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@article{1364744,
author = {Mareček, Radek and Lamoš, Martin and Mikl, Michal and Bartoň, Marek and Fajkus, Jiří and Rektor, Ivan and Brázdil, Milan},
article_location = {BRISTOL},
article_number = {4},
doi = {http://dx.doi.org/10.1088/1741-2560/13/4/046026},
keywords = {multimodal neuroimaging; brain rhythms; blind decomposition; large scale brain networks},
language = {eng},
issn = {1741-2560},
journal = {JOURNAL OF NEURAL ENGINEERING},
title = {What can be found in scalp EEG spectrum beyond common frequency bands. EEG-fMRI study},
url = {http://iopscience.iop.org/article/10.1088/1741-2560/13/4/046026/pdf},
volume = {13},
year = {2016}
}
TY - JOUR
ID - 1364744
AU - Mareček, Radek - Lamoš, Martin - Mikl, Michal - Bartoň, Marek - Fajkus, Jiří - Rektor, Ivan - Brázdil, Milan
PY - 2016
TI - What can be found in scalp EEG spectrum beyond common frequency bands. EEG-fMRI study
JF - JOURNAL OF NEURAL ENGINEERING
VL - 13
IS - 4
SP - nestránkováno
EP - nestránkováno
PB - IOP PUBLISHING LTD
SN - 17412560
KW - multimodal neuroimaging
KW - brain rhythms
KW - blind decomposition
KW - large scale brain networks
UR - http://iopscience.iop.org/article/10.1088/1741-2560/13/4/046026/pdf
L2 - http://iopscience.iop.org/article/10.1088/1741-2560/13/4/046026/pdf
N2 - Objective. The scalp EEG spectrum is a frequently used marker of neural activity. Commonly, the preprocessing of EEG utilizes constraints, e.g. dealing with a predefined subset of electrodes or a predefined frequency band of interest. Such treatment of the EEG spectrum neglects the fact that particular neural processes may be reflected in several frequency bands and/or several electrodes concurrently, and can overlook the complexity of the structure of the EEG spectrum. Approach. We showed that the EEG spectrum structure can be described by parallel factor analysis (PARAFAC), a method which blindly uncovers the spatial-temporal-spectral patterns of EEG. We used an algorithm based on variational Bayesian statistics to reveal nine patterns from the EEG of 38 healthy subjects, acquired during a semantic decision task. The patterns reflected neural activity synchronized across theta, alpha, beta and gamma bands and spread over many electrodes, as well as various EEG artifacts. Main results. Specifically, one of the patterns showed significant correlation with the stimuli timing. The correlation was higher when compared to commonly used models of neural activity (power fluctuations in distinct frequency band averaged across a subset of electrodes) and we found significantly correlated hemodynamic fluctuations in simultaneously acquired fMRI data in regions known to be involved in speech processing. Further, we show that the pattern also occurs in EEG data which were acquired outside the MR machine. Two other patterns reflected brain rhythms linked to the attentional and basal ganglia large scale networks. The other patterns were related to various EEG artifacts. Significance. These results show that PARAFAC blindly identifies neural activity in the EEG spectrum and that it naturally handles the correlations among frequency bands and electrodes. We conclude that PARAFAC seems to be a powerful tool for analysis of the EEG spectrum and might bring novel insight to the relationships between EEG activity and brain hemodynamics.
ER -
MAREČEK, Radek, Martin LAMOŠ, Michal MIKL, Marek BARTOŇ, Jiří FAJKUS, Ivan REKTOR a Milan BRÁZDIL. What can be found in scalp EEG spectrum beyond common frequency bands. EEG-fMRI study. \textit{JOURNAL OF NEURAL ENGINEERING}. BRISTOL: IOP PUBLISHING LTD, 2016, roč.~13, č.~4, s.~nestránkováno, 13 s. ISSN~1741-2560. Dostupné z: https://dx.doi.org/10.1088/1741-2560/13/4/046026.
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