Abstract
BACKGROUND: Few studies have estimated effects of maternal PM(2.5) exposure on birth outcomes in China due to the lack of historical air pollution data. OBJECTIVES: We estimated the associations between maternal PM(2.5) exposure and birth outcomes using gap-filled satellite estimates in Shanghai, China. METHODS: We obtained birth registration records of 132,783 singleton live births during 2011-2014 in Shanghai. PM(2.5) exposures were assessed from satellite-derived estimates or central-site measurements. Linear and logistic regressions were used to estimate associations with term birth weight and term low birth weight (LBW), respectively. Logistic and discrete-time survival models were used to estimate associations with preterm birth. Effect modification by maternal age and parental education levels was investigated. RESULTS: A 10 μg/m(3) increase in gap-filled satellite-based whole-pregnancy PM(2.5) exposure was associated with a -12.85 g (95% CI: -18.44, -7.27) change in term birth weight, increased risk of preterm birth (OR 1.27, 95% CI: 1.20, 1.36), and increased risk of term LBW (OR 1.22, 95% CI: 1.06, 1.41). Sensitivity analyses during 2013-2014, when ground PM(2.5) measurements were available, showed that the health associations using gap-filled satellite PM(2.5) concentrations were higher than those obtained using satellite PM(2.5) concentrations without accounting for missingness. The health associations using gap-filled satellite PM(2.5) had similar magnitudes to those using central-site measurements, but with narrower confidence intervals. CONCLUSIONS: The magnitude of associations between maternal PM(2.5) exposure and adverse birth outcomes in Shanghai was higher than previous findings. One reason could be reduced exposure error of the gap-filled high-resolution satellite PM(2.5) estimates.