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Pavel Prado

Escuela de Fonoaudiología, Facultad de Odontología y Ciencias de la Rehabilitación, Universidad San Sebastián, Santiago, Chile.

2 papers in the library · 14 citations · publishing 2024

Papers

High-order brain interactions in ketamine during rest and task: a double-blinded cross-over design using portable EEG on male participants.

Translational psychiatry July 27, 2024 Rubén Herzog, Florentine Marie Barbey, Md Nurul Islam et al. 13 citations

Ketamine increases redundancy in brain dynamics—copies of the same information retrievable from three or more electrodes—most notably in the alpha frequency band, as measured by portable low-density EEG. In a double-blind crossover trial with 30 male adults, racemic ketamine compared to saline infusion produced greater redundancy during resting state, linked to dissociative shifts in consciousness. During an auditory oddball task, the effect was stronger for predictable standard stimuli than for deviant ones. Associations between ketamine's high-order interactions and experiences of derealization were observed, suggesting these measures capture pharmacological alterations in consciousness.

High-order brain interactions in ketamine during rest and task: A double-blinded cross-over design using portable EEG.

Research square March 21, 2024 Agustin Ibanez, Ruben Herzog, Florentine Barbey et al. 1 citation

Ketamine increases redundancy in brain dynamics, particularly in the alpha frequency band, and this effect is more pronounced during resting state and associated with dissociative experiences. In a double-blinded cross-over design with 30 male adults, racemic ketamine was compared to saline infusion. Higher-order interactions (HOI) computed from EEG data showed that ketamine boosted redundancy, especially for predictable stimuli in an auditory oddball task. These findings suggest that ketamine-induced shifts toward dissociation correlate with increased redundancy in neural signal interactions, highlighting the potential of complexity measures with portable EEG for monitoring pharmacological changes in consciousness.