“The main psychoactive component in cannabis-Δ9-tetrahydrocannabinol-is known to have anti-inflammatory properties and to alter gamma oscillations, pointing to its potential as a therapeutic agent for people with HIV (PWH). However, it remains unknown how cannabis use among PWH interacts with the neural circuitry underlying inhibitory processing.
Herein, using a cross-sectional study design, we collected data from 108 cannabis users and non-users with and without HIV. Participants were interviewed regarding their substance use history and completed a paired-pulse somatosensory stimulation paradigm during magnetoencephalography (MEG). MEG data were imaged using a beamformer and peak voxel time series data were extracted to examine neural oscillations in response to the stimulation and the strength of spontaneous activity in the same tissue during the baseline period. Across all participants, we observed robust gamma oscillations following stimulation in the left primary somatosensory cortices, with responses to the second stimulation being strongly attenuated relative to the first, thus demonstrating somatosensory gating.
PWH who used cannabis exhibited stronger oscillatory gamma activity compared with non-users with HIV, while the latter group also exhibited elevated spontaneous gamma activity relative to all other groups. Finally, we found that a longer duration of time since HIV diagnosis was associated with less efficient inhibitory processing among PWH who did not use cannabis, but not among PWH who regularly use cannabis.
These findings provide new evidence that cannabis use may mitigate the harmful effects of HIV on oscillatory and spontaneous gamma activity serving inhibitory processing.”
https://pubmed.ncbi.nlm.nih.gov/40421314/
“Taken together, these findings suggest that regular cannabis use may have a neuroprotective effect on inhibitory processing in PWH by normalising spontaneous gamma activity and enhancing gamma oscillatory responses during sensory gating. This pattern indicates that cannabis use could potentially mitigate some of the neural disruptions associated with HIV, highlighting a promising target for future interventions aimed at preserving cognitive function in this population. Importantly, the capacity of cannabis to influence gamma dynamics underscores the broader role of the endocannabinoid system in shaping neural function in the context of HIV-related neuropathology.”
https://academic.oup.com/braincomms/article/7/3/fcaf190/8132827?login=false