了解表面成分对共喷雾干燥复合粉末吸入制剂体外溶解和雾化的影响。
Understanding the Impacts of Surface Compositions on the In-Vitro Dissolution and Aerosolization of Co-Spray-Dried Composite Powder Formulations for Inhalation.
机构信息
Department of Industrial and Physical Pharmacy, College of Pharmacy, Purdue University, 575 Stadium Mall Drive, West Lafayette, Indiana, 47907, USA.
Birck Nanotechnology Center, Purdue University, 1205 West State Street, West Lafayette, Indiana, 47907, USA.
出版信息
Pharm Res. 2018 Nov 7;36(1):6. doi: 10.1007/s11095-018-2527-x.
PURPOSE
Dissolution behavior of dry powder inhaler (DPI) antibiotic formulations in the airways may affect their efficacy especially for poorly-soluble antibiotics such as azithromycin. The main objective of this study was to understand the effects of surface composition on the dissolution of spray dried azithromycin powders by itself and in combination with colistin.
METHODS
Composite formulations of azithromycin (a poorly water-soluble molecule) and colistin (a water-soluble molecule) were produced by spray drying. The resultant formulations were characterized for particle size, morphology, surface composition, solid-state properties, solubility and dissolution.
RESULTS
The results demonstrate that surfaces composition has critical impacts on the dissolution of composite formulations. Colistin was shown to increase the solubility of azithromycin. For composite formulations with no surface colistin, azithromycin released at a similar dissolution rate as the spray-dried azithromycin alone. An increase in surface colistin concentration was shown to accelerate the dissolution of azithromycin. The dissolution of colistin from the composite formulations was significantly slower than the spray-dried pure colistin. In addition, FTIR spectrum showed intermolecular interactions between azithromycin and colistin in the composite formulations, which could contribute to the enhanced solubility and dissolution of azithromycin.
CONCLUSIONS
Our study provides fundamental understanding of the effects of surface concentration of colistin on azithromycin dissolution of co-spray-dried composite powder formulations.
目的
干粉吸入剂(DPI)抗生素制剂在气道中的溶解行为可能会影响其疗效,特别是对于阿奇霉素等水溶性较差的抗生素。本研究的主要目的是了解表面成分对喷雾干燥阿奇霉素粉末本身及其与多粘菌素组合的溶解的影响。
方法
通过喷雾干燥制备阿奇霉素(水溶性差的分子)和多粘菌素(水溶性分子)的复合配方。对所得配方进行粒径、形态、表面成分、固态特性、溶解度和溶解度进行了表征。
结果
结果表明,表面成分对复合配方的溶解有重要影响。多粘菌素可提高阿奇霉素的溶解度。对于没有表面多粘菌素的复合制剂,阿奇霉素的释放溶解速度与单独喷雾干燥的阿奇霉素相似。表面多粘菌素浓度的增加可加速阿奇霉素的溶解。复合制剂中多粘菌素的溶解速度明显慢于喷雾干燥的纯多粘菌素。此外,傅里叶变换红外光谱(FTIR)显示了复合制剂中阿奇霉素和多粘菌素之间的分子间相互作用,这可能有助于提高阿奇霉素的溶解度和溶解速度。
结论
本研究为了解表面多粘菌素浓度对共喷雾干燥复合粉末制剂中阿奇霉素溶解的影响提供了基础认识。
Zotero 插件