肺炎和空气污染物协同效应对台湾南部新诊断肺结核的影响。
Impact of the synergistic effect of pneumonia and air pollutants on newly diagnosed pulmonary tuberculosis in southern Taiwan.
机构信息
Doctoral Degree Program, Department of Public Health, College of Health Sciences, Kaohsiung Medical University, Kaohsiung, 807, Taiwan; Department of Internal Medicine, Kaohsiung Municipal Siaogang Hospital, Kaohsiung Medical University, Kaohsiung, 812, Taiwan; Division of Pulmonary and Critical Care Medicine, Department of Internal Medicine, Kaohsiung Medical University Hospital, Kaohsiung Medical University, Kaohsiung, 807, Taiwan; Research Center for Environmental Medicine, Kaohsiung Medical University, Kaohsiung, 807, Taiwan.
Department of Computer Science and Engineering, National Sun Yat-sen University, Kaohsiung, 80424, Taiwan.
出版信息
Environ Res. 2022 Sep;212(Pt B):113215. doi: 10.1016/j.envres.2022.113215. Epub 2022 Apr 1.
BACKGROUND
An increased incidence of pulmonary tuberculosis (PTB) among patients with pulmonary diseases exposed to air pollution has been reported.
OBJECTIVE
To comprehensively investigate the association between pneumonia (PN) and air pollution with PTB through a large-scale follow-up study.
METHODS
We conducted a retrospective study using data from the Kaohsiung Medical University Hospital Research Database and the Taiwan Air Quality Monitoring Database. We included adult patients with PN, PTB and other comorbidities according to ICD-9 codes. Control subjects without PN were matched by age, sex and ten comorbidities to each PN patient at a ratio of 4:1.
RESULTS
A total of 82,590 subjects were included. The PTB incidence rate was significantly higher in the PN group (2,391/100,000) than in the control group (1,388/100,000). The crude hazard ratio (HR) of PN-associated PTB incidence decreased with time, and the overall 7 years the HR (95% confidence interval; CI) was 1.74 (1.55-1.96). The overall adjusted HR and 95% CI of PN-related PTB in the multivariate Cox regression analysis was 3.38 (2.98-3.84). In addition, there was a cumulative lag effect of all air pollutants within 30 days of exposure. The peak adjusted HRs for PTB were noted on the 3rd, 8th, 12th and 12th days of PM, O, SO and NO exposure, respectively. The overall peak HRs (95% CI) of PM, O, SO and NO were 1.145 (1.139-1.152), 1.153 (1.145-1.161), 1.909 (1.839-1.982) and 1.312 (1.259-1.367), respectively, and there was a synergistic effect with pneumonia on the risk of PTB.
CONCLUSIONS
A strong association was found between past episodes of PN and the future risk of PTB. In addition, air pollutants including PM, SO, O and NO, together with previous episodes of PN, had both long-term and short-term impact on the incidence of PTB.
背景
据报道,暴露于空气污染环境中的肺部疾病患者中肺结核(PTB)的发病率增加。
目的
通过大规模随访研究,全面调查肺炎(PN)和空气污染与 PTB 之间的关联。
方法
我们使用高雄医学大学医院研究数据库和台湾空气质量监测数据库中的数据进行了回顾性研究。我们根据 ICD-9 代码纳入了患有 PN、PTB 和其他合并症的成年患者。对照组未患 PN,按照年龄、性别和 10 种合并症与每位 PN 患者匹配,比例为 4:1。
结果
共纳入 82590 例患者。PN 组的 PTB 发病率明显高于对照组(2391/100000)。未调整的 PN 相关 PTB 发病率的粗 HR(95%置信区间;CI)随着时间的推移而降低,总体 7 年 HR(95%CI)为 1.74(1.55-1.96)。多变量 Cox 回归分析中,PN 相关 PTB 的总体调整后 HR 和 95%CI 为 3.38(2.98-3.84)。此外,暴露于空气污染物后 30 天内存在所有污染物的累积滞后效应。暴露于 PM、O、SO 和 NO 后第 3、8、12 和 12 天分别观察到 PTB 的峰值调整后 HR。PM、O、SO 和 NO 的总体峰值 HR(95%CI)分别为 1.145(1.139-1.152)、1.153(1.145-1.161)、1.909(1.839-1.982)和 1.312(1.259-1.367),并且与肺炎有协同作用对 PTB 的风险。
结论
过去发生的 PN 与未来发生 PTB 的风险之间存在很强的关联。此外,PM、SO、O 和 NO 等空气污染物以及过去的 PN 发作对 PTB 的发病率均有长期和短期影响。
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