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Ben Deverett

Stanford Medicine

2 papers in the library · 1 citation · publishing 2025-2026

Papers

General Anesthesia and Discrete Components of Ketamine Neurophysiology.

JAMA psychiatry June 1, 2026 Ben Deverett, Duan Li, Theresa R Lii et al. 1 citation

Ketamine produces distinct brain-wave patterns that may be linked to its therapeutic effects. General anesthesia selectively blocks one of these patterns—theta oscillations—while leaving another pattern, beta-gamma oscillations, intact. In 52 participants, ketamine given during anesthesia preserved beta-gamma power increases but eliminated the characteristic theta augmentation seen during awake administration. This suggests that different neurophysiologic effects of ketamine can be separated, offering a way to investigate which brain-wave changes underlie its antidepressant, analgesic, or dissociative properties.

General anesthesia dissociates discrete components of ketamine neurophysiology

medRxiv August 7, 2025 Ben Deverett, Duan Li, Theresa R. Lii et al. preprint

Ketamine produces dissociative, analgesic, and antidepressant effects, but it is unclear whether its underlying neurophysiological signatures can be separated. In this observational cohort study, 52 participants (healthy volunteers, elective surgery patients, and patients with depression) received a subanesthetic infusion of ketamine or placebo, with or without general anesthesia. When ketamine was given under general anesthesia, its characteristic low-frequency brain wave augmentation was absent, while high-frequency power modulation was preserved. This selective modulation suggests a method for investigating the distinct roles of high- and low-frequency neural activity in ketamine's behavioral effects.