G Mastrangelo1, M Tartari, U Fedeli, E Fadda, B Saia. 1. Department of Environmental Medicine and Public Health-Section of Occupational Medicine, University of Padua, Via Giustiniani 2, I-35128 Padova, Italy. giuseppe.mastrangelo@unipd.it
Abstract
BACKGROUND: Recent community surveys have reported a risk of chronic obstructive pulmonary disease (COPD) in occupations involving exposure to organic dust and gas/vapour. Aims Our aim was to confirm these results using a case-control design on 131 COPD cases (FEV(1) < 80% of predicted value, minimally reversible with bronchodilators) and 298 controls, selected from registers for patients admitted to our Institute of Occupational Medicine. METHODS: Surrogates of past exposure were occupation, exposure assigned by a job-exposure matrix, and years spent in a given occupation. The odds ratio (OR) and 95% confidence interval (CI) for COPD were calculated using logistic regression models with office workers as the reference. RESULTS: Age-smoking-adjusted ORs (and CIs) were: 15.1 (3.2-71.6) in farmers; 7.2 (1.3-41.1) in cotton workers; 6.4 (1.6-25.5) in welders; 4.7 (1.3-16.4) in painters; 12.1 (1.3-108) in foundry workers; 6.50 (1.14-37.0) in refractory brick workers; and 3.1 (1.0-9.5) in construction workers. In farmers, cotton workers, welders and painters, the adjusted ORs significantly increased (by 6-9%) for each extra year of work, while in other occupations any such increase was of borderline significance. Adjusted ORs were 3.80 (1.21-12.0), 5.83 (1.82-18.6) and 8.86 (2.29-34.3) in workers exposed to high levels of mineral dust, gas/vapour/fume and biological dust, respectively. Consistent risk estimates were obtained for farmers, textile workers, painters and welders. CONCLUSIONS: Our findings confirm previous epidemiological evidence and are supported by recent observations that cigarette smoke, cotton and organic farm dust contain the same powerful pro-inflammatory agents, and that organic dust and irritant gas induce bronchitis by triggering the same effector molecules as cigarette smoke.
BACKGROUND: Recent community surveys have reported a risk of chronic obstructive pulmonary disease (COPD) in occupations involving exposure to organic dust and gas/vapour. Aims Our aim was to confirm these results using a case-control design on 131 COPD cases (FEV(1) < 80% of predicted value, minimally reversible with bronchodilators) and 298 controls, selected from registers for patients admitted to our Institute of Occupational Medicine. METHODS: Surrogates of past exposure were occupation, exposure assigned by a job-exposure matrix, and years spent in a given occupation. The odds ratio (OR) and 95% confidence interval (CI) for COPD were calculated using logistic regression models with office workers as the reference. RESULTS: Age-smoking-adjusted ORs (and CIs) were: 15.1 (3.2-71.6) in farmers; 7.2 (1.3-41.1) in cotton workers; 6.4 (1.6-25.5) in welders; 4.7 (1.3-16.4) in painters; 12.1 (1.3-108) in foundry workers; 6.50 (1.14-37.0) in refractory brick workers; and 3.1 (1.0-9.5) in construction workers. In farmers, cotton workers, welders and painters, the adjusted ORs significantly increased (by 6-9%) for each extra year of work, while in other occupations any such increase was of borderline significance. Adjusted ORs were 3.80 (1.21-12.0), 5.83 (1.82-18.6) and 8.86 (2.29-34.3) in workers exposed to high levels of mineral dust, gas/vapour/fume and biological dust, respectively. Consistent risk estimates were obtained for farmers, textile workers, painters and welders. CONCLUSIONS: Our findings confirm previous epidemiological evidence and are supported by recent observations that cigarette smoke, cotton and organic farm dust contain the same powerful pro-inflammatory agents, and that organic dust and irritant gas induce bronchitis by triggering the same effector molecules as cigarette smoke.
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