Box-Behnken效应面法优化松果菊苷PLGA纳米粒处方工艺  被引量:8

Formula optimization of echinacoside-loaded PLGA nanoparticles by Box-Behnken design and response surface method

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作  者:苏珊珊[1] 陈文[1] 方贺[1] 李佳[1] 张雅[1] 韩博[1] 

机构地区:[1]石河子大学药学院药学系,石河子832002

出  处:《中国新药杂志》2016年第9期1069-1074,共6页Chinese Journal of New Drugs

基  金:国家自然科学基金(81160395)

摘  要:目的:优化松果菊苷(echinacoside,ECH)聚乳酸羟基乙酸[poly(lactic-co-glycolic acid),PLGA]纳米粒。方法:以PLGA为药物载体,采用复乳溶剂挥发法制备松果菊苷纳米粒。分别以PLGA质量浓度、泊洛沙姆188(poloxamer 188,F68)质量浓度、内水相油相体积比为考察对象,以包封率为和粒径为评价指标,采用Box-Behnken效应面法筛选最优处方。结果:最优处方为PLGA(w/v)5.00%,F68(w/v)2.57%,内水相油相体积比1∶1.163(0.86),所得纳米粒粒径为(149.42±1.56)nm,包封率为(88.39±2.18)%,与模型预测值接近。体外释放试验结果表明其具有缓释效果。结论:采用Box-Behnken效应面法优化松果菊苷PLGA纳米粒的处方是有效、可行的。Objective: To optimize the formula of echinacoside-loaded PLGA nanoparticles. Methods: The nanoparticles were prepared by the complex emulsion solvent evaporation method using PLGA as drug carriers. The effects of the concentrations of PLGA and poloxamer 188( F68),and the internal water-oil phase ratio were investigated. According to the encapsulation efficiency and particle diameter,the formula was optimized by Box-Behnken design and response surface method. Results: The optimal formula was as follows: PLGA( w / v) concentration was5. 00%,F68( w / v) concentration was 2. 57%,and internal water-oil phase ratio was 1∶ 1. 163( 0. 86),respectively. The particle diameter was( 149. 42 ± 1. 56) nm and the encapsulation efficiency was( 88. 39 ± 2. 18) %,which were very close to the predicted values. Moreover,in vitro release tests showed that the prepared nanoparticles had sustained-release effects. Conclusion: It is effective and feasible to apply Box-Behnken design and response surface method for the formula optimization of the echinacoside-loaded PLGA nanoparticles.

关 键 词:松果菊苷 纳米粒 Box-Behnken 效应面法 

分 类 号:R943[医药卫生—药剂学]

 

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