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Multi-scaled Monte Carlo calculation for radon-induced cellular damage in the bronchial airway epithelium

Cited 1 time in Web of Science Cited 2 time in Scopus
Authors

Abu Shqair, Ali; Kim, Eun-Hee

Issue Date
2021-05
Publisher
Nature Publishing Group
Citation
Scientific Reports, Vol.11 No.1, p. 10230
Abstract
Radon is a leading cause of lung cancer in indoor public and mining workers. Inhaled radon progeny releases alpha particles, which can damage cells in the airway epithelium. The extent and complexity of cellular damage vary depending on the alpha particle's kinetic energy and cell characteristics. We developed a framework to quantitate the cellular damage on the nanometer and micrometer scales at different intensities of exposure to radon progenies Po-218 and Po-214. Energy depositions along the tracks of alpha particles that were slowing down were simulated on a nanometer scale using the Monte Carlo code Geant4-DNA. The nano-scaled track histories in a 5 mu m radius and 1 mu m-thick cylindrical volume were integrated into the tracking scheme of alpha trajectories in a micron-scale bronchial epithelium segment in the user-written SNU-CDS program. Damage distribution in cellular DNA was estimated for six cell types in the epithelium. Deep-sited cell nuclei in the epithelium would have less chance of being hit, but DNA damage from a single hit would be more serious, because low-energy alpha particles of high LET would hit the nuclei. The greater damage in deep-sited nuclei was due to the 7.69 MeV alpha particles emitted from Po-214. From daily work under 1 WL of radon concentration, basal cells would respond with the highest portion of complex DSBs among the suspected progenitor cells in the most exposed regions of the lung epithelium.
ISSN
2045-2322
URI
https://hdl.handle.net/10371/180012
DOI
https://doi.org/10.1038/s41598-021-89689-0
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