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Alberto Liardi

Department of Computing, Imperial College London, London, UK.

2 papers in the library · 18 citations · publishing 2024-2025

Papers

Complex slow waves in the human brain under 5-MeO-DMT.

Cell reports July 22, 2025 George Blackburne, Rosalind G McAlpine, Marco Fabus et al. 10 citations

Inhaling a high dose of vaporized synthetic 5-MeO-DMT radically reorganizes low-frequency brain oscillations, making them heterogeneous, viscous, and nonrecurring, and halting their typical forward and backward travel across the cortex. This reorganization also causes broadband neural activity to become more stable and low-dimensional, with increased energy barriers for rapid global shifts. These findings, based on EEG data from 29 healthy individuals, provide a detailed account of how the drug sculpts human brain dynamics and reveal atypical cortical slow-wave behaviors relevant to neuroscientific models of serotonergic psychedelics.

Complex slow waves radically reorganise human brain dynamics under 5-MeO-DMT

bioRxiv (Cold Spring Harbor Laboratory) October 7, 2024 George Blackburne, Rosalind McAlpine, Marco S. Fabus et al. 8 citations preprint

A high dose of the psychedelic drug 5-MeO-DMT radically reorganizes low-frequency brain activity in 29 healthy individuals. Inhaling 12 mg of vaporized synthetic 5-MeO-DMT caused neural activity flows to become incoherent, heterogeneous, viscous, fleeting, and nonrecurring, ceasing typical traveling waves across the cortex. This reorganization led to slower, more stable, low-dimensional broadband activity with increased energy barriers to rapid global shifts. The findings provide the first detailed empirical account of how 5-MeO-DMT alters human brain dynamics, revealing novel cortical slow wave behaviors.