Department of Occupational and Environmental Health, Università degli Studi di Milano and Department of Preventive Medicine, Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico, Milan, Italy.
Environ Int. 2011 Feb;37(2):404-11. doi: 10.1016/j.envint.2010.11.002. Epub 2010 Dec 4.
Methyl tert-butyl ether (MTBE) and benzene are added to gasoline to improve the combustion process and are found in the urban environment as a consequence of vehicular traffic. Herein we evaluate urinary MTBE (MTBE-U) and benzene (BEN-U) as biomarkers of exposure to urban traffic. Milan urban policemen (130 total) were investigated in May, July, October, and December for a total of 171 work shifts. Personal exposure to airborne benzene and carbon monoxide (CO), and atmospheric data, were measured during the work shift, while personal characteristics were collected by a questionnaire. A time/activity diary was completed by each subject during the work shift. Spot urine samples were obtained for the determination of MTBE-U and BEN-U. Median personal exposure to CO and airborne benzene were 3.3 mg/m(3) and 9.6 μg/m(3), respectively; median urinary levels in end-of-shift (ES) samples were 147 ng/L (MTBE-U) and 207 ng/L (BEN-U). The time spent on traffic duty at crossing was about 40% of work time. Multiple linear regression models, taking into account within-subject correlations, were applied to investigate the role of urban pollution, atmospheric conditions, job variables and personal characteristics on the level of biomarkers. MTBE-U was influenced by the month of sampling and positively correlated to the time spent in traffic guarding, CO exposure and atmospheric pressure, while negatively correlated to wind speed (R(2) for total model 0.63, P<0.001). BEN-U was influenced by the month and smoking habit, and positively correlated to urinary creatinine; moreover, an interaction between CO and smoking was found (R(2)=0.62, P<0.001). These results suggest that MTBE-U is a reliable marker for assessing urban traffic exposure, while BEN-U is determined mainly by personal characteristics.
甲基叔丁基醚(MTBE)和苯被添加到汽油中以改善燃烧过程,并作为机动车交通的后果存在于城市环境中。在此,我们评估尿中 MTBE(MTBE-U)和苯(BEN-U)作为暴露于城市交通的生物标志物。对米兰市的城市警察(共 130 人)进行了调查,共进行了 171 个工作班次,分别于 5 月、7 月、10 月和 12 月进行,在工作班次期间测量了空气中苯和一氧化碳(CO)的个人暴露情况,并通过问卷调查收集了个人特征。每位受试者在工作班次期间完成了一份时间/活动日记。采集了点尿样,以测定 MTBE-U 和 BEN-U。末端工作(ES)样品中 MTBE-U 和 BEN-U 的中位数尿液水平分别为 147ng/L 和 207ng/L。在路口指挥交通的时间约占工作时间的 40%。考虑到个体内相关性,采用多元线性回归模型研究了城市污染、大气条件、工作变量和个人特征对生物标志物水平的作用。MTBE-U 受采样月份和在交通警卫中花费的时间影响,与 CO 暴露和大气压呈正相关,与风速呈负相关(总模型的 R(2)为 0.63,P<0.001)。BEN-U 受月份和吸烟习惯的影响,与尿肌酐呈正相关;此外,还发现了 CO 和吸烟之间的相互作用(R(2)=0.62,P<0.001)。这些结果表明,MTBE-U 是评估城市交通暴露的可靠标志物,而 BEN-U 主要由个人特征决定。
