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Adrián Ponce-Alvarez

Computational Neuroscience Group, Center for Brain and Cognition (Department of Information and Communication Technologies), Universitat Pompeu Fabra, Barcelona, Spain.

2 papers in the library · 29 citations · publishing 2021-2023

Papers

LSD-induced increase of Ising temperature and algorithmic complexity of brain dynamics.

PLoS computational biology February 1, 2023 Giulio Ruffini, Giada Damiani, Diego Lozano-Soldevilla et al. 28 citations

Brain dynamics under LSD become more disordered and complex, moving further from the critical point that characterizes healthy brain function. Using Ising spin models fitted to fMRI data from fifteen participants, the authors show that LSD reduces interhemispheric connectivity, especially between corresponding regions in opposite hemispheres. Ising temperatures were significantly higher under LSD than placebo, indicating a shift into a more disordered (paramagnetic) state. Algorithmic complexity of brain activity, measured by block decomposition, correlated with both Ising temperature and condition, supporting the entropic brain hypothesis that psychedelics increase neural disorder.

Increased sensitivity to strong perturbations in a whole-brain model of LSD

bioRxiv Preprint Server January 5, 2021 Beatrice M. Jobst, Selen Atasoy, Adrián Ponce-Alvarez et al. 1 citation preprint

LSD alters brain dynamics by shifting the brain's global working point further from a stable equilibrium, as shown by consistently higher Perturbational Integration Latency Index (PILI) values after intake. Using a whole-brain computational model perturbed in silico, the largest differences were found in the limbic, visual, and default mode networks. Greater variability of PILI values across brain regions under LSD indicates higher response diversity to external perturbations. These findings provide insights into the brain-wide dynamical changes underlying the psychedelic state and suggest possible clinical applications for psychiatric disorders.