Brain-to-Brain Coupling in the Gamma-Band as a Marker of Shared Intentionality

Brain-to-Brain Coupling in the Gamma-Band as a Marker of Shared Intentionality

Cooperation and competition are two ways of social interaction keys to life in society. Recent EEG-based hyperscanning studies reveal that cooperative and competitive interactions induce an increase of interbrain coupling. However, whether this interbrain coupling effect is just a reflection of inte...

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Bibliographic Details
Published in:Frontiers in human neuroscience Vol. 14; p. 295
Main Authors: Barraza, Paulo, Pérez, Alejandro, Rodríguez, Eugenio
Format: Journal Article
Language:English
Published: Lausanne Frontiers Research Foundation 30-07-2020
Frontiers Media S.A
Subjects:
Behavior
Brain
Competition
Cooperation
EEG
Experiments
gamma
hyperscanning
Hypotheses
Neuroscience
shared intentionality
Studies
Visual stimuli
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Summary:Cooperation and competition are two ways of social interaction keys to life in society. Recent EEG-based hyperscanning studies reveal that cooperative and competitive interactions induce an increase of interbrain coupling. However, whether this interbrain coupling effect is just a reflection of inter-subject motor coordination or can also signal the type of social interaction is unknown. Here, we show that behavioral coordination and social interaction type can be distinguished according to the frequency of oscillation in which the brains are coupled. We use EEG to simultaneously measure the brain activity of pairs of subjects, while they were performing a visual cue-target task in a cooperative and competitive manner. Behavioral responses were quasi-simultaneous between subject pairs for both competitive and cooperative conditions, with average responses time being faster for the competitive condition. Concerning brain activity, we found increased interbrain coupling in theta band (3-7 Hz) during cooperation and competition, coupling being stronger during competitive interactions. This increase of interbrain theta coupling correlated with a decrease in reaction times of the dyads. Interestingly, we also found an increase of brain-to-brain coupling in gamma band (38-42 Hz) only during cooperative interactions. Unlike the theta coupling effect, the gamma interbrain coupling did not correlate with dyads’ reaction times. Taken together, these results suggest that theta interbrain coupling would be linked with motor coordination processes common to cooperative and competitive interactions, while gamma brain-to-brain coupling emerges as an electrophysiological marker of shared intentionality during cooperative interactions.
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Edited by: Leanne Hirshfield, University of Colorado Boulder, United States
This article was submitted to Cognitive Neuroscience, a section of the journal Frontiers in Human Neuroscience
Reviewed by: Antonio Ivano Triggiani, National Institute of Neurological Disorders and Stroke (NINDS), United States; Krysta Elise Chauncey, Charles River Analytics, United States
ISSN:1662-5161
1662-5161
DOI:10.3389/fnhum.2020.00295