Abstract
Understanding transportation and deposition (TD) of aerosol particles in the human respiratory system can help clinical treatment of lung diseases using medicines. The lung airway diameters and the breathing capacity of human lungs normally increase with age until the age of 30. Many studies have analyzed the particle TD in the human lung airways. However, the knowledge of the nanoparticle TD in airways of infants and children with varying inhalation flow rates is still limited in the literature. This study investigates nanoparticle (5 nm ≤ dp ≤ 500 nm) TD in the lungs of infants, children, and adults. The inhalation air flow rates corresponding to three ages are considered as Qin=3.22 L/min (infant), 8.09 L/min (Child), and Qin=14 L/min (adult). It is found that less particles are deposited in upper lung airways (G0–G3) than in lower airways (G12–G15) in the lungs of all the three age groups. The results suggest that the particle deposition efficiency in lung airways increases with the decrease of particle size due to the Brownian diffusion mechanism. About 3% of 500 nm particles are deposited in airways G12–G15 for the three age groups. As the particle size is decreased to 5 nm, the deposition rate in G12–G15 is increased to over 95%. The present findings can help medical therapy by individually simulating the distribution of drug-aerosol for the patient-specific lung.
Highlights
Inhalation of aerosol particles is employed directly as a drug delivery method for the treatment of lung diseases [1,2]
We investigated nanoparticle transportation and deposition (TD) in the upper (G0–G3) and lower (G12–G15) airways of the infant to adult ages
The deposition efficiency of particles is found to be significantly affected by lung airways reduction
Summary
Inhalation of aerosol particles is employed directly as a drug delivery method for the treatment of lung diseases [1,2]. Balásházy and Hofmann [10] studied numerically the deposition of 10-nm diameter particles in the third and fourth generation of human lungs based on the Weibel model [11]. They found significant effects of flow rate and particles size on the deposition efficiency. The numerical study of the particle TD in the third and fourth generation conducted by Hofmann, et al [13] demonstrated that in the range of 1 nm ≤ dp ≤ 500 nm, more small size nanoparticles is deposited in the lung airways than large size nanoparticles. The results showed that aerosol deposition happens mainly in the upper lung airway
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