在校车上采用清洁燃料和技术。对儿童的污染及健康影响。
Adopting Clean Fuels and Technologies on School Buses. Pollution and Health Impacts in Children.
作者信息
Adar Sara D, D'Souza Jennifer, Sheppard Lianne, Kaufman Joel D, Hallstrand Teal S, Davey Mark E, Sullivan James R, Jahnke Jordan, Koenig Jane, Larson Timothy V, Liu L J Sally
机构信息
1 Department of Epidemiology, University of Michigan, Ann Arbor, Michigan.
2 Department of Environmental and Occupational Health Sciences.
出版信息
Am J Respir Crit Care Med. 2015 Jun 15;191(12):1413-21. doi: 10.1164/rccm.201410-1924OC.
RATIONALE
More than 25 million American children breathe polluted air on diesel school buses. Emission reduction policies exist, but the health impacts to individual children have not been evaluated.
METHODS
Using a natural experiment, we characterized the exposures and health of 275 school bus riders before, during, and after the adoption of clean technologies and fuels between 2005 and 2009. Air pollution was measured during 597 trips on 188 school buses. Repeated measures of exhaled nitric oxide (FeNO), lung function (FEV1, FVC), and absenteeism were also collected monthly (1,768 visits). Mixed-effects models longitudinally related the adoption of diesel oxidation catalysts (DOCs), closed crankcase ventilation systems (CCVs), ultralow-sulfur diesel (ULSD), or biodiesel with exposures and health.
MEASUREMENTS AND MAIN RESULTS
Fine and ultrafine particle concentrations were 10-50% lower on buses using ULSD, DOCs, and/or CCVs. ULSD adoption was also associated with reduced FeNO (-16% [95% confidence interval (CI), -21 to -10%]), greater changes in FVC and FEV1 (0.02 [95% CI, 0.003 to 0.05] and 0.01 [95% CI, -0.006 to 0.03] L/yr, respectively), and lower absenteeism (-8% [95% CI, -16.0 to -0.7%]), with stronger associations among patients with asthma. DOCs, and to a lesser extent CCVs, also were associated with improved FeNO, FVC growth, and absenteeism, but these findings were primarily restricted to patients with persistent asthma and were often sensitive to control for ULSD. No health benefits were noted for biodiesel. Extrapolating to the U.S. population, changed fuel/technologies likely reduced absenteeism by more than 14 million/yr.
CONCLUSIONS
National and local diesel policies appear to have reduced children's exposures and improved health.
原理
超过2500万美国儿童乘坐柴油校车呼吸着被污染的空气。虽然存在减排政策,但对个体儿童健康的影响尚未得到评估。
方法
我们采用自然实验,对2005年至2009年期间采用清洁技术和燃料之前、期间及之后的275名校车乘客的暴露情况和健康状况进行了描述。在188辆校车上的597次行程中测量了空气污染情况。还每月收集一次呼出一氧化氮(FeNO)、肺功能(FEV1、FVC)和缺勤情况的重复测量数据(共1768次就诊)。混合效应模型纵向关联了柴油氧化催化剂(DOC)、闭式曲轴箱通风系统(CCV)、超低硫柴油(ULSD)或生物柴油的采用与暴露情况和健康状况之间的关系。
测量结果与主要发现
使用ULSD、DOC和/或CCV的校车上细颗粒物和超细颗粒物浓度降低了10%至50%。采用ULSD还与FeNO降低(-16% [95%置信区间(CI),-21%至-10%])、FVC和FEV1的更大变化(分别为0.02 [95% CI,0.003至0.05]升/年和0.01 [95% CI,-0.006至0.03]升/年)以及缺勤率降低(-8% [95% CI,-16.0%至-0.7%])相关,在哮喘患者中关联更强。DOC以及在较小程度上CCV也与FeNO改善、FVC增长和缺勤率降低相关,但这些发现主要限于持续性哮喘患者,并且对ULSD的控制通常很敏感。未发现生物柴油对健康有益。推断到美国人口,燃料/技术的改变可能使每年缺勤率降低超过1400万次。
结论
国家和地方的柴油政策似乎减少了儿童的暴露并改善了健康。
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