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Nicolás Rubido

Aberdeen Biomedical Imaging Centre, University of Aberdeen, Aberdeen AB25 2ZG, United Kingdom.

2 papers in the library · 31 citations · publishing 2020-2021

Papers

EEG Gamma Band Alterations and REM-like Traits Underpin the Acute Effect of the Atypical Psychedelic Ibogaine in the Rat.

ACS pharmacology & translational science April 9, 2021 Joaquín González, Matias Cavelli, Santiago Castro-Zaballa et al. 26 citations

Ibogaine, a psychedelic alkaloid with anti-addictive potential, produces vivid, dream-like experiences while awake. Analyzing intracranial electroencephalograms in rats, ibogaine-induced wakefulness showed gamma oscillations with greater power than control levels but reduced coherence and complexity. This gamma activity profile resembled that of natural REM sleep, providing biological evidence linking the psychedelic state to REM sleep and advancing understanding of ibogaine's oneirogenic effects.

Gamma band alterations and REM-like traits underpin the acute effect of the atypical psychedelic ibogaine

bioRxiv (Cold Spring Harbor Laboratory) June 29, 2020 Joaqúın González, Matías Cavelli, Santiago Castro‐zaballa et al. 5 citations preprint

Ibogaine, a psychedelic alkaloid with anti-addictive properties, produces a waking state that shares brain-wave traits with REM sleep. In rats, ibogaine increased gamma oscillation power in the brain but made those oscillations less coherent and less complex than normal waking levels. This pattern mirrors REM sleep features within the gamma frequency band, providing biological evidence for the long-standing hypothesis that ibogaine induces a dream-like state while awake—a phenomenon called oneirogenesis. The findings offer an empirical basis for understanding how ibogaine's unique subjective effects may contribute to its anti-addictive potential.