通过定量X射线成像技术深入了解定量吸入气雾剂的喷雾形成过程

Insights into Spray Development from Metered-Dose Inhalers Through Quantitative X-ray Radiography.

作者信息

Mason-Smith Nicholas, Duke Daniel J, Kastengren Alan L, Stewart Peter J, Traini Daniela, Young Paul M, Chen Yang, Lewis David A, Soria Julio, Edgington-Mitchell Daniel, Honnery Damon

机构信息

Laboratory for Turbulence Research in Aerospace and Combustion, Department of Mechanical and Aerospace Engineering, Monash University, Melbourne, Australia.

Energy Systems Division, Argonne National Laboratory, Lemont, Illinois, USA.

出版信息

Pharm Res. 2016 May;33(5):1249-58. doi: 10.1007/s11095-016-1869-5. Epub 2016 Feb 17.

DOI:10.1007/s11095-016-1869-5

PMID:26887680

Abstract

PURPOSE

Typical methods to study pMDI sprays employ particle sizing or visible light diagnostics, which suffer in regions of high spray density. X-ray techniques can be applied to pharmaceutical sprays to obtain information unattainable by conventional particle sizing and light-based techniques.

METHODS

We present a technique for obtaining quantitative measurements of spray density in pMDI sprays. A monochromatic focused X-ray beam was used to perform quantitative radiography measurements in the near-nozzle region and plume of HFA-propelled sprays.

RESULTS

Measurements were obtained with a temporal resolution of 0.184 ms and spatial resolution of 5 μm. Steady flow conditions were reached after around 30 ms for the formulations examined with the spray device used. Spray evolution was affected by the inclusion of ethanol in the formulation and unaffected by the inclusion of 0.1% drug by weight. Estimation of the nozzle exit density showed that vapour is likely to dominate the flow leaving the inhaler nozzle during steady flow.

CONCLUSIONS

Quantitative measurements in pMDI sprays allow the determination of nozzle exit conditions that are difficult to obtain experimentally by other means. Measurements of these nozzle exit conditions can improve understanding of the atomization mechanisms responsible for pMDI spray droplet and particle formation.

摘要

目的

研究压力定量吸入器（pMDI）喷雾的典型方法采用颗粒大小测量或可见光诊断技术，这些技术在喷雾密度高的区域存在缺陷。X射线技术可应用于药物喷雾，以获取传统颗粒大小测量和基于光的技术无法获得的信息。

方法

我们提出了一种获取pMDI喷雾中喷雾密度定量测量值的技术。使用单色聚焦X射线束在氢氟烷烃推进喷雾的近喷嘴区域和羽流中进行定量射线照相测量。

结果

测量的时间分辨率为0.184毫秒，空间分辨率为5微米。对于使用的喷雾装置所检测的制剂，大约30毫秒后达到稳定流动条件。喷雾演变受制剂中乙醇的影响，而不受按重量计0.1%药物的影响。喷嘴出口密度的估计表明，在稳定流动期间，蒸汽可能主导离开吸入器喷嘴的气流。

结论

pMDI喷雾中的定量测量能够确定难以通过其他方法实验获得的喷嘴出口条件。对这些喷嘴出口条件的测量可以增进对导致pMDI喷雾液滴和颗粒形成的雾化机制的理解。

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通过定量X射线成像技术深入了解定量吸入气雾剂的喷雾形成过程

Insights into Spray Development from Metered-Dose Inhalers Through Quantitative X-ray Radiography.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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