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Crystalline silica is a recognized carcinogen, but the association with lung cancer at lower levels of exposure has not been well characterized. This study investigated the relationship between occupational silica exposure and lung cancer and the combined effects of cigarette smoking and silica exposure on lung cancer risk. A population-based case-control study was conducted in eight Canadian provinces between 1994 and 1997. Self-reported questionnaires were used to obtain a lifetime occupational history and information on other risk factors. Occupational hygienists assigned silica exposures to each job based on concentration, frequency and reliability. Data from 1681 incident lung cancer cases and 2053 controls were analyzed using logistic regression to estimate odds ratios (OR) and their 95% confidence intervals (CI). Models included adjustments for cigarette smoking, lifetime residential second-hand smoke and occupational exposure to diesel and gasoline engine emissions. Relative to the unexposed, increasing duration of silica exposure at any concentration was associated with a significant trend in lung cancer risk (OR ≥ 30 years: 1.67, 1.21–2.24; ptrend = 0.002). The highest tertile of cumulative silica exposure was associated with lung cancer (OR = 1.81, 1.34–2.42; ptrend = 0.004) relative to the lowest. Men exposed to silica for ≥30 years with ≥40 cigarette pack-years had the highest risk relative to those unexposed with <10 pack-years (OR = 42.53, 23.54–76.83). The joint relationship with smoking was consistent with a multiplicative model. Our findings suggest that occupational exposure to silica is a risk factor for lung cancer, independently from active and passive smoking, as well as from exposure to other lung carcinogens.Crystalline silica is one of the most prevalent occupational exposures worldwide, and is known to cause silicosis. In this study, the authors investigated whether low levels of exposure to silica dust may lead to an increase in the incidence of lung-cancer. Their study also examined whether cigarette smoking modifies association between silica exposure and lung cancer risk. The findings of this study suggest that occupational exposure to silica is indeed a risk factor for lung cancer, independently from active and passive smoking or other lung carcinogens. The joint relationship with smoking was consistent with a multiplicative model for both factors.