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雪莲总黄酮胶囊的成型工艺优选     被引量:9

Optimization of Molding Technology of Saussurea involucrata Total Flavonoids Capsule

文献类型:期刊文献

中文题名:雪莲总黄酮胶囊的成型工艺优选

英文题名:Optimization of Molding Technology of Saussurea involucrata Total Flavonoids Capsule

作者:何蕾[1,2];马慧萍[1,2];何晓英[2];董志臣[2];贾正平[2];彭晓霞[1]

第一作者:何蕾

机构:[1]甘肃中医学院中药系,兰州730050;[2]兰州军区兰州总医院药材科/全军高原环境损伤防治重点实验室,兰州730050

第一机构:甘肃中医药大学药学院(西北中藏药协同创新中心办公室)

年份:2015

卷号:26

期号:7

起止页码:967

中文期刊名:中国药房

外文期刊名:China Pharmacy

收录:CSTPCD;;北大核心:【北大核心2014】;

基金:国家科技部重大专项资助项目(No.2008ZX J09014-010);甘肃省自然科学研究基金计划项目(No.1107R JZA 100);全军医药卫生科研基金课题(No.CLZ11JA06)

语种:中文

中文关键词:雪莲总黄酮;胶囊;成型工艺;休止角;堆密度;吸湿率;临界相对湿度

外文关键词:Saussurea involucrata total flavonoids; Capsule; Molding technology; Angle of repose; Bulk density; Moistureabsorption rate; Critical relative humidity

摘要:目的:确定雪莲总黄酮胶囊最优成型工艺条件,为其工业化生产提供依据。方法:以休止角、吸湿率、堆密度、临界相对湿度为考察指标,对辅料种类(乳糖、β-环糊精、可溶性淀粉、微粉硅胶、微晶纤维素)及辅料加入量进行筛选,确定最优成型工艺条件并进行验证试验。结果:以微粉硅胶为辅料所制处方颗粒的休止角和吸湿率结果更符合要求,其最佳加入量为10.0%(与雪莲总黄酮浸膏配比为1∶9),选用0号胶囊。颗粒的临界相对湿度为62%,最优成型工艺条件所制3批样品颗粒的休止角为31.8°、堆密度为0.308 5 g/ml、临界相对湿度为62.13%、崩解时限为18.67 min、水分为7.8%(RSD≤1.15%,n=3),均符合胶囊的质量要求。结论:本试验确定的成型工艺操作简单、方便可行,适合工业化生产。
OBJECTIVE: To provide reference for industrial production of Saussurea involucrata total flavonoids capsule by de- termining the optimal molding technology. METHODS: Using angle of repose, moisture absorption rate, bulk density and critical relative humidity (CRH) as index, the types (lactose, β-cyclodextrin, soluble starch, micronization silica gel, microcrystalline cel- lulose) and amounts of excipients were screened to determine optimal molding technology, and validation test was also performed. RESULTS: The particles which were prepared using micronization silica gel as excipient were more in line with the requirements. The optimal technology was as follows as micronization silica gel 10.0% (ratio of it to S. involucrata total flavonoids extractum of 1:9), No. 0 capsule, CRH 62%. In the validation study of 3 batches of samples prepared by optimal molding technology, the fol- lowing conditions all met the requirements of capsules. The angle of repose was 31.8° ; the bulk density was 0.308 5 g/ml; CRH was 62.13% ; disintegration time was 18.67 min; moisture was 7.8% (all RSDs≤l.15%, n=3). CONCLUSIONS: The molding technology is simple, convenient, feasible, and suitable for industrial production.

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