Correlation Engine 2.0
Clear Search sequence regions


Sizes of these terms reflect their relevance to your search.

Administering aerosol drugs through the nasal pathway is a common early treatment for children with adenoid hypertrophy (AH). To enhance therapeutic efficacy, a deeper understanding of nasal drug delivery in the nasopharynx is essential. This study uses an integrated experimental, numerical modelling approach to investigate the delivery process of both the aerosol mask delivery system (MDS) and the bi-directional delivery system (BDS) in the pediatric nasal airway with AH. The combined effect of respiratory flow rates and particle size on delivery efficiency was systematically analyzed. The results showed that the nasopharyngeal peak deposition efficiency (DE) for BDS was approximately 2.25-3.73 times higher than that for MDS under low-flow, resting and high-flow respiratory conditions. Overall nasopharyngeal DEs for MDS were at a low level of below 16 %. For each respiratory flow rate, the BDS tended to achieve higher peak DEs (36.36 % vs 9.74 %, 37.80 % vs 14.01 %, 34.58 % vs 15.35 %) at smaller particle sizes (15 µm vs 17 µm, 10 µm vs 14 µm, 6 µm vs 9 µm). An optimal particle size exists for each respiratory flow rate, maximizing the drug delivery efficiency to the nasopharynx. The BDS is more effective in delivering drug aerosols to the nasal cavity and nasopharynx, which is crucial for early intervention in children with AH. Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.

Citation

Zhenzhen Hu, Shaokoon Cheng, Siping Sun, Yusheng Wang, Miao Lou, Ruiping Ma, Minjie Gong, Feilun Yang, Guoxi Zheng, Ya Zhang, Jingliang Dong. Numerical and experimental evaluation of nasopharyngeal aerosol administration methods in children with adenoid hypertrophy. International journal of pharmaceutics. 2024 Mar 25;653:123906

Expand section icon Mesh Tags

Expand section icon Substances


PMID: 38365069

View Full Text