Psilocybin induces spatially constrained alterations in thalamic functional organizaton and connectivity.
NeuroImage October 15, 2022 Andrew Gaddis, Daniel E Lidstone, Mary Beth Nebel et al. 38 citations
Psilocybin alters the functional organization of distinct thalamic subregions and their connections to cortical networks, particularly the mediodorsal and pulvinar nuclei. Using a novel ICA-based approach in 18 healthy meditators, psilocybin-induced changes in intrathalamic spatial organization correlated with subjective drug effects. Thalamocortical connectivity predominantly decreased with visual and default mode networks. In contrast, treating the thalamus as a single unit showed a non-significant numerical increase in connectivity, suggesting that whole-thalamus analyses may mask focal decreases in specific nuclei that express serotonin 2A receptors.