利福平脂质体温敏型原位凝胶的制备及其体外释药特征研究

曹佳薇; 倪坚军; 姚君; 周峰; 周中元; 徐颖颖; 蔡鑫君<sup>*</sup>

引用本文:	曹佳薇,倪坚军,姚君,周峰,周中元,徐颖颖,蔡鑫君.利福平脂质体温敏型原位凝胶的制备及其体外释药特征研究[J].中国现代应用药学,2016,33(2):183-187.
	CAO Jiawei,NI Jianjun,YAO Jun,ZHOU Feng,ZHOU Zhongyuan,XU Yingying,CAI Xinjun.Preparation of Rifampicin Liposomes in Situ Gel System and Its in Vitro Release Mechanism[J].Chin J Mod Appl Pharm(中国现代应用药学),2016,33(2):183-187.

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利福平脂质体温敏型原位凝胶的制备及其体外释药特征研究
曹佳薇, 倪坚军, 姚君, 周峰, 周中元, 徐颖颖, 蔡鑫君
浙江省中西医结合医院药剂科，杭州 310003

摘要:

目的制备利福平脂质体温敏型原位凝胶，并对其体外性质进行研究。方法采用薄膜分散法制备利福平脂质体，并对利福平脂质体进行表征研究；以泊洛沙姆188、泊洛沙姆407为凝胶基质，制备利福平脂质体温敏型原位凝胶；以无膜溶出模型研究温敏型原位凝胶体外累积溶蚀率；采用透析袋法分析药物体外释放情况。结果制备的利福平脂质体平均粒径、聚分散指数、Zeta电位、包封率和载药量分别为(149.0±5.67)nm、0.275±0.056、-(29.8±1.59)mv、(79.6±2.67)%，(18.6±0.25)%；利福平脂质体温敏型原位凝胶的胶凝温度为(34.3±0.6)℃。体外溶蚀曲线和体外释药曲线均符合零级动力学特征。结论利福平脂质体温敏型原位凝胶的制备工艺简单易行，体外释放显示其有很好的缓释作用。

关键词: 利福平脂质体温敏型原位凝胶溶蚀

DOI：

分类号:

基金项目:杭州市卫生科技计划项目(2013A43)；杭州市科技计划引导项目(20130733Q14)

Preparation of Rifampicin Liposomes in Situ Gel System and Its in Vitro Release Mechanism

CAO Jiawei, NI Jianjun, YAO Jun, ZHOU Feng, ZHOU Zhongyuan, XU Yingying, CAI Xinjun

Department of Pharmacy, Integrated Chinese and Western Medicine Hospital of Zhejiang Province, Hangzhou 310003, China

Abstract:

OBJECTIVE To prepare temperature sensitive in situ gel of rifampicin liposomes, and study its in vitro properties. METHODS Rifampicin liposomes were prepared by film dispersion method, further, its characteristics were investigated; poloxamer 188 and poloxamer 407 were used as gel base material to prepare temperature sensitive in situ gel of rifampicin liposome. A membraneless dissolution model was used to determine gel erosion of rifampicin in situ gel system. RESULTS The zeta potential, dispersion index, the mean particle size, entrapment efficiency, drug loading of liposomes was (149.0±5.67)nm, 0.275±0.056, -(29.8±1.59)mv, (79.6±2.67)%, (18.6±0.25)%, respectively. Gel temperature of rifampicin liposomes in situ gel system was (34.3±0.6)℃. The in vitro gel erosion behavior and release behavior of the rifampicin liposomes in situ gel system exhibited the characteristics of zero order kinetics. CONCLUSION It is easy to prepare rifampicin liposomes in situ gel system with suitable formulation. The release of the rifampicin liposomes in situ gel system shows good sustained release effect in vitro.

Key words: rifampicin liposomes in situ gel system erosion