Carcinogenic Industrial Air Emissions and Lung Cancer Risk in a Cohort of 440,000 Americans.

RATIONALE

Industrial facilities emit known lung carcinogens into air, but the association of these agents with lung cancer risk at environmental levels is unknown.

OBJECTIVES

To investigate industrial emissions and lung cancer risk.

METHODS

We used a U.S. regulatory database to estimate airborne exposure to known and probable human carcinogens (N=31) emitted from industrial sources (1987-1995) for 442,986 participants in the NIH-AARP Diet and Health Study. We estimated inverse distance- and wind-weighted average exposures within 1, 2, 5, and 10km of the enrollment residence. Using Cox proportional hazards models adjusted for smoking and other confounders, we evaluated lung cancer risk overall and by major histologic subtype (adenocarcinoma, squamous cell carcinoma, small cell carcinoma) for levels (tertiles, medians) of exposure to each agent.

MEASUREMENTS AND MAIN RESULTS

Among agents with prior evidence of lung carcinogenicity, overall risk was elevated for cobalt (5km-HR=1.19, CI=1.10-1.29; p-trend=<0.0001; 10km-HR=1.15, CI=1.09-1.21; p-trend=<0.0001) and beryllium (5km-HR=1.20, 95%CI=0.94-1.55; p-trend=0.15; 10km-HR=1.15, 95%CI=1.01-1.31; p-trend=0.02). We also observed associations with benzene and nickel. For agents without prior evidence, styrene was associated with risk at 1km (HR=1.22, 95%CI=1.00-1.48; p-trend=0.03). Diethyl sulfate, chromium, and lead were also associated with risk. Associations for cobalt, benzene, nickel, and diethyl sulfate were most apparent for squamous cell carcinoma.

CONCLUSIONS

Our novel findings show that relatively high air emissions of numerous carcinogenic industrial agents near the home were associated with lung cancer risk unexplained by smoking. These and the stronger associations for squamous cell carcinoma highlight the potential role of industrial exposures in lung cancer development.