Department of Epidemiology, School of Public Health, Shandong University, Jinan, Shandong, China.
Jinan Center for Disease Control and Prevention, Jinan, Shandong, China.
Int J Hyg Environ Health. 2018 Mar;221(2):183-190. doi: 10.1016/j.ijheh.2017.10.013. Epub 2017 Oct 28.
Existing studies exploring the association between low birth weight (LBW) and maternal fine particulate matter (aerodynamic diameter<2.5μm, PM) exposure have presented equivocal results, and one of the possible reasons for this finding might be due to relatively low maternal exposures. In addition, relatively narrow maternal exposure windows to PM have not been well established for LBW.
We employed a nested matched case-control design among 43,855 term births in a large maternity and child care hospital in Jinan, China. A total of 369 cases were identified, and four controls per case matched by maternal age were randomly selected among those with normal birth weight (n=1,476) from 2014 to 2016. Ambient air monitoring data on continuous measures of PM, nitrogen dioxide (NO), and sulfur dioxide (SO) (24-h average concentrations) from 2013 to 2016 were collected from thirteen local monitoring stations. An inverse distance weighting method based on both home and work addresses was adopted to estimate the individual daily exposures to these air pollutants during pregnancy by weighting the average of the twelve nearest monitoring stations within 30km of each 100m×100m grid cell by an inverse squared distance, and then the average exposure concentrations for gestational months, trimesters and the entire pregnancy were calculated. Adjusted conditional logistic regression models were used to estimate the odds ratios (ORs) per 10μg/m increment in PM and by PM quartiles during different gestational periods.
In this study, the estimated mean values of PM, NO, and SO exposure during the entire pregnancy were 88.0, 54.6, and 63.1μg/m, respectively. Term low birth weight (TLBW) increased in association with per 10μg/m increment in PM for the 8th month [OR=1.13, 95% confidence interval (CI): 1.04, 1.22], the 9th month (OR=1.06, 95% CI: 0.99, 1.15), the third trimester (OR=1.17, 95% CI: 1.05, 1.29), and the entire pregnancy (OR=1.38, 95% CI: 1.07, 1.77) in models adjusted for one pollutant (PM). In models categorizing the PM exposure by quartiles, comparing the second, third, and highest with the lowest PM exposure quartile, the PM was positively associated with TLBW during the 8th month (OR: 1.77, 95% CI: 1.09, 2.88; OR: 1.77, 95% CI: 1.03, 3.04; OR: 1.92, 95% CI: 1.04, 3.55, respectively) and for the 9th month, only association for exposure in the third versus the lowest quartile was significant (OR: 1.91, 95% CI: 1.02, 3.58).
The study provides evidence that exposure to PM during pregnancy might be associated with the risk of TLBW in the context of very high pollution level of PM, and the 8th and 9th months were identified as potentially relevant exposure windows.
现有的研究探索了低出生体重(LBW)与母体细颗粒物(空气动力学直径<2.5μm,PM)暴露之间的关联,结果并不一致,造成这一发现的原因之一可能是母体暴露相对较低。此外,对于 LBW,PM 的母体暴露窗口期相对较窄尚未得到很好的确定。
我们在中国济南一家大型母婴保健医院的 43855 例足月分娩中采用了嵌套匹配病例对照设计。共确定了 369 例病例,并从 2014 年至 2016 年期间体重正常的 1476 例中随机选择每例病例的 4 个对照,匹配母亲年龄。2013 年至 2016 年,从 13 个当地监测站收集了 PM、二氧化氮(NO)和二氧化硫(SO)(24 小时平均浓度)的连续测量环境空气监测数据。采用基于家庭和工作地址的倒数距离加权法,通过对每个 100m×100m 网格单元内的 12 个最近监测站的平均距离进行倒数平方加权,来估算孕妇在妊娠期间对这些空气污染物的个体日暴露量,然后计算出妊娠月份、妊娠三个月和整个妊娠期间的平均暴露浓度。采用调整条件逻辑回归模型估计 PM 每增加 10μg/m 时的比值比(OR),并按 PM 四分位数在不同妊娠期间进行估计。
在这项研究中,整个妊娠期间 PM、NO 和 SO 的估计平均值分别为 88.0、54.6 和 63.1μg/m。足月低出生体重(TLBW)与 PM 每增加 10μg/m 有关,在第 8 个月[OR=1.13,95%置信区间(CI):1.04,1.22]、第 9 个月(OR=1.06,95% CI:0.99,1.15)、第三个三个月(OR=1.17,95% CI:1.05,1.29)和整个妊娠期间(OR=1.38,95% CI:1.07,1.77),在调整了一种污染物(PM)的模型中。在按 quartiles 分类的 PM 暴露模型中,与最低 PM 暴露 quartiles 相比,第二、第三和最高 quartiles 的 PM 与第 8 个月的 TLBW 呈正相关(OR:1.77,95% CI:1.09,2.88;OR:1.77,95% CI:1.03,3.04;OR:1.92,95% CI:1.04,3.55,分别),与第 9 个月相比,仅第三 quartiles 与最低 quartiles 的暴露相关(OR:1.91,95% CI:1.02,3.58)。
该研究提供了证据表明,在 PM 污染水平非常高的情况下,妊娠期间暴露于 PM 可能与 TLBW 的风险有关,并且第 8 个月和第 9 个月被确定为潜在的相关暴露窗口。
