非洛地平纳米混悬液固化方法的考察  被引量:1

Investigation of Two Kinds of Solidification Methods for Felodipine Nanosuspension: Flocculation Versus Lyophilization

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作  者:杜郁茜 李艳[1] 魏巍[1] 付强[1] 何仲贵[1] 孙进[1,2] 

机构地区:[1]沈阳药科大学药学院,沈阳110016 [2]天津药物研究所释药技术与药代动力学国家重点实验室,天津300193

出  处:《中国药学杂志》2014年第13期1152-1155,共4页Chinese Pharmaceutical Journal

基  金:国家基础科学人才培养基金项目(J1103606);国家自然科学基金资助项目(81173008);国家重大基础研究计划(973计划)"纳米技术增加难溶药物的水溶性及作用机理研究"(2009CB930300)

摘  要:目的非洛地平纳米混悬液存在物理不稳定性,本实验旨在采用固化方法提高其物理稳定性。方法分别采用絮凝法和冷冻干燥法对非洛地平纳米混悬液进行固化。结果非洛地平纳米混悬液的平均粒径为151 nm,呈单峰分布。絮凝后仅有76.7%小于1μm,且呈三峰分布;以20%甘露醇-甘氨酸(1∶1,W/W)组对混悬剂的保护作用冻干效果最好,平均粒径在375 nm左右的粒子占80%左右,其余粒径更小。结论选择冷冻干燥法固化非洛地平纳米混悬液,并且采用20%的甘露醇-甘氨酸(1∶1,W/W)溶液为保护剂时,冻干效果最好。OBJECTIVE To solve the stability problem of felodipine nanosuspension which is a physically unstable colloidal dispersion by solidification method. METHODS Two different methods, flocculation and lyophilization, were applied to solidi- fy the felodipine nanosuspension. RESULTS The mean particle size of the felodipine nanosuspension was 151 nm and was uni- modally distributed, but only 76.7% particulates were smaller than 1 p,m following flocculation. For lyophilization, it was shown that 20% (W/V) of mannitol-glycine ( 1 : 1, W/W) could stabilize the colloidal system best. CONCLUSION Lyophilization is considered to be superior to flocculation in the aspects of redispersed particle size, and 20% (W/V) of mannitol-glycine ( 1 : I , W/W) is selected as the optimal cryoproteetant.

关 键 词:非洛地平 纳米混悬液 物理稳定性 絮凝法 冷冻干燥法 

分 类 号:R944[医药卫生—药剂学]

 

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