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

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

doi:10.1007/s11095-016-1869-5

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

Journal Article · Wed Feb 17 00:00:00 EST 2016 · Pharmaceutical Research

DOI:https://doi.org/10.1007/s11095-016-1869-5· OSTI ID:1391832

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

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. 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. Measurements were obtained with a temporal resolution of 0.184 ms and spatial resolution of 5 mu m. 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. 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.

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Research Organization:: Argonne National Laboratory (ANL), Argonne, IL (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Basic Energy Sciences (BES); Australian Research Council

DOE Contract Number:: AC02-06CH11357

OSTI ID:: 1391832

Journal Information:: Pharmaceutical Research, Vol. 33, Issue 5; ISSN 0724-8741

Publisher:: Springer

Country of Publication:: United States

Language:: English

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