[健康年轻成年人短期暴露于环境臭氧与肺功能及气道炎症的监测指标]
[Monitoring metrics for short-term exposure to ambient ozone and pulmonary function and airway inflammation in healthy young adults].
作者信息
Chen J H, Hu D T, Jia X, Niu W, Deng F R, Guo X B
机构信息
Department of Occupational and Environmental Health Sciences, Peking University School of Public Health, Beijing 100191, China.
出版信息
Beijing Da Xue Xue Bao Yi Xue Ban. 2020 Jun 18;52(3):492-499. doi: 10.19723/j.issn.1671-167X.2020.03.015.
OBJECTIVE
To assess the associations of different monitoring metrics for short-term exposure to ambient ozone (O) with pulmonary function and airway inflammation in healthy young adults.
METHODS
A total of 97 healthy young college students were recruited and followed in a panel study conducted from December 2017 to June 2018. Each participant underwent 3 follow-up visits, and lung function and fractional exhaled nitric oxide (FeNO) were measured at each visit. Ambient air pollutant concentrations were obtained from the environment monitoring station of Beijing closest to the participant residences, and meteorological data were collected from China Meteorological Data Service Center. Linear mixed-effect models were applied to assess the associations between different monitoring metrics for ambient O short-term exposure with pulmonary function or airway inflammation in the healthy young adults.
RESULTS
During the study period, the P (P, P) values for ambient O concentration expressed as daily 1-hour maximum (O-1 h max), daily maximum 8-hour average (O-8 h max) and 24-hour average (O-24 h avg) were 102.5 (76.8, 163.0) μg/m, 91.1 (68.3, 154.3) μg/m and 61.6 (36.9, 81.7) μg/m, respectively. The different monitoring metrics for short-term exposure to ambient O were significantly associated with reduced forced expiratory volume in the first second (FEV) and increased FeNO. An interquartile range (IQR) increase in 6-d moving average of O-1 h max (IQR=71.5 μg/m) was associated with a 6.2% (95%: -11.8%, -0.5%) decrease in FEV and a 63.3% (95%: 13.8%, 134.3%) increase in FeNO. An IQR increase in 7-d moving average of O-8 h max (IQR=62.0 μg/m) was associated with a 6.2% (95%: -11.6%, -0.7%) decrease in FEVand a 75.5% (95%: 19.3%, 158.0%) increase in FeNO. An IQR increase in 5-d moving average of O-24 h avg (IQR=32.9 μg/m) was associated with a 3.7% (95%: -7.1%, -0.2%) decrease in FEVand a 25.3% (95%: 3.6%, 51.6%) increase in FeNO. There was no significant association between the three monitoring metrics for O exposure and peak expiratory flow (PEF).
CONCLUSION
Short-term exposure to ambient O was associated with decreased lung function and increased airway inflammation among the healthy young adults, and daily 1-hour maximum was more sensitively to the respiratory effects of O.
目的
评估健康年轻成年人短期暴露于环境臭氧(O)的不同监测指标与肺功能和气道炎症之间的关联。
方法
在2017年12月至2018年6月进行的一项队列研究中,共招募了97名健康的年轻大学生并对其进行随访。每位参与者接受3次随访,每次随访时测量肺功能和呼出一氧化氮分数(FeNO)。环境空气污染物浓度来自离参与者住所最近的北京环境监测站,气象数据从中国气象数据服务中心收集。应用线性混合效应模型评估健康年轻成年人短期暴露于环境O的不同监测指标与肺功能或气道炎症之间的关联。
结果
在研究期间,以每日1小时最大值(O-1 h max)、每日最大8小时平均值(O-8 h max)和24小时平均值(O-24 h avg)表示的环境O浓度的P(P,P)值分别为102.5(76.8,163.0)μg/m、91.1(68.3,154.3)μg/m和61.6(36.9,81.7)μg/m。短期暴露于环境O的不同监测指标与第一秒用力呼气量(FEV)降低和FeNO升高显著相关。O-1 h max的6天移动平均值增加一个四分位数间距(IQR)(IQR = 71.5 μg/m)与FEV降低6.2%(95%:-11.8%,-0.5%)和FeNO升高63.3%(95%:13.8%,134.3%)相关。O-8 h max的7天移动平均值增加一个IQR(IQR = 62.0 μg/m)与FEV降低6.2%(95%:-11.6%,-0.7%)和FeNO升高75.5%(95%:19.3%,158.0%)相关。O-24 h avg的5天移动平均值增加一个IQR(IQR = 32.9 μg/m)与FEV降低3.7%(95%:-7.1%,-0.2%)和FeNO升高25.3%(95%:3.6%,51.6%)相关。O暴露的三个监测指标与呼气峰值流速(PEF)之间无显著关联。
结论
健康年轻成年人短期暴露于环境O与肺功能下降和气道炎症增加有关,且每日1小时最大值对O的呼吸效应更敏感。
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