Yukako Nakano scite author profile

Yukako Nakano

2Publications

45Citation Statements Received

88Citation Statements Given

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Showa University

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Development of a Novel Nanoemulsion Formulation to Improve Intestinal Absorption of Cannabidiol

Nakano

Tajima

Sugiyama

et al. 2019

Med Cannabis Cannabinoids

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Background: Cannabidiol (CBD) is highly lipophilic, and its oral bioavailability is known to be very low in humans. In this study, we developed a novel nanoemulsion preparation of CBD (CBD-NE) to improve the poor solubility and absorption of CBD. The pharmacokinetic profiles of CBD in rats were evaluated after oral administrations of CBD oil and CBD-NE, and the effect of bile secretion on CBD absorption was also evaluated. Methods: The CBD-NE formulation developed in this study consisted of vitamin E acetate, ethanol, Tween-20, and distilled water (1.7/3.8/70/24.5, w/w%). A CBD oil formulation (CBD oil, control) 100 mg/kg or CBD-NE 50 mg/kg was orally administered to rats, and the blood samples were collected over time. Moreover, the CBD oil or CBD-NE was orally administered to bile-fistulated rats, and the pharmacokinetic profiles of CBD were also evaluated. CBD concentrations in plasma were measured using LC-MS/MS. Results: The particle size of CBD-NE was 35.3 ± 11.8 nm. Mean T_max of CBD-NE was shortened significantly by the factor of 3 (from 8.00 to 2.40 h, p < 0.001) and AUC_0–_∞/dose increased by 65% (from 0.272 ± 0.045 to 0.448 ± 0.087 h L/kg) compared with CBD oil. AUC_0–_∞/dose and C_max/dose after oral administration of CBD oil were significantly reduced by the factor of 27 and 23 (p < 0.05 and p < 0.01), respectively, in bile-fistulated rats compared with the untreated rats. In contrast, all pharmacokinetic parameters after oral administration of CBD-NE were not significantly different between the untreated and bile-fistulated rats. Therefore, these results demonstrated that conventional CBD oil formulation but not CBD-NE requires bile-mediated micelle formation. Conclusions: The novel NE formulation developed in this study successfully improved the absorption of CBD regardless of bile secretion. The newly developed oral CBD-NE preparation could be useful to achieve a more stable and quicker onset of action by CBD.

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Nonlinear Disposition and Metabolic Interactions of Cannabidiol Through CYP3A Inhibition In Vivo in Rats

Nagao

Nakano

Tajima

et al. 2020

Cannabis and Cannabinoid Research

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Introduction: Cannabidiol (CBD) is known to affect the pharmacokinetics of other drugs through metabolic inhibition of CYP2C19 and CYP3A4. However, there is a lack of in vivo evidence for such drug interactions. Therefore, we investigated the saturability of CBD metabolism and CBD-drug interactions through inhibition of CYP3A in vivo. Materials and Methods: A nanoemulsion formulation of CBD (CBD-NE) was orally administered to rats at doses of 5, 10, 25, and 50 mg/kg, and plasma concentrations of CBD were measured by using liquid chromatography-tandem mass spectrometry (LC-MS/MS) to examine the dose-dependency of CBD exposure (area under the curve [AUC]). To examine the effect of a CYP3A inhibitor on CBD pharmacokinetics, rats were orally pretreated with 50 mg/kg ketoconazole (KCZ), a strong CYP3A inhibitor, before oral administration of CBD-NE at doses of 10 and 50 mg/kg, and plasma concentrations of CBD were measured using LC-MS/MS. Moreover, 13 C-erythromycin was orally administered following administration of either NE (without CBD), as a control, or CBD-NE at 1, 10, and 50 mg/kg, and 13 C-breath response was measured by using an infrared analyzer. Results: After administration of various doses of the nanoemulsified CBD formulation to rats, the exposure of CBD (i.e., the AUC calculated from the plasma concentration-time profile) increased in a greater than doseproportional manner, especially at doses above 10 mg/kg. The AUC and maximum plasma concentration (C max) of CBD after oral administration of CBD-NE (10 mg/kg) increased approximately three times by the coadministration of KCZ. Moreover, according to the CBD-induced changes of 13 C-breath response, the metabolism of 13 C-erythromycin was shown to be inhibited by CBD at doses of 10 and 50 mg/kg, but not at 1 mg/kg. Conclusions: Nonlinear disposition and CYP-mediated drug interactions of CBD at doses exceeding 10 mg/kg were demonstrated for the first time in vivo in rats. Given the present results, it is proposed that caution for dosedependent drug interactions should be considered for CBD.

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Yukako Nakano

Development of a Novel Nanoemulsion Formulation to Improve Intestinal Absorption of Cannabidiol

Nonlinear Disposition and Metabolic Interactions of Cannabidiol Through CYP3A Inhibition In Vivo in Rats

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Yukako Nakano

Development of a Novel Nano­emulsion Formulation to Improve Intestinal Absorption of Cannabidiol

Nonlinear Disposition and Metabolic Interactions of Cannabidiol Through CYP3A Inhibition In Vivo in Rats

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Development of a Novel Nanoemulsion Formulation to Improve Intestinal Absorption of Cannabidiol