Zhang Qi, Guo Kunkun, Wang Xin, Huang Baolin, Lin Zimin, Cai Zheng
School of Pharmaceutical Sciences, Guangdong Provincial Key Laboratory of New Drug Screening, Southern Medical University, Guangzhou, China.
Institute of Materia Medica, Hangzhou Medical College, Hangzhou, China.
Drug Dev Ind Pharm. 2020 Sep;46(9):1507-1516. doi: 10.1080/03639045.2020.1810265. Epub 2020 Aug 27.
The blocking effect of S-carvedilol (S-CAR) on the beta-adrenoceptor is about 100 times stronger than that of the right-handed conformation. However, further development is restricted because of its poor bioavailability caused by its low solubility and high first-pass effect. In the study, S-CAR self-microemulsifying drug-delivery systems (SMEDDSs) were established, and the effects of different lipid materials on the absorption and metabolism of S-CAR were investigated.
Six kinds of lipid materials with different chemical structures including oleic acid, glycerol monooleate, glycerol trioleate, oleoyl macrogol-6 glycerides, soybean lecithin, and α-tocopherol were selected to be the oil phase. The S-CAR SMEDDSs were prepared by the same ratio. characteristics, release, intestine absorption, and bile excretion, as well as the characteristic of relative bioavailability, were determined.
The lipid structure significantly affected physical characteristics, the absorption and excretion rates of S-CAR SMEDDSs. The findings of rat-intestine perfusion experiments showed that the S-CAR SMEDDSs decreased the bile-excretion rate of S-CAR. Compared with the S-CAR group, the oleic acid and soybean lecithin groups decreased the bile excretion to 32% and 45%, respectively. Pharmacokinetic studies showed that the AUCs of these two groups were about 1.9 and 1.7 times more than that of the S-CAR group, and the mean retention time was extended.
The SMEDDS using ionic lipids (oleic acid or soybean lecithin) as oil phase can increase the oral bioavailability of S-CAR by increasing the solubility and reducing the first-pass effect.
S-卡维地洛(S-CAR)对β-肾上腺素受体的阻断作用比其右旋构象强约100倍。然而,由于其低溶解度和高首过效应导致生物利用度差,进一步开发受到限制。本研究建立了S-CAR自微乳化给药系统(SMEDDSs),并研究了不同脂质材料对S-CAR吸收和代谢的影响。
选择六种化学结构不同的脂质材料,包括油酸、单油酸甘油酯、三油酸甘油酯、聚乙二醇6油酸甘油酯、大豆卵磷脂和α-生育酚作为油相。按相同比例制备S-CAR SMEDDSs。测定其特性、释放、肠道吸收、胆汁排泄以及相对生物利用度特征。
脂质结构显著影响S-CAR SMEDDSs的物理特性、吸收和排泄速率。大鼠肠道灌注实验结果表明,S-CAR SMEDDSs降低了S-CAR的胆汁排泄率。与S-CAR组相比,油酸组和大豆卵磷脂组的胆汁排泄分别降至32%和45%。药代动力学研究表明,这两组的AUC分别比S-CAR组高约1.9倍和1.7倍,平均保留时间延长。
以离子型脂质(油酸或大豆卵磷脂)为油相的SMEDDSs可通过增加溶解度和降低首过效应提高S-CAR的口服生物利用度。
