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Article Dans Une Revue Cerebral Cortex Année : 2022

Macroscopic quantities of collective brain activity during wakefulness and anesthesia

Résumé

The study of states of arousal is key to understand the principles of consciousness. Yet, how different brain states emerge from the collective activity of brain regions remains unknown. Here, we studied the fMRI brain activity of monkeys during wakefulness and anesthesia-induced loss of consciousness. We showed that the coupling between each brain region and the rest of the cortex provides an efficient statistic to classify the two brain states. Based on this and other statistics, we estimated maximum entropy models to derive collective, macroscopic properties that quantify the system's capabilities to produce work, to contain information, and to transmit it, which were all maximized in the awake state. The differences in these properties were consistent with a phase transition from critical dynamics in the awake state to supercritical dynamics in the anesthetized state. Moreover, information-theoretic measures identified those parameters that impacted the most the network dynamics. We found that changes in the state of consciousness primarily depended on changes in network couplings of insular, cingulate, and parietal cortices. Our findings suggest that the brain state transition underlying the loss of consciousness is predominantly driven by the uncoupling of specific brain regions from the rest of the network.
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hal-03579500 , version 1 (02-06-2022)

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Adrián Ponce-Alvarez, Lynn Uhrig, Nikolas Deco, Camilo Miguel Signorelli, M. L. Kringelbach, et al.. Macroscopic quantities of collective brain activity during wakefulness and anesthesia. Cerebral Cortex, 2022, 32 (2), pp.298-311. ⟨10.1093/cercor/bhab209⟩. ⟨hal-03579500⟩
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