Bayesian M/EEG source reconstruction with spatio-temporal priors

This article proposes a Bayesian spatio-temporal model for source reconstruction of M/EEG data. The usual two-level probabilistic model implicit in most distributed source solutions is extended by adding a third level which describes the temporal evolution of neuronal current sources using time-doma...

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Published in	NeuroImage (Orlando, Fla.) Vol. 39; no. 1; pp. 318 - 335
Main Authors	Trujillo-Barreto, Nelson J., Aubert-Vázquez, Eduardo, Penny, William D.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 2008 Elsevier Limited
Subjects	Algorithms Bayes Theorem Bayesian models Brain Mapping - methods Computer Simulation Diagnosis, Computer-Assisted - methods Electroencephalography - methods Ensemble learning Estimates Evoked Potentials, Visual - physiology Face Generators GLM Humans M/EEG source localization Magnetoencephalography - methods Models, Neurological Pattern Recognition, Automated - methods Pattern Recognition, Visual - physiology Random variables Spatio-temporal priors Tomography Variational Bayes Bayesian models GLM M/EEG source localization Variational Bayes Ensemble learning Spatio-temporal priors
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Abstract	This article proposes a Bayesian spatio-temporal model for source reconstruction of M/EEG data. The usual two-level probabilistic model implicit in most distributed source solutions is extended by adding a third level which describes the temporal evolution of neuronal current sources using time-domain General Linear Models (GLMs). These comprise a set of temporal basis functions which are used to describe event-related M/EEG responses. This places M/EEG analysis in a statistical framework that is very similar to that used for PET and fMRI. The experimental design can be coded in a design matrix, effects of interest characterized using contrasts and inferences made using posterior probability maps. Importantly, as is the case for single-subject fMRI analysis, trials are treated as fixed effects and the approach takes into account between-trial variance, allowing valid inferences to be made on single-subject data. The proposed probabilistic model is efficiently inverted by using the Variational Bayes framework under a convenient mean-field approximation (VB-GLM). The new method is tested with biophysically realistic simulated data and the results are compared to those obtained with traditional spatial approaches like the popular Low Resolution Electromagnetic TomogrAphy (LORETA) and minimum variance Beamformer. Finally, the VB-GLM approach is used to analyze an EEG data set from a face processing experiment.
AbstractList	This article proposes a Bayesian spatio-temporal model for source reconstruction of M/EEG data. The usual two-level probabilistic model implicit in most distributed source solutions is extended by adding a third level which describes the temporal evolution of neuronal current sources using time-domain General Linear Models (GLMs). These comprise a set of temporal basis functions which are used to describe event-related M/EEG responses. This places M/EEG analysis in a statistical framework that is very similar to that used for PET and fMRI. The experimental design can be coded in a design matrix, effects of interest characterized using contrasts and inferences made using posterior probability maps. Importantly, as is the case for single-subject fMRI analysis, trials are treated as fixed effects and the approach takes into account between-trial variance, allowing valid inferences to be made on single-subject data. The proposed probabilistic model is efficiently inverted by using the Variational Bayes framework under a convenient mean-field approximation (VB-GLM). The new method is tested with biophysically realistic simulated data and the results are compared to those obtained with traditional spatial approaches like the popular Low Resolution Electromagnetic TomogrAphy (LORETA) and minimum variance Beamformer. Finally, the VB-GLM approach is used to analyze an EEG data set from a face processing experiment. This article proposes a Bayesian spatio-temporal model for source reconstruction of M/EEG data. The usual two-level probabilistic model implicit in most distributed source solutions is extended by adding a third level which describes the temporal evolution of neuronal current sources using time-domain General Linear Models (GLMs). These comprise a set of temporal basis functions which are used to describe event-related M/EEG responses. This places M/EEG analysis in a statistical framework that is very similar to that used for PET and fMRI. The experimental design can be coded in a design matrix, effects of interest characterized using contrasts and inferences made using posterior probability maps. Importantly, as is the case for single-subject fMRI analysis, trials are treated as fixed effects and the approach takes into account between-trial variance, allowing valid inferences to be made on single-subject data. The proposed probabilistic model is efficiently inverted by using the Variational Bayes framework under a convenient mean-field approximation (VB-GLM). The new method is tested with biophysically realistic simulated data and the results are compared to those obtained with traditional spatial approaches like the popular Low Resolution Electromagnetic TomogrAphy (LORETA) and minimum variance Beamformer. Finally, the VB-GLM approach is used to analyze an EEG data set from a face processing experiment.This article proposes a Bayesian spatio-temporal model for source reconstruction of M/EEG data. The usual two-level probabilistic model implicit in most distributed source solutions is extended by adding a third level which describes the temporal evolution of neuronal current sources using time-domain General Linear Models (GLMs). These comprise a set of temporal basis functions which are used to describe event-related M/EEG responses. This places M/EEG analysis in a statistical framework that is very similar to that used for PET and fMRI. The experimental design can be coded in a design matrix, effects of interest characterized using contrasts and inferences made using posterior probability maps. Importantly, as is the case for single-subject fMRI analysis, trials are treated as fixed effects and the approach takes into account between-trial variance, allowing valid inferences to be made on single-subject data. The proposed probabilistic model is efficiently inverted by using the Variational Bayes framework under a convenient mean-field approximation (VB-GLM). The new method is tested with biophysically realistic simulated data and the results are compared to those obtained with traditional spatial approaches like the popular Low Resolution Electromagnetic TomogrAphy (LORETA) and minimum variance Beamformer. Finally, the VB-GLM approach is used to analyze an EEG data set from a face processing experiment.
Author	Trujillo-Barreto, Nelson J. Penny, William D. Aubert-Vázquez, Eduardo
Author_xml	– sequence: 1 givenname: Nelson J. surname: Trujillo-Barreto fullname: Trujillo-Barreto, Nelson J. email: trujillo@cneuro.edu.cu organization: Brain Dynamics Department, Cuban Neuroscience Centre, P.O. Box 6412/6414, Ave. 25, Esq. 158, No. 15202, Cubanacán, Playa, Havana, Cuba – sequence: 2 givenname: Eduardo surname: Aubert-Vázquez fullname: Aubert-Vázquez, Eduardo organization: Brain Dynamics Department, Cuban Neuroscience Centre, P.O. Box 6412/6414, Ave. 25, Esq. 158, No. 15202, Cubanacán, Playa, Havana, Cuba – sequence: 3 givenname: William D. surname: Penny fullname: Penny, William D. organization: Wellcome Department of Imaging Neuroscience, UCL, London, UK
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Snippet	This article proposes a Bayesian spatio-temporal model for source reconstruction of M/EEG data. The usual two-level probabilistic model implicit in most...
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SubjectTerms	Algorithms Bayes Theorem Bayesian models Brain Mapping - methods Computer Simulation Diagnosis, Computer-Assisted - methods Electroencephalography - methods Ensemble learning Estimates Evoked Potentials, Visual - physiology Face Generators GLM Humans M/EEG source localization Magnetoencephalography - methods Models, Neurological Pattern Recognition, Automated - methods Pattern Recognition, Visual - physiology Random variables Spatio-temporal priors Tomography Variational Bayes
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Title	Bayesian M/EEG source reconstruction with spatio-temporal priors
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