Diesel Engine Exhaust Exposure, Smoking, and Lung Cancer Subtype Risks. A Pooled Exposure-Response Analysis of 14 Case-Control Studies
Ge, Calvin; Peters, Susan; Olsson, Ann; Portengen, Lützen; Schüz, Joachim; Almansa, Josué; Ahrens, Wolfgang; Bencko, Vladimir; Benhamou, Simone; Boffetta, Paolo; Bueno-de-Mesquita, Bas; Caporaso, Neil; Consonni, Dario; Demers, Paul; Fabiánová, Eleonóra; Fernández-Tardón, Guillermo; Field, John; Forastiere, Francesco; Foretova, Lenka; Guénel, Pascal; Gustavsson, Per; Janout, Vladimir; Jöckel, Karl Heinz; Karrasch, Stefan; Teresa Landi, Maria; Lissowska, Jolanta; Luce, Danièle; Mates, Dana; McLaughlin, John; Merletti, Franco; Mirabelli, Dario; Pándics, Tamás; Parent, Marie Élise; Plato, Nils; Pohlabeln, Hermann; Richiardi, Lorenzo; Siemiatycki, Jack; Świątkowska, Beata; Tardón, Adonina; Wichmann, Heinz Erich; Zaridze, David; Straif, Kurt; Kromhout, Hans; Vermeulen, Roel
(2020) American Journal of Respiratory and Critical Care Medicine, volume 202, issue 3, pp. 402 - 411
(Article)
Abstract
Rationale: Although the carcinogenicity of diesel engine exhaust has been demonstrated in multiple studies, little is known regarding exposure-response relationships associated with different exposure subgroups and different lung cancer subtypes.Objectives: We expanded on a previous pooled case-control analysis on diesel engine exhaust and lung cancer by including three additional studies
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and quantitative exposure assessment to evaluate lung cancer and subtype risks associated with occupational exposure to diesel exhaust characterized by elemental carbon (EC) concentrations.Methods: We used a quantitative EC job-exposure matrix for exposure assessment. Unconditional logistic regression models were used to calculate lung cancer odds ratios and 95% confidence intervals (CIs) associated with various metrics of EC exposure. Lung cancer excess lifetime risks (ELR) were calculated using life tables accounting for all-cause mortality. Additional stratified analyses by smoking history and lung cancer subtypes were performed in men.Measurements and Main Results: Our study included 16,901 lung cancer cases and 20,965 control subjects. In men, exposure response between EC and lung cancer was observed: odds ratios ranged from 1.09 (95% CI, 1.00-1.18) to 1.41 (95% CI, 1.30-1.52) for the lowest and highest cumulative exposure groups, respectively. EC-exposed men had elevated risks in all lung cancer subtypes investigated; associations were strongest for squamous and small cell carcinomas and weaker for adenocarcinoma. EC lung cancer exposure response was observed in men regardless of smoking history, including in never-smokers. ELR associated with 45 years of EC exposure at 50, 20, and 1 μg/m3 were 3.0%, 0.99%, and 0.04%, respectively, for both sexes combined.Conclusions: We observed a consistent exposure-response relationship between EC exposure and lung cancer in men. Reduction of workplace EC levels to background environmental levels will further reduce lung cancer ELR in exposed workers.
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Keywords: diesel exhaust, epidemiology, lung neoplasms, occupational exposure, Taverne
ISSN: 1073-449X
Publisher: American Thoracic Society
(Peer reviewed)