Assessment of nanoparticles and metal exposure of airport workers using exhaled breath condensate

Caroline Marie-Desvergne,Lara Leclerc,Marcelline Gaude-Môme,Nicolas Molinari,Léa Touri,Catherine Durand,Véronique Chamel Mossuz,Isabelle Vachier,Eric Zimmermann,Pascal Chanez,Muriel Dubosson,Michel Klerlein

doi:10.1088/1752-7155/10/3/036006

Abstract

Aircraft engine exhaust increases the number concentration of nanoparticles (NP) in the surrounding environment. Health concerns related to NP raise the question of the exposure and health monitoring of airport workers. No biological monitoring study on this profession has been reported to date. The aim was to evaluate the NP and metal exposure of airport workers using exhaled breath condensate (EBC) as a non-invasive biological matrix representative of the respiratory tract. EBC was collected from 458 French airport workers working either on the apron or in the offices. NP exposure was characterized using particle number concentration (PNC) and size distribution. EBC particles were analyzed using dynamic light scattering (DLS) and scanning electron microscopy coupled to x-ray spectroscopy (SEM-EDS). Multi-elemental analysis was performed for aluminum (Al), cadmium (Cd) and chromium (Cr) EBC contents. Apron workers were exposed to higher PNC than administrative workers (p < 0.001). Workers were exposed to very low particle sizes, the apron group being exposed to even smaller NP than the administrative group (p < 0.001). The particulate content of EBC was brought out by DLS and confirmed with SEM-EDS, although no difference was found between the two study groups. Cd concentrations were higher in the apron workers (p < 0.001), but still remained very low and close to the detection limit. Our study reported the particulate and metal content of airport workers airways. EBC is a potential useful tool for the non-invasive monitoring of workers exposed to NP and metals.

Highlights

Cd Cr DLS EBC EDS aluminum Agence National de Sécurité du Médicament (French National Agency for Medicines and Health Products) cadmium chromium dynamic light scattering exhaled breath condensate energy dispersive x-ray spectroscopy
While the smoking status had no influence on EBC volumes, collected volumes were significantly dependent of gender and age (p < 0.001)
We have found that EBC allows the detection of a particulate content in airport workers airways, even if the particulate intensity measured in EBC could not be linked to air particle number concentration (PNC)

Summary

Introduction

Cd Cr DLS EBC EDS aluminum Agence National de Sécurité du Médicament (French National Agency for Medicines and Health Products) cadmium chromium dynamic light scattering exhaled breath condensate energy dispersive x-ray spectroscopy. NP are able to reach the distal airways of the lung and to remain within the alveolar vicinity [10, 11] In this context the potential effect of this exposure should be investigated in airport workers who are daily exposed for several hours. EBC is a potential biological matrix to investigate NP in the respiratory tract following exposure to various atmospheres, but very few studies are available at present. Due to the potential toxicity of these metals following inhalation,Air France physicians raised the question whether these metals could be released from materials during engine operations or after aging This would lead to a global metal exposure in the airport environment, which would mean that not just workers working in maintenance workshops are concerned. The atmospheric nanoparticulate matter was precisely characterized nearby emission sources and throughout the airports, and two groups of airport workers with different levels of exposure were compared

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