采用低全球变暖潜能值推进剂的溶液型压力定量吸入气雾剂喷雾的体外评价

In-vitro Evaluation of Solution Pressurised Metered Dose Inhaler Sprays with Low-GWP Propellants.

作者信息

Duke Daniel J, Rao Lingzhe, Myatt Benjamin, Cocks Phil, Stein Stephen, Marasini Nirmal, Ong Hui Xin, Young Paul

机构信息

Department of Mechanical & Aerospace Engineering, Monash University, Clayton, 3168, Victoria, Australia.

Kindeva Drug Delivery, Loughborough, LE11 5RB, United Kingdom.

出版信息

Pharm Res. 2025 Feb;42(2):385-400. doi: 10.1007/s11095-025-03830-6. Epub 2025 Feb 12.

DOI:10.1007/s11095-025-03830-6

PMID:39939559

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11880099/

Abstract

PURPOSE

The transition from high Global Warming Potential (GWP) propellants such as HFA134a to low-GWP alternatives such as HFA152a and HFO1234ze(E) in pressurised metered dose inhalers (pMDIs) poses a number of challenges for inhaled pharmaceutical product development. Changes in chemicophysical properties will alter product performance, impacting in-vitro bioequivalence metrics. This study investigates those differences using equivalent pMDI hardware and formulations.

METHODS

Aerodynamic particle size distribution (APSD) measurements, laser diffraction and high-speed imaging were used to compare the performance of HFA134a, HFA152a and HFO1234ze(E) solution formulations of beclomethasone dipropionate. Propellant-only placebos, cosolvent-free solutions, and ethanol solutions at 8% and 15% w/w were investigated.

RESULTS

HFA152a formulations had increased drug deposition on the actuator and throat while HFO1234ze(E) produced comparable APSD performance to HFA134a formulations. Plumes from HFA152a formulations spread more rapidly and were less stable and repeatable than those from HFA134a. HFO1234ze(E) plumes spread more slowly than HFA134a, but converged with HFA134a ex-mouthpiece. Differences between propellants were moderated by the addition of ethanol.

CONCLUSION

Plume stability is a driver of differences between formulations in the near-orifice region. Shot-to-shot repeatability differences are more pronounced ex-mouthpiece, where mixing with ambient air is dominant. Modifications to low-GWP pMDI product actuator orifice and mouthpiece geometries may provide a route to improved in-vitro product bioequivalence relative to current pMDIs. Differences between formulations are modest and may be managed through a combination of formulation, orifice and mouthpiece geometry changes. These generic formulations provide a database of benchmark data against which the performance of low-GWP products may be compared.

摘要

目的

在压力定量吸入器（pMDIs）中，从高全球变暖潜能值（GWP）推进剂（如HFA134a）向低GWP替代品（如HFA152a和HFO1234ze(E)）的转变给吸入式药品开发带来了诸多挑战。化学物理性质的变化会改变产品性能，影响体外生物等效性指标。本研究使用等效的pMDI硬件和制剂来研究这些差异。

方法

采用空气动力学粒径分布（APSD）测量、激光衍射和高速成像技术，比较丙酸倍氯米松的HFA134a、HFA152a和HFO1234ze(E)溶液制剂的性能。研究了仅含推进剂的安慰剂、无共溶剂溶液以及8%和15% w/w的乙醇溶液。

结果

HFA152a制剂在促动器和咽喉处的药物沉积增加，而HFO1234ze(E)产生的APSD性能与HFA134a制剂相当。HFA152a制剂产生的药雾比HFA134a制剂传播得更快，稳定性更低且重复性更差。HFO1234ze(E)药雾的传播速度比HFA134a慢，但在离开吸嘴后与HFA134a药雾汇聚。添加乙醇可缓和推进剂之间的差异。

结论

药雾稳定性是近孔区域制剂差异的一个驱动因素。逐次喷射重复性差异在吸嘴外更明显，在那里与周围空气的混合占主导。相对于当前的pMDIs，对低GWP pMDI产品促动器孔口和吸嘴几何形状进行修改可能提供一条改善体外产品生物等效性的途径。制剂之间的差异较小，可以通过制剂、孔口和吸嘴几何形状变化的组合来控制。这些通用制剂提供了一个基准数据库，可据此比较低GWP产品的性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e841/11880099/a7eb60185bd4/11095_2025_3830_Fig1_HTML.jpg

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采用低全球变暖潜能值推进剂的溶液型压力定量吸入气雾剂喷雾的体外评价

In-vitro Evaluation of Solution Pressurised Metered Dose Inhaler Sprays with Low-GWP Propellants.

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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