XiangYa School of Public Health, Central South University, Changsha, Hunan, China; Department of Medical Sciences, Uppsala University, Uppsala, Sweden; School of Energy Science and Engineering, Central South University, Changsha, Hunan, China.
XiangYa School of Public Health, Central South University, Changsha, Hunan, China; School of Energy Science and Engineering, Central South University, Changsha, Hunan, China.
Environ Int. 2019 Apr;125:252-260. doi: 10.1016/j.envint.2019.01.036. Epub 2019 Feb 4.
We studied indoor sources of indoor particulate matter (PM), outdoor air pollution and antibiotic use in relation to asthma, rhinitis and eczema among pre-school children and investigated synergistic effects between PM and antibiotics use. Children (3-6y) from randomly selected day care centres in seven cities across China were included (n = 39,782). Data on ambient temperature and air pollution were collected from local monitoring stations. Data on indoor PM sources (ETS, burning of incense or mosquito coils and biomass for cooking), antibiotics use and health (doctor diagnosed asthma and rhinitis, lifetime eczema, current wheeze and current rhinitis) were assessed by a parental questionnaire. Associations were calculated by multilevel logistic regression. Asthma diagnosis was associated with outdoor temperature, NO and burning mosquito coils. Rhinitis diagnosis was associated with NO, ETS, gas cooking and burning biomass for cooking. Lifetime eczema was associated with temperature, PM NO, ETS, biomass cooking and burning mosquito coils. Burning incense was associated with current wheeze and current rhinitis. Children using antibiotics had more asthma, wheeze, rhinitis, and eczema. Excluding children with respiratory infections did not change associations with antibiotics use. Antibiotics use enhanced the effects of ETS and PM (a synergistic effect). In conclusion, a warmer climate, outdoor NO and PM ETS, gas cooking and burning biomass, incense and mosquito coils can increase the risk of asthma, wheeze, rhinitis and eczema among pre-school children in China. Antibiotics use is a risk factor for childhood asthma, wheeze, rhinitis and eczema and ETS and outdoor PM can enhance the effect.
我们研究了室内颗粒物(PM)的室内来源、室外空气污染和抗生素使用与学龄前儿童哮喘、鼻炎和湿疹的关系,并调查了 PM 和抗生素使用之间的协同作用。从中国七个城市随机选择的日托中心招募了儿童(3-6 岁)(n=39782)。从当地监测站收集环境温度和空气污染数据。通过家长问卷评估室内 PM 源(ETS、焚香或蚊香燃烧以及生物质用于烹饪)、抗生素使用和健康状况(医生诊断的哮喘和鼻炎、终身湿疹、当前喘息和当前鼻炎)。使用多层次逻辑回归计算关联。哮喘诊断与室外温度、NO 和燃烧蚊香有关。鼻炎诊断与 NO、ETS、煤气烹饪和燃烧生物质用于烹饪有关。终身湿疹与温度、PM-NO、ETS、生物质烹饪和燃烧蚊香有关。焚香与当前喘息和当前鼻炎有关。使用抗生素的儿童患哮喘、喘息、鼻炎和湿疹的风险更高。排除有呼吸道感染的儿童并不会改变与抗生素使用的关联。抗生素的使用增强了 ETS 和 PM 的作用(协同作用)。总之,较温暖的气候、室外 NO 和 PM-ETS、煤气烹饪和燃烧生物质、焚香和蚊香会增加中国学龄前儿童哮喘、喘息、鼻炎和湿疹的风险。抗生素的使用是儿童哮喘、喘息、鼻炎和湿疹的危险因素,ETS 和室外 PM 可以增强其作用。
