Chemistry and lung toxicity of particulate matter emitted from firearms

Smoke emissions produced by firearms contain hazardous chemicals, but little is known if their properties change depending on firearm and ammunition type and whether such changes affect toxicity outcomes. Pulmonary toxicity was assessed in mice exposed by oropharyngeal aspiration to six different ty...

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Bibliographic Details
Published in:Scientific reports 2022-12, Vol.12 (1), p.20722-14, Article 20722
Main Authors: Kim, Yong Ho, Vance, Samuel A., Aurell, Johanna, Holder, Amara L., Pancras, Joseph Patrick, Gullett, Brian, Gavett, Stephen H., McNesby, Kevin L., Gilmour, M. Ian
Format: Article
Language:English
Subjects:
631/443
631/92
639/638
692/1537
704/172
Animals
Chelating Agents
Chelation
Copper
Emissions
Firearms
Hazardous materials
Hazardous Substances
Humanities and Social Sciences
Inflammation
Leukocytes (neutrophilic)
Lung
Lungs
Metal ions
Mice
multidisciplinary
Particulate matter
Particulate Matter - toxicity
Penicillamine
Respiratory function
Science
Science (multidisciplinary)
Smoke
Toxicity
Water
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Summary:Smoke emissions produced by firearms contain hazardous chemicals, but little is known if their properties change depending on firearm and ammunition type and whether such changes affect toxicity outcomes. Pulmonary toxicity was assessed in mice exposed by oropharyngeal aspiration to six different types of smoke-related particulate matter (PM) samples; (1) handgun PM, (2) rifle PM, (3) copper (Cu) particles (a surrogate for Cu in the rifle PM) with and without the Cu chelator penicillamine, (4) water-soluble components of the rifle PM, (5) soluble components with removal of metal ions, and (6) insoluble components of the rifle PM. Gun firing smoke PM was in the respirable size range but the chemical composition varied with high levels of Pb in the handgun and Cu in the rifle smoke. The handgun PM did not induce appreciable lung toxicity at 4 and 24 h post-exposure while the rifle PM significantly increased lung inflammation and reduced lung function. The same levels of pure Cu particles alone and the soluble components from the rifle fire PM increased neutrophil numbers but did not cause appreciable cellular damage or lung function changes when compared to the negative (saline) control. Penicillamine treated rifle PM or Cu, slightly reduced lung inflammation and injury but did not improve the lung function decrements. Chelation of the soluble metal ions from the rifle fire PM neutralized the lung toxicity while the insoluble components induced the lung toxicity to the same degree as the rifle PM. The results show that different firearm types can generate contrasting chemical spectra in their emissions and that the rifle PM effects were mostly driven by water-insoluble components containing high levels of Cu. These findings provide better knowledge of hazardous substances in gun firing smoke and their potential toxicological profile.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-022-24856-5