伏立康唑的高可吸入性干粉吸入制剂，具有增强的肺部生物利用度。

Highly respirable dry powder inhalable formulation of voriconazole with enhanced pulmonary bioavailability.

作者信息

Arora Sumit, Haghi Mehra, Young Paul M, Kappl Michael, Traini Daniela, Jain Sanyog

机构信息

a Centre for Pharmaceutical Nanotechnology, Department of Pharmaceutics , National Institute of Pharmaceutical Education and Research (NIPER) , Mohali , India.

b Respiratory Technology, Woolcock Institute of Medical Research and Discipline of Pharmacology, Sydney Medical School , The University of Sydney , Sydney , Australia.

出版信息

Expert Opin Drug Deliv. 2016;13(2):183-93. doi: 10.1517/17425247.2016.1114603. Epub 2015 Nov 26.

DOI:10.1517/17425247.2016.1114603

PMID:26609733

Abstract

OBJECTIVE

To develop and characterize a highly respirable dry powder inhalable formulation of voriconazole (VRZ).

METHODS

Powders were prepared by spray drying aqueous/alcohol solutions. Formulations were characterized in terms of particle size, morphology, thermal, moisture responses and aerosolization performance. Optimized powder was deposited onto an air-interface Calu-3 model to assess their uptake across Calu-3 lung epithelia. Optimized formulation was evaluated for stability (drug content and aerosol performance) for 3 months. Additionally, Calu-3 cell viability, lung bioavailability and tissue distribution of optimized formulation were evaluated.

RESULTS

Particle size and aerosol performance of dry powder containing 80% w/w VRZ and 20% w/w leucine was appropriate for inhalation therapy. Optimized formulation showed irregular morphology, crystalline nature, low moisture sensitivity and was stable for 3 months at room temperature. Leucine did not alter the transport kinetics of VRZ, as evaluated by air-interface Calu-3 model. Formulation was non-cytotoxic to pulmonary epithelial cells. Moreover, lung bioavailability and tissue distribution studies in murine model clearly showed that VRZ dry powder inhalable formulation has potential to enhance therapeutic efficacy at the pulmonary infection site whilst minimizing systemic exposure and related toxicity.

CONCLUSION

This study supports the potential of inhaled dry powder VRZ for the treatment of fungal infections.

摘要

目的

开发并表征伏立康唑（VRZ）的一种高可吸入性干粉吸入制剂。

方法

通过喷雾干燥水/醇溶液制备粉末。从粒径、形态、热稳定性、水分响应和气溶胶化性能等方面对制剂进行表征。将优化后的粉末沉积在气-液界面的Calu-3模型上，以评估其在Calu-3肺上皮细胞中的摄取情况。对优化后的制剂进行3个月的稳定性（药物含量和气溶胶性能）评估。此外，还评估了优化制剂的Calu-3细胞活力、肺部生物利用度和组织分布。

结果

含有80%（w/w）VRZ和20%（w/w）亮氨酸的干粉的粒径和气溶胶性能适合吸入治疗。优化后的制剂形态不规则、具有结晶性质、对水分敏感性低，且在室温下3个月内稳定。通过气-液界面Calu-3模型评估，亮氨酸未改变VRZ的转运动力学。该制剂对肺上皮细胞无细胞毒性。此外，在小鼠模型中的肺部生物利用度和组织分布研究清楚地表明，VRZ干粉吸入制剂有潜力在肺部感染部位提高治疗效果，同时将全身暴露和相关毒性降至最低。

结论

本研究支持吸入性伏立康唑干粉治疗真菌感染的潜力。

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伏立康唑的高可吸入性干粉吸入制剂，具有增强的肺部生物利用度。

Highly respirable dry powder inhalable formulation of voriconazole with enhanced pulmonary bioavailability.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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