Cannabidiol bioavailability after nasal and transdermal application: effect of permeation enhancers

AbstractContext: The nonpsychoactive cannabinoid, cannabidiol (CBD), has great potential for the treatment of chronic and ‘breakthrough’ pain that may occur in certain conditions like cancer. To fulfill this goal, suitable noninvasive drug delivery systems need to be developed for CBD. Chronic pain relief can be best achieved through the transdermal route, whereas ‘breakthrough’ pain can be best alleviated with intranasal (IN) delivery. Combining IN and transdermal delivery for CBD may serve to provide patient needs-driven treatment in the form of a nonaddictive nonopioid therapy. Objective: Herein we have evaluated the IN and transdermal delivery of CBD with and without permeation enhancers. Materials and Methods: In vivo studies in rats and guinea pigs were carried out to assess nasal and transdermal permeation, respectively. Results: CBD was absorbed intranasally within 10 minutes with a bioavailability of 34–46%, except with 100% polyethylene glycol formulation in rats. Bioavailability did not improve with enhancers. The steady-state plasma concentration of CBD in guinea pigs after transdermal gel application was 6.3 ± 2.1 ng/mL, which was attained at 15.5 ± 11.7 hours. The achievement of a significant steady-state plasma concentration indicates that CBD is useful for chronic pain treatment through this route of administration. The steady-state concentration increased by 3.7-fold in the presence of enhancer. A good in vitro and in vivo correlation existed for transdermal studies. Conclusion: The results of this study indicated that CBD could be successfully delivered through the IN and transdermal routes.Keywords: Cannabidiolcannabinoidsguinea pigin vitro studiesin vivo studiesintranasalpharmacokineticsrattransdermal AcknowledgmentsThis work was supported by the American Cancer Society (RSG-00-027-04-CDD). CBD was a generous gift from the National Institute on Drug Abuse (Research Triangle Park, NC, USA). The authors would like to thank the National Cancer Institute Cooperative Human Tissue Network (CHTN) for supplying the skin.