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Jacobo D Sitt

Paris Brain Institute, ICM, Inserm, CNRS, Sorbonne Université, Paris, France.

1 paper in the library · 3 citations · publishing 2025

Papers

Nonequilibrium brain dynamics elicited as the origin of perturbative complexity.

PLoS computational biology June 6, 2025 Wiep Stikvoort, Eider Pérez-Ordoyo, Iván Mindlin et al. 3 citations

A person's level of consciousness can be assessed by how the brain reacts to stimulation, but this study shows that the brain's unperturbed activity already contains that information. Using personalized whole-brain models fitted to resting-state fMRI data from people in altered states of consciousness (deep sleep, disorders of consciousness), the researchers measured the brain's out-of-equilibrium dynamics—specifically, the asymmetry of effective connections and time irreversibility. They found that states with lower arousal or awareness had less asymmetric connectivity, less irreversibility, and lower complexity in simulated responses compared to controls. The asymmetry in connections drives the nonequilibrium state and, in turn, the differences in complexity.