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基于溶解度参数的伊曲康唑无定形固体分散体早期制剂开发筛选方法。

Solubility parameter-based screening methods for early-stage formulation development of itraconazole amorphous solid dispersions.

作者信息

Piccinni Piero, Tian Yiwei, McNaughton Alyn, Fraser Jane, Brown Stephen, Jones David S, Li Shu, Andrews Gavin P

机构信息

Pharmaceutical Engineering Group, Queen's University, Belfast, UK.

Encap Drug Delivery, West Lothian, UK.

出版信息

J Pharm Pharmacol. 2016 May;68(5):705-20. doi: 10.1111/jphp.12491. Epub 2016 Feb 10.

DOI:10.1111/jphp.12491
PMID:26864155
Abstract

OBJECTIVES

This article uses conventional and newly extended solubility parameter (δ) methods to identify polymeric materials capable of forming amorphous dispersions with itraconazole (itz).

METHODS

Combinations of itz and Soluplus, Eudragit E PO (EPO), Kollidon 17PF (17PF) or Kollidon VA64 (VA64) were prepared as amorphous solid dispersions using quench cooling and hot melt extrusion. Storage stability was evaluated under a range of conditions using differential scanning calorimetry and powder X-ray diffraction.

KEY FINDINGS

The rank order of itz miscibility with polymers using both conventional and novel δ-based approaches was 17PF > VA64 > Soluplus > EPO, and the application of the Flory-Huggins lattice model to itz-excipient binary systems corroborated the findings. The solid-state characterisation analyses of the formulations manufactured by melt extrusion correlated well with pre-formulation screening. Long-term storage studies showed that the physical stability of 17PF/vitamin E TPGS-itz was poor compared with Soluplus and VA64 formulations, and for EPO/itz systems variation in stability may be observed depending on the preparation method.

CONCLUSION

Results have demonstrated that although δ-based screening may be useful in predicting the initial state of amorphous solid dispersions, assessment of the physical behaviour of the formulations at relevant temperatures may be more appropriate for the successful development of commercially acceptable amorphous drug products.

摘要

目的

本文采用传统和新扩展的溶解度参数(δ)方法,以确定能够与伊曲康唑(伊曲)形成无定形分散体的聚合物材料。

方法

采用骤冷和热熔挤出法,将伊曲与聚乙烯己内酰胺(Soluplus)、聚丙烯酸树脂E PO(EPO)、聚乙烯吡咯烷酮17PF(17PF)或聚乙烯吡咯烷酮VA64(VA64)组合制备成无定形固体分散体。使用差示扫描量热法和粉末X射线衍射在一系列条件下评估储存稳定性。

主要发现

使用传统和基于新δ的方法,伊曲与聚合物的混溶性排序为17PF>VA64>Soluplus>EPO,将弗洛里-哈金斯晶格模型应用于伊曲-辅料二元体系证实了这一发现。通过熔融挤出制备的制剂的固态表征分析与处方前筛选结果相关性良好。长期储存研究表明,与Soluplus和VA64制剂相比,17PF/维生素E TPGS-伊曲的物理稳定性较差,对于EPO/伊曲体系,根据制备方法可能会观察到稳定性的变化。

结论

结果表明,虽然基于δ的筛选可能有助于预测无定形固体分散体的初始状态,但在相关温度下评估制剂的物理行为可能更适合成功开发商业上可接受的无定形药物产品。

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