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机构地区:[1]复旦大学药学院药剂学教研室,上海200032
出 处:《药学学报》2002年第3期226-228,共3页Acta Pharmaceutica Sinica
摘 要:目的 研制具有良好粘附性能和缓释效果的甲硝唑生物粘附微球 (Metro EC CP微球 )。方法 通过液中干燥法制备Metro EC CP微球。对微球理化性质、体外释药及在SD大鼠体内胃粘膜上的粘附性进行了研究。结果微球的平均粒径为 5 5 9 87μm。体外释药符合一级动力学。微球的释药速率随着粒径的增加及载药量的减少而减慢。Metro EC CP微球中粘附性材料CP含量增加 ,其生物粘附性能增加 ,而其缓释效果降低。结论 乙基纤维素(EC) 卡波姆 934P(CP)为 17∶3、载药量为 2 5 %的微球在动物体内具有良好的胃粘膜粘附性能 ,药物缓释达 8h。AIM To prepare bioadhesive microspheres of metronidazole (Metro) with prolonging resident time in the stomach and sustaining drug release. METHODS The microspheres were prepared by a drying-in-liquid method. The appearance, particle size and drug release in vitro were examined. The factors influencing bioadhesive property and drug release, such as ethyl cellulose (EC) / carbopol 934P (CP) ratio, particle size and Metro content were investigated. RESULTS The average diameter of the Metro-EC-CP microspheres was 559 9 μm. The release profiles of metronidazole were shown to fit to first-order equations well. With the increase of CP content in the Metro-EC-CP microspheres, the microspheres showed better mucoadhesion and faster drug release. The drug release rate decreased with the increase of particle size and the decrease of Metro content. CONCLUSION The Metro-EC-CP microspheres have a sound mucoadhsive property and sustained drug release when the ratio of EC and CP was 17∶3 and Metro content was 25%. The drug release was shown to last for 8 h in 0 1 mol·L -1 hydrochloric acid.
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