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研制更理想的干粉吸入剂配方:大喷雾干燥甘露醇微球优于小微球。

Towards a more desirable dry powder inhaler formulation: large spray-dried mannitol microspheres outperform small microspheres.

机构信息

Chemistry and Drug Delivery Group, Medway School of Pharmacy, University of Kent, ME4 4TB, Kent, UK,

出版信息

Pharm Res. 2014 Jan;31(1):60-76. doi: 10.1007/s11095-013-1132-2. Epub 2013 Aug 6.

DOI:10.1007/s11095-013-1132-2
PMID:23918220
Abstract

PURPOSE

To investigate, for the first time, the performance of a dry powder inhaler (DPI, Aerolizer(®)) in the case of a model drug (i.e. albuterol sulphate) formulated with spray dried mannitol carrier particles with homogeneous shape and solid-state form but different sizes.

METHODS

Spray dried mannitol (SDM) particles were characterized in terms of size, surface area, morphology, water content, solid-state, density and electrostatic charge by a novel approach. DPI formulations composed of SDM and albuterol sulphate (AS) were prepared and evaluated in terms of drug content homogeneity and in vitro aerosolization performance.

RESULTS

All SDM particles generated similar fine particle fractions of AS. Formulations consisting of larger SDM particles demonstrated better drug content homogeneity, reduced amounts of drug loss and reduced oropharyngeal deposition. Comparing different SDM products demonstrated that SDM powders with relatively poorer flowability, wider size distributions and higher charge density generated DPI formulations with poorer drug content homogeneity and deposited higher amount of drug on the inhaler, mouthpiece adaptor and throat. DPI formulation total desirability increased linearly with the mean diameter of SDM.

CONCLUSION

Particle shape and solid-state form of mannitol could dominate over carrier size, bulk density, flowability and charge in terms of determining the aerosolization behaviour of AS formulated with mannitol carrier, at least within the experimental protocols applied in the present study.

摘要

目的

首次研究喷雾干燥甘露醇载体颗粒(具有均匀形状和固态形式但粒径不同的模型药物(即硫酸沙丁胺醇))的干粉吸入器(DPI,Aerolizer(®))的性能。

方法

采用一种新方法对喷雾干燥甘露醇(SDM)颗粒的粒径、比表面积、形态、含水量、固态、密度和静电电荷进行了表征。制备了由 SDM 和硫酸沙丁胺醇(AS)组成的 DPI 制剂,并从药物含量均匀性和体外气溶胶化性能两方面进行了评价。

结果

所有 SDM 颗粒均能产生相似的 AS 细颗粒分数。较大 SDM 颗粒组成的制剂显示出更好的药物含量均匀性,减少了药物损失和减少了口咽沉积。比较不同的 SDM 产品表明,具有较差流动性、较宽粒径分布和较高电荷密度的 SDM 粉末生成的 DPI 制剂药物含量均匀性较差,药物在吸入器、接口和喉咙上的沉积量较高。DPI 制剂的总体适宜性与 SDM 的平均粒径呈线性关系。

结论

至少在本研究中应用的实验方案范围内,甘露醇的颗粒形状和固态形式可能比载体粒径、堆密度、流动性和电荷更能决定与甘露醇载体一起配制的 AS 的气溶胶化行为。

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