响应面法优化PLA-α-细辛脑纳米粒的制备工艺

陆瑾; 于雪娥; 付廷明; 展冠军<sup>*</sup>; 郭立玮<sup>*</sup>

引用本文:	陆瑾,于雪娥,付廷明,展冠军,郭立玮.响应面法优化PLA-α-细辛脑纳米粒的制备工艺[J].中国现代应用药学,2018,35(2):182-187.
	LU Jin,YU Xue'e,FU Tingming,ZHAN Guanjun,GUO Liwei.Response Surface Methods for Formulation Optimization of PLA-α-Asarone Nanoparticles[J].Chin J Mod Appl Pharm(中国现代应用药学),2018,35(2):182-187.

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响应面法优化PLA-α-细辛脑纳米粒的制备工艺
陆瑾^1,2, 于雪娥³, 付廷明³, 展冠军², 郭立玮³
1.南京市大厂医院, 南京 210048;2.东南大学附属中大医院, 南京 210009;3.南京中医药大学, 南京 210023

摘要:

目的使用响应面法优化聚乳酸（polylactic acid，PLA）-α-细辛脑纳米粒的工艺条件。方法利用Plackett-Burman实验设计对纳米粒制备过程中的各种自变量进行预筛选。筛选出的自变量通过中心复合实验设计法进一步优化工艺，以期得到具有理想粒径、载药量及包封率的纳米粒。结果最佳工艺处方如下：PLA浓度14.76 mg·mL^-1，α-细辛脑药物浓度4.89 mg·mL^-1，PVA浓度1%，油水比1∶2。制备的PLA-α-细辛脑纳米粒圆整、粒径均一，平均粒径265.4 nm，多分散系数为0.038，载药量12.40%，包封率55.86%，与预测值相对误差较小。结论响应面法能够有效地优化PLA-α-细辛脑纳米粒的制备，工艺稳定可行。

关键词: α-细辛脑纳米粒 Plackett-Burman实验设计中心复合实验设计工艺优化

DOI：10.13748/j.cnki.issn1007-7693.2018.02.007

分类号:R284.1

基金项目:

Response Surface Methods for Formulation Optimization of PLA-α-Asarone Nanoparticles

LU Jin^1,2, YU Xue'e³, FU Tingming³, ZHAN Guanjun², GUO Liwei³

1.Nanjing Dachang Hospital, Nanjing 210048, China;2.Zhongda Hospital, Southeast University, Nanjing 210009, China;3.Nanjing University of Chinese Medicine, Nanjing 210023, China

Abstract:

OBJECTIVE To optimize formulation of PLA-α-asarone nanoparticles(NP) by response surface methodology (RSM). METHODS Plackett-Burman design for independent variables was firstly conducted to prescreen various formulations and process variables during the development of NP. Selected primary variables were further optimized by central composite design. This process lead to an optimum formulation with desired particle size, drug loading and encapsulation efficiency. RESULTS Optimum formulation was as follows:PLA concentration 14.76 mg·mL^-1, α-asarone concentration 4.89 mg·mL^-1, PVA concentration 1% and volume ratio of oil-water 1:2. These prepared PLA-α-asarone nanoparticles had round surface and uniform size with average particle size of 265.4 nm, PDI index of 0.038, drug loading efficiency of 12.40% and encapsulation efficiency of 55.86%, relative errors of these parameters were small by comparing with the bias values. CONCLUSION The study demonstrates the feasibility that response surface methodology can be used to optimize the formulation and process variables to achieve favorable responses for PLA-α-asarone nanoparticles.

Key words: α-asarone nanoparticle Plackett-Burman central composite design formulation optimization