Publication detail
An individualised 3D computational flow and particle model to predict the deposition of inhaled medicines – A case study using a nebuliser
WANG, Y. JIN, Z. CUI, Y. DONG, R. LI, L. LÍZAL, F. HRIBERSEK, M. RAVNIK, J. YANG, M. LIU, Y.
English title
An individualised 3D computational flow and particle model to predict the deposition of inhaled medicines – A case study using a nebuliser
Type
WoS Article
Language
en
Original abstract
Background and objective : Drug inhalation is generally accepted as the preferred administration method for treating respiratory diseases. To achieve effective inhaled drug delivery for an individual, it is necessary to use an interdisciplinary approach that can cope with inter -individual differences. The paper aims to present an individualised pulmonary drug deposition model based on Computational Fluid and Particle Dynamics simulations within a time frame acceptable for clinical use. Methods: We propose a model that can analyse the inhaled drug delivery efficiency based on the patient's airway geometry as well as breathing pattern, which has the potential to also serve as a tool for a sub -regional diagnosis of respiratory diseases. The particle properties and size distribution are taken for the case of drug inhalation by using nebulisers, as they are independent of the patient's breathing pattern. Finally, the inhaled drug doses that reach the deep airways of different lobe regions of the patient are studied. Results: The numerical accuracy of the proposed model is verified by comparison with experimental results. The difference in total drug deposition fractions between the simulation and experimental results is smaller than 4.44% and 1.43% for flow rates of 60 l/min and 15 l/min, respectively. A case study involving a COVID-19 patient is conducted to illustrate the potential clinical use of the model. The study analyses the drug deposition fractions in relation to the breathing pattern, aerosol size distribution, and different lobe regions. Conclusions: The entire process of the proposed model can be completed within 48 h, allowing an evaluation of the deposition of the inhaled drug in an individual patient's lung within a time frame acceptable for clinical use. Achieving a 48 -hour time window for a single evaluation of patient -specific drug delivery enables the physician to monitor the patient's changing conditions and potentially adjust the drug administration accordingly. Furthermore, we show that the proposed methodology also offers a possibility to be extended to a detection approach for some respiratory diseases.
Keywords in English
Inhaled drug delivery, Respiratory airway, Drug deposition, Computational fluid and particle dynamics, Individualised approach
Released
2024-06-01
Publisher
Elsevier
Journal
Computer Methods and Programs in Biomedicine
Volume
251
Number
JUNE
Pages from–to
1–18
Pages count
18
BIBTEX
@article{BUT201456,
author="{} and {} and {} and {} and {} and František {Lízal} and {} and {} and {} and {}",
title="An individualised 3D computational flow and particle model to predict the deposition of inhaled medicines - A case study using a nebuliser",
journal="Computer Methods and Programs in Biomedicine",
year="2024",
volume="251",
number="JUNE",
pages="18",
doi="10.1016/j.cmpb.2024.108203",
issn="0169-2607",
url="https://doi-org.ezproxy.lib.vutbr.cz/10.1016/j.cmpb.2024.108203"
}