements in the calculation of the magnetic field outside the head.

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Basic mathematical and electromagnetic concepts of the biomagnetic inverse problem.

J Sarvas (1986)

In this paper basic mathematical and physical concepts of the biomagnetic inverse problem are reviewed with some new approaches. The forward problem is discussed for both homogeneous and inhomogeneous media. Geselowitz' formulae and a surface integral equation are presented to handle a piecewise homogeneous conductor. The special cases of a spherically symmetric conductor and a horizontally layered medium are discussed in detail. The non-uniqueness of the solution of the magnetic inverse problem is discussed and the difficulty caused by the contribution of the electric potential to the magnetic field outside the conductor is studied. As practical methods of solving the inverse problem, a weighted least-squares search with confidence limits and the method of minimum norm estimate are discussed.

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Electroencephalographic source imaging: a prospective study of 152 operated epileptic patients

Verena Brodbeck, Laurent Spinelli, Agustina M. Lascano … (2011)

Electroencephalography is mandatory to determine the epilepsy syndrome. However, for the precise localization of the irritative zone in patients with focal epilepsy, costly and sometimes cumbersome imaging techniques are used. Recent small studies using electric source imaging suggest that electroencephalography itself could be used to localize the focus. However, a large prospective validation study is missing. This study presents a cohort of 152 operated patients where electric source imaging was applied as part of the pre-surgical work-up allowing a comparison with the results from other methods. Patients (n = 152) with >1 year postoperative follow-up were studied prospectively. The sensitivity and specificity of each imaging method was defined by comparing the localization of the source maximum with the resected zone and surgical outcome. Electric source imaging had a sensitivity of 84% and a specificity of 88% if the electroencephalogram was recorded with a large number of electrodes (128–256 channels) and the individual magnetic resonance image was used as head model. These values compared favourably with those of structural magnetic resonance imaging (76% sensitivity, 53% specificity), positron emission tomography (69% sensitivity, 44% specificity) and ictal/interictal single-photon emission-computed tomography (58% sensitivity, 47% specificity). The sensitivity and specificity of electric source imaging decreased to 57% and 59%, respectively, with low number of electrodes (<32 channels) and a template head model. This study demonstrated the validity and clinical utility of electric source imaging in a large prospective study. Given the low cost and high flexibility of electroencephalographic systems even with high channel counts, we conclude that electric source imaging is a highly valuable tool in pre-surgical epilepsy evaluation.

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Author and article information

Contributors

Daniele Marinazzo: Role: Academic Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 11 March 2015

Publication date Collection: 2015

Volume: 10

Issue: 3

Electronic Location Identifier: e0118753

Affiliations

[1 ]Institute for Biomagnetism and Biosignalanalysis, Westfälische Wilhelms-Universität Münster, Münster, Germany

[2 ]Institute for Biomedical Engineering and Informatics, Technische Universität Ilmenau, Ilmenau, Germany

[3 ]Epilepsy Center, Universitätsklinikum Freiburg, Freiburg im Breisgau, Germany

[4 ]Department of Neurology, Klinikum Osnabrück, Osnabrück, Germany

[5 ]Department of Clinical Radiology, Universitätsklinikum Münster, Münster, Germany

[6 ]Ruhr-Epileptology Department of Neurology, Universitätsklinikum Knappschaftskrankenhaus Bochum, Bochum, Germany

[7 ]Epilepsy Center, Department of Neurology, Universitätsklinikum Erlangen, Erlangen, Germany

Universiteit Gent, BELGIUM

Author notes

Competing Interests: The authors have declared that no competing interests exist.

Conceived and designed the experiments: ÜA MD HK JW CK JH SR HS CHW. Performed the experiments: ÜA MD MH HK. Analyzed the data: ÜA JV MD PK CK SR CHW. Contributed reagents/materials/analysis tools: ÜA JV MD CHW. Wrote the paper: ÜA JV MD PK HK MH JW CK JH SR HS CHW.

* E-mail: umitaydin@ 123456ieee.org

Article

Publisher ID: PONE-D-14-41092

DOI: 10.1371/journal.pone.0118753

PMC ID: 4356563

PubMed ID: 25761059

SO-VID: 525598ad-8606-4e24-b69e-e60c54af7110

License:

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited

History

Date received : 12 September 2014

Date accepted : 6 January 2015

Page count

Figures: 9, Tables: 0, Pages: 29

Funding

This work was supported by DFG (Deutsche Forschungsgemeinschaft) project WO1425/2-1 and the Priority Program 1665 of the DFG (WO1425/5-1) for ÜA, JV and CHW; DFG project STE380/14-1 for SR and HS; and by the Medical Faculty of Ruhr University Bochum, by a FoRUM research grant (K062-11) for MH and JW. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

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Combined EEG/MEG Can Outperform Single Modality EEG or MEG Source Reconstruction in Presurgical Epilepsy Diagnosis

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Most cited references 65

Realistic conductivity geometry model of the human head for interpretation of neuromagnetic data.

Basic mathematical and electromagnetic concepts of the biomagnetic inverse problem.

Electroencephalographic source imaging: a prospective study of 152 operated epileptic patients

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