Resting‐state connectivity and network parameter analysis in alcohol‐dependent males. A simultaneous EEG‐MEG study

There is supporting evidence of alcohol negative effects on the brain: neuroimaging and psychophysiological studies finding anatomical and functional connectivity (FC) changes associated with the dependence process. Thus, the aim of this work was to evaluate brain FC and network characteristics of a...

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Bibliographic Details
Published in:Journal of neuroscience research 2020-10, Vol.98 (10), p.1857-1876
Main Authors: Sion, Ana, Bruña Fernández, Ricardo, Martínez Maldonado, Andrés, Domínguez Centeno, Isabel, Torrado‐Carvajal, Angel, Rubio, Gabriel, Pereda, Ernesto, Jurado‐Barba, Rosa
Format: Article
Language:English
Subjects:
Alcohol
alcohol dependence
Alcohols
Brain
Cerebral hemispheres
Clustering
Computation
Connectivity analysis
Dependence
Drug dependence
EEG
Efficiency
Electroencephalography
Frequency dependence
functional connectivity
Hemispheres
Locking
Magnetoencephalography
Males
Medical imaging
MEG
Network analysis
network parameters
Neural networks
Neuroimaging
Parameters
phase‐lag synchronization
Synchronism
Synchronization
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Summary:There is supporting evidence of alcohol negative effects on the brain: neuroimaging and psychophysiological studies finding anatomical and functional connectivity (FC) changes associated with the dependence process. Thus, the aim of this work was to evaluate brain FC and network characteristics of alcohol‐dependent individuals in resting state. For this study, we included males diagnosed with alcohol dependence (N = 25) and a group of healthy individuals (N = 23). Simultaneous EEG‐MEG (electroencephalographic and magnetoencephalographic) activity was recorded in 5 min of eyes‐closed resting state. EEG‐MEG activity was preprocessed and FC was computed through the leakage‐corrected version of phase locking value (ciPLV). Additionally, local (degree, efficiency, clustering) and global (efficiency, characteristic path length) network parameters were computed. Connectivity analysis showed an increase in phase‐lagged synchronization, mainly between frontal and frontotemporal regions, in high beta band, and a decrease in interhemispheric gamma, for alcohol‐dependent individuals. Network analysis revealed intergroup differences at the local level for high beta, indicating higher degree, clustering, and efficiency, mostly at frontal nodes, together with a decrease in these measures at more posterior sites for patients’ group. The hyper‐synchronization in beta, next to the hypo‐synchronization in gamma, could indicate an alteration in communication between hemispheres, but also a possible functional compensation mechanism in neural circuits. This could be also supported by network characteristic data, where local alterations in communication are observed. Alcohol‐dependent individuals present a differential pattern of resting‐state EEG‐MEG connectivity, as well as local communication alterations in brain network. Results point toward difficulties in information flow efficiency and cost, and a possible compensatory effort.
ISSN:0360-4012
1097-4547
DOI:10.1002/jnr.24673