The Nonclassic Psychedelic Ibogaine Disrupts Cognitive Maps.
Biological psychiatry global open science January 1, 2024 Victorita E Ivan, David P Tomàs-Cuesta, Ingrid M Esteves et al. 7 citations
Ibogaine, a psychedelic compound, destabilizes the cognitive map in the retrosplenial cortex of mice when they must infer their position between tactile landmarks. Using two-photon microscopy, researchers recorded neural activity in head-fixed mice running on a treadmill before and after ibogaine injection (40 mg/kg intraperitoneally). The drug increased neural activity rates, disrupted correlation structure, and heightened responses to cues, while leaving the size-frequency distribution of network activity events largely unchanged. These findings suggest that psychedelics disrupt representations that constrain neocortical activity, increasing neural signaling entropy. The loss of position encoding between landmarks resembles effects of hippocampal impairment, indicating that disruption of cognitive maps may contribute to discoordinated neocortical activity in psychedelic states.