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Rebecca Pope

6 papers in the library · 382 citations · publishing 2016-2022

Papers

Acute and chronic effects of cannabinoids on effort-related decision-making and reward learning: an evaluation of the cannabis ‘amotivational’ hypotheses

Psychopharmacology September 2, 2016 Will Lawn, Tom P. Freeman, Rebecca Pope et al. 177 citations

Cannabis containing only THC reduced the likelihood of choosing high-effort rewards compared to placebo, indicating a transient amotivational state, while adding CBD altered the effect of THC on expected value. Cannabis-dependent individuals showed preserved motivation but impaired reward learning compared to non-dependent controls, though depression may have influenced results.

Dissociable effects of cannabis with and without cannabidiol on the human brain’s resting-state functional connectivity

Journal of Psychopharmacology April 23, 2019 Matthew B. Wall, Rebecca Pope, Tom P. Freeman et al. 89 citations

Two strains of cannabis—one containing only THC (8 mg) and another containing THC plus CBD (8 mg THC + 10 mg CBD)—were compared with placebo in seventeen healthy, experienced but non-regular cannabis users. Using resting-state fMRI, both strains reduced functional connectivity in the default mode and salience networks relative to placebo, but with distinct spatial patterns. The THC-only strain specifically disrupted the posterior cingulate cortex within the default mode network, and this disruption correlated with subjective feelings of being 'stoned' and 'high'. The THC-plus-CBD strain produced less disruption of the salience network, suggesting CBD may buffer THC's effects on salience processing, which could underlie its potential therapeutic role in disorders like psychosis and addiction.

Cannabis Dampens the Effects of Music in Brain Regions Sensitive to Reward and Emotion

The International Journal of Neuropsychopharmacology August 30, 2017 Tom P. Freeman, Rebecca Pope, Matthew B. Wall et al. 67 citations

Cannabis dampens the brain's response to music in regions involved in reward and emotion, including the auditory cortex, hippocampus, amygdala, and ventral striatum. However, when cannabis also contains cannabidiol, these dampening effects are offset, and brain activity does not differ from placebo. Despite reduced neural responses, both types of cannabis increased participants' self-reported desire to listen to music and enhanced sound perception. The findings suggest that cannabidiol may mitigate some of cannabis's effects on brain reward systems.

Acute effects of cannabis on speech illusions and psychotic-like symptoms: two studies testing the moderating effects of cannabidiol and adolescence

Psychological Medicine April 28, 2020 Claire Mokrysz, Natacha D. C. Shaban, Tom P. Freeman et al. 24 citations

Inhaling cannabis reliably increases psychotic-like symptoms in healthy cannabis users and may raise the incidence of speech illusion—hearing words in meaningless white noise. Cannabidiol (CBD) did not blunt these effects. In one study, adults had stronger psychotic-like symptom responses than adolescents, suggesting adolescents may be less vulnerable to the acute psychotic-like effects of cannabis. The odds of experiencing speech illusion were 3.1 times higher after inhaling cannabis with THC and negligible CBD compared to placebo.

Individual and combined effects of cannabidiol and Δ 9 -tetrahydrocannabinol on striato-cortical connectivity in the human brain

Journal of Psychopharmacology May 20, 2022 Matthew B. Wall, Tom P. Freeman, Chandni Hindocha et al. 21 citations

THC strongly disrupts connectivity between the striatum and cortex, but co-administering CBD mitigates this effect in the limbic striatum network. In one study, inhaled cannabis with 8 mg THC or 8 mg THC plus 10 mg CBD disrupted associative and sensorimotor networks, while THC alone also disrupted the limbic striatum network. In a second study, oral 600 mg CBD increased connectivity in the associative network and caused minor disruptions in limbic and sensorimotor networks. The insula emerges as a key region affected by cannabinoid-induced changes in functional connectivity, with implications for understanding cannabis-related disorders and developing cannabinoid therapeutics.

Individual and combined effects of Cannabidiol (CBD) and Δ9-tetrahydrocannabinol (THC) on striato-cortical connectivity in the human brain

bioRxiv (Cold Spring Harbor Laboratory) November 21, 2020 Matthew B. Wall, Tom P. Freeman, Chandni Hindocha et al. 4 citations preprint

Cannabidiol (CBD) and Δ9-tetrahydrocannabinol (THC) are two major cannabis constituents with contrasting actions: THC is psychoactive and addiction-promoting, while CBD may have opposite effects. In two placebo-controlled, double-blind studies, inhaled THC (8 mg) strongly disrupted functional connectivity in associative and sensorimotor striatal networks, and this disruption was selectively alleviated in the limbic striatum when co-administered with CBD (10 mg). Oral CBD (600 mg) alone increased connectivity in the associative network but caused minor decreases in limbic and sensorimotor networks. The insula emerged as a key region affected by cannabinoid-induced connectivity changes, with implications for cannabis-related disorders and cannabinoid therapeutics.