Paper Info
Title
EEG microstates distinguish between cognitive components of fluid reasoning.
Abstract
Fluid reasoning is considered central to general intelligence. How its psychometric structure relates to brain function remains poorly understood. For instance, what is the dynamic composition of ability-specific processes underlying fluid reasoning? We investigated whether distinct fluid reasoning abilities could be differentiated by electroencephalography (EEG) microstate profiles. EEG microstates specifically capture rapidly altering activity of distributed cortical networks with a high temporal resolution as scalp potential topographies that dynamically vary over time in an organized manner. EEG was recorded simultaneously with functional magnetic resonance imaging (fMRI) in twenty healthy adult participants during cognitively distinct fluid reasoning tasks: induction, spatial relationships and visualization. Microstate parameters successfully discriminated between fluid reasoning and visuomotor control tasks as well as between the fluid reasoning tasks. Mainly, microstate B coverage was significantly higher during spatial relationships and visualization, compared to induction, while microstate C coverage was significantly decreased during spatial relationships and visualization, compared to induction. Additionally, microstate D coverage was highest during spatial relationships and microstate A coverage was most strongly reduced during the same condition. Consistently, multivariate analysis with a leave-one-out cross-validation procedure accurately classified the fluid reasoning tasks based on the coverage parameter. These EEG data and their correlation with fMRI data suggest that especially the tasks most strongly relying on visuospatial processing modulated visual and default mode network activity. We propose that EEG microstates can provide valuable information about neural activity patterns with a dynamic and complex temporal structure during fluid reasoning, suggesting cognitive ability-specific interplays between multiple brain networks.
Year
DOI
Venue
2019
10.1016/j.neuroimage.2019.01.067
NeuroImage
Keywords
Field
DocType
EEG,Microstates,Fluid reasoning,Cognitive abilities,Visuospatial
EEG microstates,Default mode network,Functional magnetic resonance imaging,Visualization,g factor,Psychology,Cognitive psychology,Ministate,Cognition,Electroencephalography
Journal
Volume
ISSN
Citations 
189
1053-8119
1
PageRank 
References 
Authors
0.35
0
8
Name
Order
Citations
PageRank
Filippo Zappasodi15310.43
Mauro Gianni Perrucci2779.61
Aristide Saggino371.48
Pierpaolo Croce421.04
Pasqua Mercuri541.08
Roberta Romanelli671.48
Roberto Colom771.14
Sjoerd J. H. Ebisch8365.33