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A counter-swirl design concept for dry powder inhalers.

Authors :
Chaugule, Vishal
dos Reis, Larissa Gomes
Fletcher, David F.
Young, Paul M.
Traini, Daniela
Soria, Julio
Source :
International Journal of Pharmaceutics. Jan2024, Vol. 650, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

A swirling airflow is incorporated in several dry powder inhalers (DPIs) for effective powder de-agglomeration. This commonly requires the use of a flow-straightening grid in the DPI to reduce drug deposition loss caused by large lateral spreading of the emerging aerosol. Here, we propose a novel grid-free DPI design concept that improves the aerosol flow characteristics and reduces the aforementioned drug loss. The basis of this design is the implementation of a secondary airflow that swirls in the opposite direction (counter-swirl) to that of a primary swirling airflow. In-vitro deposition, computational fluid dynamics simulations and particle image velocimetry measurements are used to evaluate the counter-swirl DPI aerosol performance and flow characteristics. In comparison with a baseline-DPI that has only a primary swirling airflow, the counter-swirl DPI has 20% less deposition of the emitted drug dose in the induction port and pre-separator of a next generation impactor (NGI). This occurs as a result of the lower flow-swirl generated from the counter-swirl DPI which eliminates the axial reverse flow outside of the mouthpiece and substantially reduces lateral spreading in the exiting aerosol. Modifications to the counter-swirl DPI design were made to prevent drug loss from the secondary airflow tangential inlets, which involved the addition of wall perforations in the tangential inlets and the separation of the primary and secondary swirling airflows by an annular channel. These modified DPI devices were successful in that aspect but had higher flow-swirl than that in the counter-swirl DPI and thus had higher drug mass retained in the device and deposited in the induction port and pre-separator of the NGI. The fine particle fraction in the aerosols generated from all the counter-swirl -based DPIs and the baseline-DPI are found to be statistically similar to each other. [Display omitted] [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03785173
Volume :
650
Database :
Academic Search Index
Journal :
International Journal of Pharmaceutics
Publication Type :
Academic Journal
Accession number :
174604459
Full Text :
https://doi.org/10.1016/j.ijpharm.2023.123694