刘梦阳,张英杰,马圆,李琪欢,刘悦,冯巍,王肖南,李卫民,郭秀花.北京市空气质量指数与结核病发病关系的时间序列研究[J].Chinese journal of Epidemiology,2018,39(12):1565-1569 |
北京市空气质量指数与结核病发病关系的时间序列研究 |
Series study on the relationship between air quality index and tuberculosis incidence in Beijing |
Received:January 15, 2018 |
DOI:10.3760/cma.j.issn.0254-6450.2018.12.006 |
KeyWord: 结核病 空气质量指数 广义可加模型 |
English Key Word: Tuberculosis Air quality index Generalized additive model |
FundProject:北京市自然科学基金(Z160002) |
Author Name | Affiliation | E-mail | Liu Mengyang | Department of Epidemiology and Biostatistics, School of Public Health, Capital Medical University, Beijing Municipal Key Laboratory of Clinical Epidemiology, Beijing 100069, China | | Zhang Yingjie | Network and Information Security Office, Chinese Center for Disease Control and Prevention, Beijing 102206, China | | Ma Yuan | Department of Epidemiology and Biostatistics, School of Public Health, Capital Medical University, Beijing Municipal Key Laboratory of Clinical Epidemiology, Beijing 100069, China | | Li Qihuan | Department of Epidemiology and Biostatistics, School of Public Health, Capital Medical University, Beijing Municipal Key Laboratory of Clinical Epidemiology, Beijing 100069, China | | Liu Yue | Department of Epidemiology and Biostatistics, School of Public Health, Capital Medical University, Beijing Municipal Key Laboratory of Clinical Epidemiology, Beijing 100069, China | | Feng Wei | Department of Epidemiology and Biostatistics, School of Public Health, Capital Medical University, Beijing Municipal Key Laboratory of Clinical Epidemiology, Beijing 100069, China | | Wang Xiaonan | Department of Epidemiology and Biostatistics, School of Public Health, Capital Medical University, Beijing Municipal Key Laboratory of Clinical Epidemiology, Beijing 100069, China | | Li Weimin | National Tuberculosis Clinical Laboratory of China, Beijing Chest Hospital, Capital Medical University, Beijing 101149, China | | Guo Xiuhua | Department of Epidemiology and Biostatistics, School of Public Health, Capital Medical University, Beijing Municipal Key Laboratory of Clinical Epidemiology, Beijing 100069, China | statguo@ccmu.edu.cn |
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Abstract: |
目的 分析北京市空气质量指数(AQI)对结核病发病的影响效应,为结核病的防控提供理论依据。方法 采用广义可加模型(GAM)对北京市2014年1月1日至2016年11月9日的AQI与结核病发病例数进行回归分析,同时控制气象因素、时间趋势等混杂因素的影响。结果 研究期间共收集北京市具有明确发病日期的结核病病例14 533例,排除儿童36例,共14 497例纳入研究。其中,男性9 513例,女性4 984例,成年人(15~59岁)11 290例,老年人(≥ 60岁)3 207例。GAM最佳单日滞后效应结果显示,AQI每增加10,总体、男性、女性及成年人结核病发病例数增加百分比分别为0.85%(95% CI:0.26%~1.44%)、0.83%(95% CI:0.24%~1.42%)、0.93%(95% CI:0.24%~1.62%)及0.88%(95% CI:0.29%~1.46%)。单日效应的最佳滞后期除男性为16 d(lag16)以外其余均为15 d(lag15)。最佳累积滞后效应结果显示:AQI每增加10,总体、男性、女性及成年人结核病发病例数增加百分比分别为1.92%(95% CI:0.23%~3.16%)、1.94%(95% CI:0.15%~3.72%)、2.04%(95% CI:0.10%~3.97%)及2.00%(95% CI:0.30%~3.69%),累积效应的最佳滞后期分别为累积滞后17 d(lag0_17)、18 d(lag0_18)、16 d(lag0_16)和17 d(lag0_17)。AQI增加对老年人结核病发病例数影响无统计学意义。结论 北京市AQI对结核病发病例数的影响存在正相关关系,AQI对不同性别和不同年龄组的结核病发病例数的影响存在一定差别。 |
English Abstract: |
Objective To analyze the effect of air quality index (AQI) on the incidence of tuberculosis (TB) in Beijing, and to provide evidence for setting up a better program regarding prevention and control of tuberculosis. Methods Generalized additive model (GAM) was used to analyze the association between AQI and the incidence of tuberculosis in Beijing, from January 1, 2014 to November 9, 2016. Confounding factors as meteorological conditions and time trends were under control. Results In Beijing, a total of 14 533 TB cases with definite dates of onset were collected during the study period, with 36 children excluded from the study. Finally, 14 497 cases were included in the study, including 9 513 men and 4 984 women, with 11 290 adults (15-59 years old) and 3 207 elderly (≥ 60 years old). Data from the optimal single-day lag effect of GAM showed that,with every 10 increase of AQI, the percent of increase on the onsets of overall, male, female and adult; tuberculosis cases were 0.85% (95% CI:0.26%-1.44%), 0.83% (95% CI:0.24%-1.42%), 0.93% (95% CI:0.24%-1.62%) and 0.88% (95% CI:0.29% -1.46%), respectively. The optimal lag time of the single-day effects were 15 days (lag15), but 16 days (lag16) for male. The optimal cumulative lag effect showed that with every 10 AQI increase, the percent of increase on the onsets of overall, male, female and adult tuberculosis cases were 1.92% (95% CI:0.23%-3.16%), 1.94% (95% CI:0.15%-3.72%), 2.04% (95% CI:0.10%-3.97%) and 2.00% (95% CI:0.30%-3.69%), respectively, with the optimal lag time of cumulative delayed effects as 17 days (lag0_17), 18 days (lag0_18), 16 days (lag0_16) and 17 days (lag0_17), respectively. However, there were no statistical significances noticed in the elderly cases. Conclusion There was a positive correlation between AQI and the number of TB cases in Beijing, and the effects of AQI on the number of TB cases in different genders and age groups were different. |
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