膜乳化
乳状液
化学工程
材料科学
超声
粒径
乙二醇
膜
PEG比率
聚结(物理)
分散性
聚乙二醇
聚合物
色谱法
化学
高分子化学
复合材料
生物化学
物理
财务
天体生物学
工程类
经济
作者
Qiang Wei,Wei Wei,Rui Tian,Lianyan Wang,Zhiguo Su,Guanghui Ma
标识
DOI:10.1016/j.jcis.2008.04.058
摘要
Relatively uniform-sized poly(lactide-co-ethylene glycol) (PELA) microspheres with high encapsulation efficiency were prepared rapidly by a novel method combining emulsion-solvent extraction and premix membrane emulsification. Briefly, preparation of coarse double emulsions was followed by additional premix membrane emulsification, and antigen-loaded microspheres were obtained by further solidification. Under the optimum condition, the particle size was about 1 μm and the coefficient of variation (CV) value was 18.9%. Confocal laser scanning microscope and flow cytometer analysis showed that the inner droplets were small and evenly dispersed and the antigen was loaded uniformly in each microsphere when sonication technique was occupied to prepare primary emulsion. Distribution pattern of PEG segment played important role on the properties of microspheres. Compared with triblock copolymer PLA–PEG–PLA, the diblock copolymer PLA–mPEG yielded a more stable interfacial layer at the interface of oil and water phase, and thus was more suitable to stabilize primary emulsion and protect coalescence of inner droplets and external water phase, resulting in high encapsulation efficiency (90.4%). On the other hand, solidification rate determined the time for coalescence during microspheres fabrication, and thus affected encapsulation efficiency. Taken together, improving the polymer properties and solidification rate are considered as two effective strategies to yield high encapsulation.
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