Jump to Main Content
Air pollution and occurrence of type 2 diabetes in a large cohort study
- Renzi, Matteo, Cerza, Francesco, Gariazzo, Claudio, Agabiti, Nera, Cascini, Silvia, Di Domenicantonio, Riccardo, Davoli, Marina, Forastiere, Francesco, Cesaroni, Giulia
- Environment international 2018 v.112 pp. 68-76
- air pollutants, air pollution, chronic exposure, cohort studies, land use, men, models, nitrogen dioxide, noninsulin-dependent diabetes mellitus, odds ratio, ozone, particulates, regression analysis, summer, women, Italy
- The few cohort studies that have investigated the association between exposure to air pollution and occurrence of diabetes have reported conflicting results. We aimed to evaluate the association of long-term exposure to particulate matter (PM), nitrogen oxides (NOx) and ozone (O3), with baseline prevalence and incidence of type 2 diabetes in a large administrative cohort in Rome, Italy. A total of 1,425,580 subjects aged 35+years (January 1st, 2008) were assessed and followed for six years. We estimated PM10, PM2.5–10, PM2.5, NO2, and NOx exposures at residence using land use regression models, and summer O3 exposure using dispersion modeling. To estimate the association between air pollutant exposures and prevalence and incidence of diabetes, we used logistic and Cox regression models, considering individual, environmental (noise and green areas), and contextual characteristics. We identified 106,387 prevalent cases at baseline and 65,955 incident cases during the follow-up period. We found positive associations between nitrogen oxides exposures and prevalence of diabetes with odds ratios (ORs) up to 1.010 (95% CI: 1.002, 1.017) and 1.015 (1.009, 1.021) for NO2 and NOx, respectively, per fixed increases (per 10μg/m³ and 20μg/m³, respectively). We also found some evidence of an association between NOx and O3 and incidence of diabetes, with hazard ratios (HRs) of 1.011 (95%CI: 1.003–1.019) and 1.015 (1.002–1.027) per 20 and 10μg/m³ increases, respectively. The association with O3 with incident diabetes was stronger in women than in men and among those aged <50years. In sum, long-term exposure to nitrogen oxides was associated with prevalent diabetes while NOx and O3 exposures were associated with incident diabetes.