AIM: To investigate the exposure-risk relationship for occupational chromium (VI) exposure and lung cancer in order to establish exposure limits. METHODS: We systematically searched for studies reporting on occupational Cr(VI) exposure and cancers of the respiratory tract. To be included, studies needed to provide data for more than one level of occupational Cr(VI) exposure, adequately consider the confounder smoking and be of adequate methodological quality. Because direct genotoxicity was considered the predominant mechanism of carcinogenesis of Cr(VI), linear models were applied in order to fit risk data. Relative risks were calculated based on these linear regression models and then used to estimate excess absolute risks. RESULTS: Five studies of two cohorts of chromium production workers in Baltimore, Maryland, and Painesville, Ohio, were included. Based on different estimates for the exposure effect, the absolute excess risk was found to be "acceptable" (less than 4 per 10,000 according to the German Committee on Hazardous Substances, "AGS") at a Cr(VI) concentration of 0.1 μg/m(3), and became "intolerable" (more than 4 per 1,000) beyond a Cr(VI) concentration of 1 μg/m(3). CONCLUSION: Occupational exposure limits for Cr(VI) based on excess absolute risks can be derived from published data identified by a systematic literature review.
AIM: To investigate the exposure-risk relationship for occupational chromium (VI) exposure and lung cancer in order to establish exposure limits. METHODS: We systematically searched for studies reporting on occupational Cr(VI) exposure and cancers of the respiratory tract. To be included, studies needed to provide data for more than one level of occupational Cr(VI) exposure, adequately consider the confounder smoking and be of adequate methodological quality. Because direct genotoxicity was considered the predominant mechanism of carcinogenesis of Cr(VI), linear models were applied in order to fit risk data. Relative risks were calculated based on these linear regression models and then used to estimate excess absolute risks. RESULTS: Five studies of two cohorts of chromium production workers in Baltimore, Maryland, and Painesville, Ohio, were included. Based on different estimates for the exposure effect, the absolute excess risk was found to be "acceptable" (less than 4 per 10,000 according to the German Committee on Hazardous Substances, "AGS") at a Cr(VI) concentration of 0.1 μg/m(3), and became "intolerable" (more than 4 per 1,000) beyond a Cr(VI) concentration of 1 μg/m(3). CONCLUSION: Occupational exposure limits for Cr(VI) based on excess absolute risks can be derived from published data identified by a systematic literature review.
Authors: Thomas Birk; Kenneth A Mundt; Linda D Dell; Rose S Luippold; Leopold Miksche; Wolfgang Steinmann-Steiner-Haldenstaett; Diane J Mundt Journal: J Occup Environ Med Date: 2006-04 Impact factor: 2.162
Authors: Robert M Park; James F Bena; Leslie T Stayner; Randall J Smith; Herman J Gibb; Peter S J Lees Journal: Risk Anal Date: 2004-10 Impact factor: 4.000
Authors: Alessandro Liberati; Douglas G Altman; Jennifer Tetzlaff; Cynthia Mulrow; Peter C Gøtzsche; John P A Ioannidis; Mike Clarke; P J Devereaux; Jos Kleijnen; David Moher Journal: PLoS Med Date: 2009-07-21 Impact factor: 11.069
Authors: A Crispo; P Brennan; K-H Jöckel; A Schaffrath-Rosario; H-E Wichmann; F Nyberg; L Simonato; F Merletti; F Forastiere; P Boffetta; S Darby Journal: Br J Cancer Date: 2004-10-04 Impact factor: 7.640