2020
DOI: 10.3390/atmos11020137
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Prediction of Aerosol Deposition in the Human Respiratory Tract via Computational Models: A Review with Recent Updates

Abstract: The measurement of deposited aerosol particles in the respiratory tract via in vivo and in vitro approaches is difficult due to those approaches' many limitations. In order to overcome these obstacles, different computational models have been developed to predict the deposition of aerosol particles inside the lung. Recently, some remarkable models have been developed based on conventional semi-empirical models, one-dimensional whole-lung models, three-dimensional computational fluid dynamics models, and artifi… Show more

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Cited by 40 publications
(21 citation statements)
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References 91 publications
(188 reference statements)
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“…Despite the advances in this field due to increasing computing processes and imaging capabilities, most CFPD-based lung models address deposition in the upper airway regions only because of the limited availability of high quality in vivo data of the lower respiratory tract. Further, CFD simulations are computer intensive and need skilled users [68]. There are whole lung and site-specific models [66].…”
Section: Lung Deposition Models and Pbpk Modelsmentioning
confidence: 99%
“…Despite the advances in this field due to increasing computing processes and imaging capabilities, most CFPD-based lung models address deposition in the upper airway regions only because of the limited availability of high quality in vivo data of the lower respiratory tract. Further, CFD simulations are computer intensive and need skilled users [68]. There are whole lung and site-specific models [66].…”
Section: Lung Deposition Models and Pbpk Modelsmentioning
confidence: 99%
“…Descriptive computational models developed to predict the deposition of aerosol particles inside the lung (with a reasonable accuracy relative to experimental data) have been discussed in a recent review. 39 Assuming good hygiene protocols are put in place to avoid spreading of COVID-19 by direct contact, the major mechanism of infection involves bioaerosols and respiratory secretions. 40 Particulates with SARS-CoV-2 RNA in the <1-10 µm range of aerodynamic diameter can penetrate into the respiratory tract through the nose and/or mouth (Figure 2), from where it can be further disseminated.…”
Section: Aerodynamic Size Effect On Deposition and Clearance On Thementioning
confidence: 99%
“…Figure 2 is used to briefly illustrate known information of the respiratory system, which is needed for the discussion of possible deposition sites affecting the clearance of tissues and infection rates for inhaled SARS‐CoV‐2 pathogen. Descriptive computational models developed to predict the deposition of aerosol particles inside the lung (with a reasonable accuracy relative to experimental data) have been discussed in a recent review 39 . Assuming good hygiene protocols are put in place to avoid spreading of COVID‐19 by direct contact, the major mechanism of infection involves bioaerosols and respiratory secretions 40 .…”
Section: Aerodynamic Size Effect On Deposition and Clearance On The Rmentioning
confidence: 99%
“…Descriptive computational models developed to predict the deposition of aerosol particles inside the lung (with a reasonable accuracy relative to experimental data) have been discussed in a recent review by Bui et 4 of 10 al. [37]. Assuming good hygiene protocols are put in place to avoid spreading of COVID-19 by direct contact, the major mechanism of infection involves bioaerosols and respiratory secretions [38].…”
Section: Aerodynamic Size Effect On Deposition and Clearance On The Rmentioning
confidence: 99%