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Ignacio Pérez Ipiña

1 paper in the library · 81 citations · publishing 2020

Papers

Modeling regional changes in dynamic stability during sleep and wakefulness

NeuroImage April 11, 2020 Ignacio Pérez Ipiña, Patricio Donnelly Kehoe, Morten L. Kringelbach et al. 81 citations

A semi-empirical model combining fMRI data, structural connectivity, and anatomically-informed priors shows that brain states during the wake-sleep cycle are better described by multiple dimensions rather than a single continuum. The best fit used priors based on functionally coherent networks, dividing the cortex into regions with opposite dynamics: frontoparietal regions approached a noise-driven bifurcation from fixed-point dynamics, while sensorimotor regions approached a bifurcation from oscillatory dynamics. Sleep onset involved subcortical deactivation with low correlation, reversed in deeper stages. Periodic forcing simulating external perturbations identified key regions for wakefulness recovery. The model characterizes sleep as having diminished perceptual gating but latent capacity for rapid arousal.