摘要
Sustained release Eudragit RL/RS microspheres encapsulating nifedipine were prepared using the acetone/liquid paraffin emulsion solvent evaporation method. The influence of different preparation factors on release of the drug in vitro was investigated. The release rate of nifedipine from the microspheres increased with increasing Eudragit RL/RS ratio and stirring rate during the preparation, and with decreasing the polymer concentration of internal phase and microsphere size. It was found that a linear relationship existed between the microsphere size and the time of 50% drug release. The drug release rate increased with increasing nifedipine content from 4.2 to 16.7% and was more rapid than the dissolution rate of pure nifedipine particles. However, the release rate of the microspheres with 26.6% drug content decreased significantly and was slower than the dissolution rate of pure drug particles. This was attributed mainly to the nifedipine dispersion state in the microspheres as confirmed by the differential thermal analysis and X ray diffraction study, which showed that nifedipine was present in an amorphous or molecular state in the microspheres with 4.2, 9.4 and 16.7% drug, whereas partly in the crystalline state in the microspheres with 26.6% drug. The amounts released for less than 70% nifedipine can be fitted to Higuchi square root of time model, independent of polymer ratio, drug content and microsphere size.
用乳剂—溶剂挥发法制备硝苯地平的丙烯酸树脂缓释微球。微球中药物的释放速度随丙烯酸树脂EudragitRL/RS比率的增加以及制备时搅拌速率的增加而增大,随内相聚合物浓度的增加及微球粒径的增加而减小,释药50%所需时间与微球粒径呈良好线性。微球的释药速率也随药物含量的增加(从4.2%到16.7%)而增大,并快于药物结晶的溶解速率,但药物含量达26.6%时,微球释药速率明显下降并低于药物结晶的溶解速率。用差热分析和X射线衍射分析证明,药物含量为4.2,9.4和16.7%的微球中药物完全是以非晶态分散的,而含药26.6%的微球中有药物结晶存在。不同微球释药低于70%时,释放方式均符合Higuchi时间平方根方程。
