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采用一种基础方法进行喷雾干燥制剂设计,以促进用于呼吸道药物递送的多组分干粉气雾剂的开发。

Use of a fundamental approach to spray-drying formulation design to facilitate the development of multi-component dry powder aerosols for respiratory drug delivery.

作者信息

Hoe Susan, Ivey James W, Boraey Mohammed A, Shamsaddini-Shahrbabak Abouzar, Javaheri Emadeddin, Matinkhoo Sadaf, Finlay Warren H, Vehring Reinhard

机构信息

Department of Mechanical Engineering, University of Alberta, Edmonton, Alberta, Canada, T6G 2G8.

出版信息

Pharm Res. 2014 Feb;31(2):449-65. doi: 10.1007/s11095-013-1174-5. Epub 2013 Aug 23.

DOI:10.1007/s11095-013-1174-5
PMID:23974958
Abstract

PURPOSE

A fundamental approach incorporating current theoretical models into aerosol formulation design potentially reduces experimental work for complex formulations. A D-amino acid mixture containing D-Leucine (D-Leu), D-Methionine, D-Tryptophan, and D-Tyrosine was selected as a model formulation for this approach.

METHODS

Formulation design targets were set, with the aim of producing a highly dispersible D-amino acid aerosol. Particle formation theory and a spray dryer process model were applied with boundary conditions to the design targets, resulting in a priori predictions of particle morphology and necessary spray dryer process parameters. Two formulations containing 60% w/w trehalose, 30% w/w D-Leu, and 10% w/w remaining D-amino acids were manufactured.

RESULTS

The design targets were met. The formulations had rugose and hollow particles, caused by deformation of a crystalline D-Leu shell while trehalose remained amorphous, as predicted by particle formation theory. D-Leu acts as a dispersibility enhancer, ensuring that both formulations: 1) delivered over 40% of the loaded dose into the in vitro lung region, and 2) achieved desired values of lung airway surface liquid concentrations based on lung deposition simulations.

CONCLUSIONS

Theoretical models were applied to successfully achieve complex formulations with design challenges a priori. No further iterations to the design process were required.

摘要

目的

将当前理论模型纳入气雾剂配方设计的基本方法可能会减少复杂配方的实验工作。选择一种包含D-亮氨酸(D-Leu)、D-蛋氨酸、D-色氨酸和D-酪氨酸的D-氨基酸混合物作为该方法的模型配方。

方法

设定配方设计目标,旨在生产一种高度可分散的D-氨基酸气雾剂。将颗粒形成理论和喷雾干燥器过程模型应用于设计目标,并设置边界条件,从而对颗粒形态和必要的喷雾干燥器过程参数进行先验预测。制备了两种配方,每种配方包含60% w/w海藻糖、30% w/w D-亮氨酸和10% w/w其余的D-氨基酸。

结果

达到了设计目标。正如颗粒形成理论所预测的,由于结晶D-亮氨酸外壳变形而海藻糖保持无定形状态,这些配方具有皱纹状和中空颗粒。D-亮氨酸作为分散性增强剂,确保两种配方:1)将超过40%的负载剂量输送到体外肺部区域,2)根据肺部沉积模拟达到肺部气道表面液体浓度的期望值。

结论

应用理论模型成功地先验实现了具有设计挑战的复杂配方。无需对设计过程进行进一步迭代。

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