Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm

Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm

This paper proposed a prewhitening invariance of noise space (PW-INN) as a new magnetoencephalography (MEG) source analysis method, which is particularly suitable for localizing closely spaced and highly correlated cortical sources under real MEG noise. Conventional source localization methods, such...

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Main Authors: Zhang, Junpeng, Cui, Yuan, Deng, Lihua, He, Ling, Zhang, Junran, Zhang, Jing, Zhou, Qun, Liu, Qi, Zhang, Zhiguo
Other Authors: School of Electrical and Electronic Engineering
Format: Article
Language:English
Published: 2016
Subjects:
electroencephalogram
magnetoencephalography
Online Access:https://hdl.handle.net/10356/82657
http://hdl.handle.net/10220/40222
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-826572022-02-16T16:27:16Z Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm Zhang, Junpeng Cui, Yuan Deng, Lihua He, Ling Zhang, Junran Zhang, Jing Zhou, Qun Liu, Qi Zhang, Zhiguo School of Electrical and Electronic Engineering electroencephalogram magnetoencephalography This paper proposed a prewhitening invariance of noise space (PW-INN) as a new magnetoencephalography (MEG) source analysis method, which is particularly suitable for localizing closely spaced and highly correlated cortical sources under real MEG noise. Conventional source localization methods, such as sLORETA and beamformer, cannot distinguish closely spaced cortical sources, especially under strong intersource correlation. Our previous work proposed an invariance of noise space (INN) method to resolve closely spaced sources, but its performance is seriously degraded under correlated noise between MEG sensors. The proposed PW-INN method largely mitigates the adverse influence of correlated MEG noise by projecting MEG data to a new space defined by the orthogonal complement of dominant eigenvectors of correlated MEG noise. Simulation results showed that PW-INN is superior to INN, sLORETA, and beamformer in terms of localization accuracy for closely spaced and highly correlated sources. Lastly, source connectivity between closely spaced sources can be satisfactorily constructed from source time courses estimated by PW-INN but not from results of other conventional methods. Therefore, the proposed PW-INN method is a promising MEG source analysis to provide a high spatial-temporal characterization of cortical activity and connectivity, which is crucial for basic and clinical research of neural plasticity. MOE (Min. of Education, S’pore) Published version 2016-03-08T06:38:19Z 2019-12-06T14:59:50Z 2016-03-08T06:38:19Z 2019-12-06T14:59:50Z 2016 Journal Article Zhang, J., Cui, Y., Deng, L., He, L., Zhang, J., Zhang, J., et al. (2016). Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm. Neural Plasticity, 2016, 4890497-. 2090-5904 https://hdl.handle.net/10356/82657 http://hdl.handle.net/10220/40222 10.1155/2016/4890497 26819768 en Neural Plasticity © 2016 Junpeng Zhang et al.This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 12 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic electroencephalogram
magnetoencephalography
spellingShingle electroencephalogram
magnetoencephalography
Zhang, Junpeng
Cui, Yuan
Deng, Lihua
He, Ling
Zhang, Junran
Zhang, Jing
Zhou, Qun
Liu, Qi
Zhang, Zhiguo
Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm
description This paper proposed a prewhitening invariance of noise space (PW-INN) as a new magnetoencephalography (MEG) source analysis method, which is particularly suitable for localizing closely spaced and highly correlated cortical sources under real MEG noise. Conventional source localization methods, such as sLORETA and beamformer, cannot distinguish closely spaced cortical sources, especially under strong intersource correlation. Our previous work proposed an invariance of noise space (INN) method to resolve closely spaced sources, but its performance is seriously degraded under correlated noise between MEG sensors. The proposed PW-INN method largely mitigates the adverse influence of correlated MEG noise by projecting MEG data to a new space defined by the orthogonal complement of dominant eigenvectors of correlated MEG noise. Simulation results showed that PW-INN is superior to INN, sLORETA, and beamformer in terms of localization accuracy for closely spaced and highly correlated sources. Lastly, source connectivity between closely spaced sources can be satisfactorily constructed from source time courses estimated by PW-INN but not from results of other conventional methods. Therefore, the proposed PW-INN method is a promising MEG source analysis to provide a high spatial-temporal characterization of cortical activity and connectivity, which is crucial for basic and clinical research of neural plasticity.
author2 School of Electrical and Electronic Engineering
author_facet School of Electrical and Electronic Engineering
Zhang, Junpeng
Cui, Yuan
Deng, Lihua
He, Ling
Zhang, Junran
Zhang, Jing
Zhou, Qun
Liu, Qi
Zhang, Zhiguo
format Article
author Zhang, Junpeng
Cui, Yuan
Deng, Lihua
He, Ling
Zhang, Junran
Zhang, Jing
Zhou, Qun
Liu, Qi
Zhang, Zhiguo
author_sort Zhang, Junpeng
title Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm
title_short Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm
title_full Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm
title_fullStr Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm
title_full_unstemmed Closely Spaced MEG Source Localization and Functional Connectivity Analysis Using a New Prewhitening Invariance of Noise Space Algorithm
title_sort closely spaced meg source localization and functional connectivity analysis using a new prewhitening invariance of noise space algorithm
publishDate 2016
url https://hdl.handle.net/10356/82657
http://hdl.handle.net/10220/40222
_version_ 1725985788705898496

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