Preclinical study using rats shows that Cannabidiol can reduce the risk of relapse Date: March 23, 2018 Source: Springer Summary: A preclinical study in rats has shown that there might be value in using a non-psychoactive and non-addictive ingredient of the Cannabis sativa plant to reduce the risk of relapse among recovering drug and alcohol addicts. The study's findings inform the ongoing debate about the possible medical benefits of non-psychoactive cannabinoids.
A preclinical study in rats has shown that there might be value in using a non-psychoactive and non-addictive ingredient of the Cannabis sativa plant to reduce the risk of relapse among recovering drug and alcohol addicts. The study's findings inform the ongoing debate about the possible medical benefits of non-psychoactive cannabinoids, and the way that these may be used as therapeutics. So says Friedbert Weiss, leader of an investigative team at the Scripps Research Institute in La Jolla, California, in Neuropsychopharmacology published by Springer Nature.
Staying drug-free is a constant battle for abstinent addicts. This struggle is made more difficult when former-addicts find themselves in drug-related settings, experience stress or higher levels of anxiousness. Many struggle to control their impulses when offered an addictive drug like alcohol or cocaine.
Weiss and his research associate Gustavo Gonzalez-Cuevas set out to test the effect of Cannabidiol (CBD) on drug relapse in a rat model. CBD is the major non-psychoactive ingredient of Cannabis sativa, a plant that is used to make marijuana. CBD has been considered for some time as a possible treatment for various neurological and psychiatric disorders, and more recently also for the treatment of drug and alcohol addiction.
The researchers applied a gel containing CBD once per day for a week to the skin of the rats in the current study. These animals had a history of voluntary daily alcohol or cocaine self-administration, leading to addiction-like behaviour. Various tests were performed to see how they reacted to stressful and anxiety-provoking situations and behavior in tests of impulsivity, a psychological trait associated with drug addiction. The researchers reported that CBD effectively reduced relapse provoked by stress and drug cues; CBD also reduced anxiety and impulsivity in the drug-experienced rats.
Further studies showed that CBD was completely cleared from the brain and plasma of the rats three days after the therapy was completed. Quite unexpectedly though, five months later, experimental animals that had been treated with CBD still showed a reduced relapse induced by stress or drug cues. The authors of the study believe that insight into the mechanisms by which CBD exerts these effects in future research may open new vistas for the pharmacotherapeutic prevention of relapse to drug use.
"The efficacy of the cannabinoid [CBD] to reduce reinstatement in rats with both alcohol and cocaine -- and, as previously reported, heroin -- histories predicts therapeutic potential for addiction treatment across several classes of abused drugs," says Weiss. "The results provide proof of principle supporting the potential of CBD in relapse prevention along two dimensions: beneficial actions across several vulnerability states, and long-lasting effects with only brief treatment." He goes on to say that "Drug addicts enter relapse vulnerability states for multiple reasons. Therefore, effects such as these observed with CBD that concurrently ameliorate several of these are likely to be more effective in preventing relapse than treatments targeting only a single state."
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Journal Reference:
Gonzalez-Cuevas, G. et al. Unique treatment potential of cannabidiol for the prevention of relapse to drug use: Preclinical proof of principle. Neuropsychopharmacology, 2018 DOI: 10.1038/S41386-018-0050-8
Cite This Page:
Springer. "Non-psychoactive cannabis ingredient could help addicts stay clean: Preclinical study using rats shows that Cannabidiol can reduce the risk of relapse." ScienceDaily. ScienceDaily, 23 March 2018. <www.sciencedaily.com/releases/2018/03/180323104821.htm>.
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