Current Biology
December 1, 2023
Nicholas Kolbman, Tiecheng Liu, Peter Guzzo et al.
21 citations
A single intravenous dose of psilocybin reduces mechanical hypersensitivity for 28 days in a rat model of formalin-induced chronic pain, suggesting potential for treating chronic pain conditions. The study addresses a gap in research on psilocybin's effectiveness for chronic pain, as prior work focused on psychiatric disorders and substance abuse. No systematic investigation had previously examined psilocybin's impact on chronic pain indices.
Translational Psychiatry
March 25, 2025
Brian H Silverstein, Nicholas Kolbman, Amanda Nelson et al.
8 citations
Psilocybin alters brain network organization in rats in a dose-dependent manner. Using electroencephalography from 27 cortical sites in 12 rats, the study found that psilocybin disrupted theta-gamma coupling, increased frontal high gamma connectivity and network density, and increased posterior theta connectivity and density. Medium gamma frontoparietal connectivity and behavioral activity showed an inverted-U relationship with dose. These results suggest that high-frequency network organization, decoupled from local theta-phase, may be a key signature of psilocybin-induced altered states of consciousness.
bioRxiv (Cold Spring Harbor Laboratory)
February 12, 2024
Brian H Silverstein, Nicholas Kolbman, Amanda Nelson et al.
3 citations
preprint
Psilocybin disrupts the coupling between theta and gamma brain waves in rats and reorganizes brain networks in a dose-dependent manner. Using 27 electrodes across the cortex, the study found that psilocybin increased frontal high gamma connectivity and posterior theta connectivity, as well as network density in those regions. Medium gamma frontoparietal connectivity showed a nonlinear relationship with dose. Theta-gamma phase-amplitude coupling was disrupted. These changes suggest that high-frequency network organization, decoupled from local theta-phase, may be a signature of the altered state of consciousness induced by psilocybin.
bioRxiv (Cold Spring Harbor Laboratory)
August 28, 2023
Nicholas Kolbman, Tiecheng Liu, Peter R. Guzzo et al.
preprint
A single intravenous dose of psilocybin (1 mg/kg or 10 mg/kg) reduced mechanical hypersensitivity in rats for 28 days after formalin-induced chronic pain, but had only a limited effect on thermal hyperalgesia. Formalin injection caused thermal hyperalgesia and bilateral mechanical hypersensitivity in all rats. Psilocybin significantly attenuated the mechanical hypersensitivity throughout the 28-day testing period, while thermal hyperalgesia was reduced only on days 1, 3, 5, and 21. These results suggest psilocybin may have potential for treating chronic pain, though its effects on different pain types vary.
Open Access Government
July 10, 2023
Jim Gilligan
Tryp Therapeutics examines the use of psychedelic-assisted psychotherapy for binge eating disorder. Their lead program, TRP-8803, uses an intravenous formulation of psilocin, the active metabolite of psilocybin, to achieve precise and reproducible blood levels, overcoming the variability of oral psilocybin administration. The text suggests this approach could improve clinical outcomes by ensuring consistent dosing, but it does not present any experimental results or data from human studies.