中国医药导刊
中國醫藥導刊
중국의약도간
CHINESE JOURNAL OF MEDICAL GUIDE
2013年
5期
917-918
,共2页
辅料%中药全浸膏制剂%防潮
輔料%中藥全浸膏製劑%防潮
보료%중약전침고제제%방조
Exicipient%TCM%Whole TCM extract preparation%Moisture-proof
目的:探讨中药全浸膏制剂与各种辅料合用的防潮效果.方法:通过将黄芪提取物形成的全浸膏与乳糖、可溶性淀粉、*微晶纤维素、磷酸钙、磷酸氢钙、磷酸二氢钙等,按原料+原料7%的辅料比例混合,在恒定湿度下放置36小时,分别观察放置过程中几个时间点各种辅料的吸湿率,吸湿率低即为防潮效果较佳.结果:乳糖作为辅料其吸湿性最低,防潮效果最好,其次是可溶性淀粉,磷酸钙等无机盐和微晶纤维素的吸湿性差不多.结论:乳糖和可溶性淀粉虽然防潮效果较佳,但它们吸湿后对药物的外观形态改变较大,吸收的水分易扩散到有效药物成分中去,固其综合防潮效果受到一定影响.与微晶纤维素和无机盐相比各有优缺点,实际应用中可灵活应用.
目的:探討中藥全浸膏製劑與各種輔料閤用的防潮效果.方法:通過將黃芪提取物形成的全浸膏與乳糖、可溶性澱粉、*微晶纖維素、燐痠鈣、燐痠氫鈣、燐痠二氫鈣等,按原料+原料7%的輔料比例混閤,在恆定濕度下放置36小時,分彆觀察放置過程中幾箇時間點各種輔料的吸濕率,吸濕率低即為防潮效果較佳.結果:乳糖作為輔料其吸濕性最低,防潮效果最好,其次是可溶性澱粉,燐痠鈣等無機鹽和微晶纖維素的吸濕性差不多.結論:乳糖和可溶性澱粉雖然防潮效果較佳,但它們吸濕後對藥物的外觀形態改變較大,吸收的水分易擴散到有效藥物成分中去,固其綜閤防潮效果受到一定影響.與微晶纖維素和無機鹽相比各有優缺點,實際應用中可靈活應用.
목적:탐토중약전침고제제여각충보료합용적방조효과.방법:통과장황기제취물형성적전침고여유당、가용성정분、*미정섬유소、린산개、린산경개、린산이경개등,안원료+원료7%적보료비례혼합,재항정습도하방치36소시,분별관찰방치과정중궤개시간점각충보료적흡습솔,흡습솔저즉위방조효과교가.결과:유당작위보료기흡습성최저,방조효과최호,기차시가용성정분,린산개등무궤염화미정섬유소적흡습성차불다.결론:유당화가용성정분수연방조효과교가,단타문흡습후대약물적외관형태개변교대,흡수적수분역확산도유효약물성분중거,고기종합방조효과수도일정영향.여미정섬유소화무궤염상비각유우결점,실제응용중가령활응용.
@@@@Objective:To explore the moistureproof effects of the combination of total extract of ttrational Chinese medicine and various excipients. Methods:Total extract formulated by astragalus mongholicus extract is respectively mixed together with lactose, soluble starch, microcrystalline cellulose, calcium phosphate, calcium hydrophosphate, monocalcium phosphate and the like according to the proportion of“raw material+excipient (7%of the amount of raw material)”and then laid under constant humidity for 36 hours;respectively observe the moisture rates of each excipient at every time point during the placement and the low moisture rate can be regard to be good moistureproof effect.Results:As excipient, lactose has the lowest hygroscopicity and the best moistureproof effect with soluble starch in second place; inorganic salt like calcium hydrophosphate and microcrystalline cellulose have about the same hygroscopicity. Conclusion:Although lactose and soluble starch have relatively good moistureproof effect, they can cause big changes to the appearance of drugs after moisture absorption and the absorbed water can easily diffuse into the effective drug components, therefore, influencing the general moistureproof effects in some way. Comparing with microcrystalline cellulose and inorganic salt, each has its own advantages and disadvantages, being worth flexibly using in the practical application.