Preparation of Oleanolic Acid Nanoliposomes and Its Pharmacokinetics Investigation in Rats

XU Bo-hui; LI Xiao-xia; CHAI Jing; SHAN Yu-mei; TAN Qun

doi:10.11653/syfj2013210170

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Preparation of Oleanolic Acid Nanoliposomes and Its Pharmacokinetics Investigation in Rats

更新时间：2024-01-04

- Preparation of Oleanolic Acid Nanoliposomes and Its Pharmacokinetics Investigation in Rats
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 19, Issue 21, Pages: 170-174(2013)
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- DOI：10.11653/syfj2013210170
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- Published：2013
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XU Bo-hui, LI Xiao-xia, CHAI Jing, et al. Preparation of Oleanolic Acid Nanoliposomes and Its Pharmacokinetics Investigation in Rats[J]. Chinese journal of experimental traditional medical formulae, 2013, 19(21): 170-174.
DOI：

XU Bo-hui, LI Xiao-xia, CHAI Jing, et al. Preparation of Oleanolic Acid Nanoliposomes and Its Pharmacokinetics Investigation in Rats[J]. Chinese journal of experimental traditional medical formulae, 2013, 19(21): 170-174. DOI： 10.11653/syfj2013210170.

摘要

目的: 制备齐墩果酸纳米脂质体

初步考察其在大鼠体内的药动学行为。方法: 采用逆相蒸发法制备齐墩果酸纳米脂质体并对其进行表征

采用葡聚糖凝胶柱色谱法测定包封率。大鼠尾静脉注射齐墩果酸纳米脂质体和自制齐墩果酸溶液

以原人参二醇为内标物

采用HPLC测定不同时间血浆中齐墩果酸含量

采用PK-Solver2.0药动学软件进行非房室模型处理

并将药动学参数进行统计学分析。结果: 制得的脂质体为圆形或类圆形的小囊泡

平均粒径(98.11±0.32) nm

包封率(81.2±1.21)%。与齐墩果酸溶液相比

齐墩果酸纳米脂质体静脉注射后

其t1/2和MRT延长

AUC0-t提高

CL_obs降低。结论: 制备的齐墩果酸纳米脂质体具有较小粒径和较高包封率

显著提高了齐墩果酸的生物利用度

延长了其在体内的滞留时间。

Abstract

Objective: To prepare oleanolic acid nanoliposomes and investigate its in vivo pharmacokinetics behavior in rats. Method: Oleanolic acid nanoliposomes were prepared by reverse-phase evaporation and characterized

entrapment efficiency was determined by sephadex column chromatography.Rats were injected with oleanolic acid nanoliposomes and oleanolic acid solution prepared by ourselves via the tail

respectively.The plasma concentrations of oleanolic acid from samples were determined by HPLC

with protopanaxadiol as internal standard.Pharmacokinetic parameters and non-compartment models were analyzed by t-test and PK-Slover 2.0 software

respectively. Result: Oleanolic acid nanoliposomes were round or oval vesicles with the mean diametre of (98.11±0.32) nm and encapsulation efficiency of (81.2±1.21)%.The plasma concentration-time curves of the nanoliposomes and solution conformed to non-compartmental model.By comparing with oleanolic acid solution

t1/2 and MRT of oleanolic acid nanoliposomes extended

AUC0-t increased and CL_obs decreased. Conclusion: Oleanolic acid nanoliposomes with high entrapment efficiency and small particle size had significantly improved bioavailability of oleanolic acid and prolonged its in vivo retention time.

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