The Addiction Neurocircuitry and Resting-State Functional Connectivity in Cannabis Use Disorder: An fMRI Study.
Hannah Thomson, Izelle Labuschagne, Arush Honnedevasthana Arun, Eugene McTavish, Hannah Sehl, Adam Clemente, Emillie Beyer, Marianna Quinones-Valera, Peter Rendell, Gill Terrett, Lisa-Marie Greenwood, Govinda Poudel, Victoria Manning, Chao Suo, Valentina Lorenzetti
Abstract
Open AccessCannabis use disorder (CUD) affects ~22-million people globally and is characterised by difficulties in cutting down and quitting use, but the underlying neurobiology remains unclear. We examined resting-state functional connectivity (rsFC) between regions of interest (ROIs) of the addiction neurocircuitry and the rest of the brain in 65 individuals with moderate-to-severe CUD who reported attempts to cut down or quit, compared to 42 controls, and explored the association between rsFC and cannabis exposure and related problems, to elucidate potential drivers of rsFC alterations. The CUD group showed greater rsFC than controls between ROIs implicated in reward processing and habitual substance use (i.e., nucleus accumbens, putamen and pallidum) and occipito/parietal areas implicated in salience processing and disinhibition. Putamen-occipital rsFC correlated with levels of problematic cannabis use and depression symptoms. CUD appears to show neuroadaptations of the addiction neurocircuitry, previously demonstrated in other substance use disorders.