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超饱和自微乳化药物传递系统结合亲水性聚合物提高姜黄素生物利用度的研究:体外和体内特征。

Improvement of the bioavailability of curcumin by a supersaturatable self nanoemulsifying drug delivery system with incorporation of a hydrophilic polymer: in vitro and in vivo characterisation.

机构信息

Key Laboratory of Modern Preparation of Traditional Chinese Medicine, Ministry of Education, Jiangxi University of Traditional Chinese Medicine, Nanchang, China.

出版信息

J Pharm Pharmacol. 2021 Mar 27;73(5):641-652. doi: 10.1093/jpp/rgaa073.

DOI:10.1093/jpp/rgaa073
PMID:33772289
Abstract

OBJECTIVES

The current study was focused on preparing curcumin (CUR) supersaturated self-nano-emulsion (PI-CUR-SNEDDS) using hydrophilic polymer and to study the influence of polymer precipitation inhibitor on the physicochemical and biopharmaceutical properties of the PI-CUR-SNEDDS.

METHODS

PI-CUR-SNEDDS were prepared using hydrophilic polymer in order to maintain the supersaturation of CUR in nano-emulsion solution, artificial gastrointestinal fluid (AGF), and the precipitates formed, and characterised by in vitro dispersion tests, in vitro intestinal absorption and in vivo pharmacokinetic and compared with CUR-SNEDDS.

KEY FINDINGS

PI-CUR-SNEDDS prepared with 2% hydroxypropyl methylcellulose 55-60 (HPMC55-60) as precipitation inhibitor (PI) significantly improved the viscosity, physical stability and CUR's equilibrium solubility of nanoemulsion. HPMC55-60 and CUR interact in AGF through intermolecular interactions, form hydrogen bonds, and produce amorphous precipitates. Compared with CUR-SNEDDS, the proportion of CUR in the hydrophilic phase increased by about 3-fold, and apparent permeability coefficient (Papp) in duodenum, jejunum, ileum, and colon increased by 2.30, 3.65, 1.54 and 2.08-fold, respectively, and the area under the plasma concentration-time curve0-12h of PI-CUR-SNEDDS also increased by 3.50-fold.

CONCLUSIONS

Our results suggested that HPMC55-60 maintained the CUR supersaturation state by forming hydrogen bonds with CUR, increasing the solution's viscosity and drug solubilisation, thus improving the absorption and bioavailability of CUR.

摘要

目的

本研究旨在制备姜黄素(CUR)超饱和自纳米乳(PI-CUR-SNEDDS),使用亲水性聚合物,并研究聚合物沉淀抑制剂对 PI-CUR-SNEDDS 的理化和生物药剂学性质的影响。

方法

使用亲水性聚合物制备 PI-CUR-SNEDDS,以维持 CUR 在纳米乳液溶液、人工胃肠液(AGF)和形成的沉淀中的超饱和度,并通过体外分散试验、体外肠吸收和体内药代动力学进行表征,并与 CUR-SNEDDS 进行比较。

主要发现

用 2%羟丙基甲基纤维素 55-60(HPMC55-60)作为沉淀抑制剂(PI)制备的 PI-CUR-SNEDDS 显著提高了纳米乳的粘度、物理稳定性和 CUR 的平衡溶解度。HPMC55-60 和 CUR 通过分子间相互作用在 AGF 中相互作用,形成氢键,并产生无定形沉淀。与 CUR-SNEDDS 相比,亲水相中的 CUR 比例增加了约 3 倍,十二指肠、空肠、回肠和结肠的表观渗透系数(Papp)分别增加了 2.30、3.65、1.54 和 2.08 倍,PI-CUR-SNEDDS 的血浆浓度-时间曲线下面积 0-12h 也增加了 3.50 倍。

结论

我们的结果表明,HPMC55-60 通过与 CUR 形成氢键,增加溶液的粘度和药物溶解度,从而维持 CUR 的超饱和状态,提高 CUR 的吸收和生物利用度。

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