达那唑纳米晶体混悬液及喷雾干燥粉末的制剂与性能

Formulation and performance of danazol nano-crystalline suspensions and spray dried powders.

作者信息

Kumar Sumit, Jog Rajan, Shen Jie, Zolnik Banu, Sadrieh Nakissa, Burgess Diane J

机构信息

Department of Pharmaceutical Sciences, School of Pharmacy, University of Connecticut, 69 N Eagleville Road, Unit 3092, Storrs, Connecticut, 06269, USA.

出版信息

Pharm Res. 2015 May;32(5):1694-703. doi: 10.1007/s11095-014-1567-0. Epub 2014 Nov 11.

DOI:10.1007/s11095-014-1567-0

PMID:25385690

Abstract

PURPOSE

This study focuses on the formulation optimization, in vitro and in vivo performance of differently sized nano-crystalline liquid suspensions and spray-dried powders of a poorly soluble BCS class II compound i.e. Danazol.

METHODS

A DoE approach was utilized to optimize stabilizer concentration and formulate danazol (BCS class II) nano-crystalline suspensions and dry powders via wet milling followed by spray drying. Solubility studies were performed to select best stabilizers. Particle size, PXRD, contact angle measurement and in vitro dissolution were utilized in characterization of the liquid and spray-dried powder formulations.

RESULTS

The liquid nano-crystalline suspensions followed particle size-dependent dissolution rates i.e. faster dissolution for smaller crystals. The spray-dried nano-crystal powders did not show fast dissolution profiles compared to the liquid nano-crystalline suspension. The poor dissolution of the spray-dried powder correlated to its high LogP value (i.e. LogP 4.53) and poor wetting (or polar surface-area). In vivo bioavailability studies showed superior performance of the liquid nano-crystalline suspensions compared to other milled and un-milled formulations.

CONCLUSION

Wet-milling and spray-drying optimization for danazol nano-crystalline suspension was performed. This study indicates that drug candidates with high LogP values and low polar surface area may not be suitable for formulation as dry nano-crystals.

摘要

目的

本研究聚焦于难溶性BCS II类化合物达那唑不同尺寸的纳米晶液体悬浮液及喷雾干燥粉末的制剂优化、体外和体内性能。

方法

采用实验设计方法优化稳定剂浓度，并通过湿磨随后喷雾干燥制备达那唑（BCS II类）纳米晶悬浮液和干粉。进行溶解度研究以选择最佳稳定剂。利用粒径、粉末X射线衍射、接触角测量和体外溶出度对液体和喷雾干燥粉末制剂进行表征。

结果

液体纳米晶悬浮液呈现粒径依赖性溶出速率，即较小晶体溶出更快。与液体纳米晶悬浮液相比，喷雾干燥纳米晶粉末未显示出快速溶出曲线。喷雾干燥粉末的溶出较差与其高LogP值（即LogP 4.53）和润湿性差（或极性表面积）相关。体内生物利用度研究表明，与其他研磨和未研磨制剂相比，液体纳米晶悬浮液具有更优性能。

结论

对达那唑纳米晶悬浮液进行了湿磨和喷雾干燥优化。本研究表明，具有高LogP值和低极性表面积的候选药物可能不适于制成干燥纳米晶体剂型。

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达那唑纳米晶体混悬液及喷雾干燥粉末的制剂与性能

Formulation and performance of danazol nano-crystalline suspensions and spray dried powders.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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