在弹道粉末喷射器中燃烧时碳水化合物和蛋白质微颗粒的粉碎。

Comminution of carbohydrate and protein microparticles on firing in a ballistic powder injector.

机构信息

Division of Pharmaceutics, Friedrich-Alexander-University Erlangen, Erlangen, Germany.

出版信息

J Pharm Sci. 2010 Dec;99(12):4917-27. doi: 10.1002/jps.22213.

PMID:20575004

Abstract

The comminution of various powders produced by either spray-freeze-drying (SFD) or spray-drying (SD) on firing in a Ballistic powder injector could be evaluated quantitatively using light microscopic particle imaging. SFD lactose was damaged much less than SFD mannitol and was caused by greater mechanical strength and lower acceleration. SD lactose or mannitol showed much reduced comminution because of their low porosity. SFD lactose/mannitol/dextran 10 kDa formulations also showed less low comminution. The inclusion of catalase further reduced damage on firing. The extent of comminution on firing was found to be related to microparticle surface structure and porosity which influences both mechanical strength and acceleration.

摘要

在弹道粉末注射器中燃烧时，通过光显微镜粒子成像可以定量评估通过喷雾冷冻干燥（SFD）或喷雾干燥（SD）产生的各种粉末的粉碎情况。SFD 乳糖的损伤比 SFD 甘露醇小得多，这是由于其机械强度更大和加速度更低造成的。SD 乳糖或甘露醇由于其低孔隙率而导致粉碎程度大大降低。SFD 乳糖/甘露醇/右旋糖酐 10 kDa 配方的粉碎程度也较低。加入过氧化氢酶进一步减少了燃烧时的损伤。发现燃烧时的粉碎程度与微粒子表面结构和孔隙率有关，这影响机械强度和加速度。

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在弹道粉末喷射器中燃烧时碳水化合物和蛋白质微颗粒的粉碎。

Comminution of carbohydrate and protein microparticles on firing in a ballistic powder injector.

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