汪金辰, 刘世友, 蔡卫华, 朱三妹, 茅俭英. 20092020年上海市宝山区居民呼吸系统疾病死亡的流行病学特征[J]. 上海预防医学, 2023, 35(5): 421-425. DOI: 10.19428/j.cnki.sjpm.2023.22627
引用本文: 汪金辰, 刘世友, 蔡卫华, 朱三妹, 茅俭英. 20092020年上海市宝山区居民呼吸系统疾病死亡的流行病学特征[J]. 上海预防医学, 2023, 35(5): 421-425. DOI: 10.19428/j.cnki.sjpm.2023.22627
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WANG Jinchen, LIU Shiyou, CAI Weihua, ZHU Sanmei, MAO Jianying. Epidemiological characteristics of respiratory disease mortality in residents of Baoshan,Shanghai 2009‒2020[J]. Shanghai Journal of Preventive Medicine, 2023, 35(5): 421-425. DOI: 10.19428/j.cnki.sjpm.2023.22627
Citation: WANG Jinchen, LIU Shiyou, CAI Weihua, ZHU Sanmei, MAO Jianying. Epidemiological characteristics of respiratory disease mortality in residents of Baoshan,Shanghai 2009‒2020[J]. Shanghai Journal of Preventive Medicine, 2023, 35(5): 421-425. DOI: 10.19428/j.cnki.sjpm.2023.22627
shu

20092020年上海市宝山区居民呼吸系统疾病死亡的流行病学特征

Epidemiological characteristics of respiratory disease mortality in residents of Baoshan,Shanghai 2009‒2020

    摘要
  • 摘要:
    目的 了解2009—2020年上海市宝山区居民呼吸系统疾病死亡的流行病学特征。
    方法 收集 2009—2020年宝山区居民呼吸系统疾病死亡资料,采用国际疾病分类第10版(ICD⁃10)进行死因编码分类,应用R 4.2.1软件进行统计分析。运用Joinpoint 4.9.0.0软件计算各类呼吸系统疾病标化死亡率的平均年度变化百分比(AAPC)。
    结果 2009—2020宝山区居民呼吸系统疾病年均粗死亡率为58.86/10万,标化死亡率为35.62/10万,居全死因顺位第3位。男性呼吸系统疾病死亡率高于女性(χ2=46.70,P<0.001)。慢性阻塞性肺疾病(简称“慢阻肺”)居2009—2020年呼吸系统疾病粗死亡率的首位,其他依次是肺炎、支气管哮喘(简称“哮喘”)和尘肺。慢阻肺标化死亡率从2009年的38.66/10万降至2020年的19.88/10万,AAPC=-6.6%(95%CI:-8.2%~-4.9%),P<0.001。哮喘标化死亡率从2009年的2.86/10万降至2020年的1.43/10万,AAPC=-5.8%(95%CI:-8.8%~-2.8%),P<0.01。尘肺标化死亡率从2009年的0.64/10万降至2020年的0.12/10万,AAPC=-7.4%(95%CI:-13.0%~-1.5%),P<0.05。肺炎标化死亡率从2009年的2.63/10万降至2020年的0.70/10万,AAPC=-6.2%(95%CI:-12.2%~0.2%),P=0.056。慢阻肺、肺炎、哮喘的年均粗死亡率均为1月份最高。慢阻肺(χ2=2 669.01,P<0.001)、肺炎(χ2=217.82,P<0.001)、哮喘(χ2=100.09,P<0.001)、尘肺(χ2=26.46,P<0.001)和全类别呼吸系统疾病(χ2=2 995.84,P<0.001)粗死亡率随着年龄的增加呈上升趋势。宝山区慢阻肺(χ2=101.69,P<0.001)、肺炎(χ2=7.39,P<0.01)和哮喘(χ2=7.41,P<0.01)的粗死亡率为中部高于北部,慢阻肺(χ2=19.97,P<0.001)的粗死亡率为中部高于南部。
    结论 应重点关注慢阻肺,加强男性和高龄老人的检测,尤其是在冬春季节。在规划地区发展时做好环境和经济的平衡。

     

    Abstract:
    Objective To investigate the epidemiological characteristics of respiratory disease mortality in Baoshan residents during the period of 2009‒2020.
    Methods Respiratory disease deaths of Baoshan residents from 2009‒2020 were collected. ICD-10 codes were used to classify the causes of death, and R-4.2.1 was applied for statistical analysis. The average annual percent change (AAPC) of standardized mortality rates of different respiratory diseases were analyzed by using Joinpoint 4.9.0.0.
    Results The average annual mortality rate of respiratory diseases in Baoshan from 2009 to 2020 was 58.86/105, and the standardized mortality rate was 35.62/105, which was the 3rd leading cause of mortality. The mortality rate of respiratory diseases was higher in men than in women (χ2=46.70, P<0.001). COPD ranked first among respiratory diseases in Baoshan from 2009 to 2020, followed by pneumonia, asthma and pneumoconiosis in that order. The standardized mortality rate for COPD decreased from 38.66/105 in 2009 to 19.88/105 in 2020 (AAPC=-6.6%, 95%CI: -8.2% to -4.9%, P<0.001). The standardized mortality rate of asthma decreased from 2.86/105 in 2009 to 1.43/105 in 2020 (AAPC=-5.8%, 95%CI: -8.8% to -2.8%, P<0.01). The standardized mortality rate of pneumoconiosis decreased from 0.64/105 in 2009 to 0.12/105 in 2020 (AAPC=-7.4%, 95%CI: -13.0% to -1.5%, P<0.05). The standardized mortality rate for pneumonia decreased from 2.63/105 in 2009 to 0.70/105 in 2020 (AAPC=-6.2%, 95%CI: -12.2% to 0.2%, P=0.056), but not statistically significant. The annual average mortality rates of COPD, pneumonia and asthma were all highest in January. Crude mortality rates for COPD (χ2=2 669.01, P<0.001), pneumonia (χ2=217.82, P<0.001), asthma (χ2=100.09, P<0.001), pneumoconiosis (χ2=26.46, P<0.001) and all categories of respiratory diseases (χ2=2 995.84, P<0.001) increased with age showed an increasing trend. The crude mortality rates for COPD (χ2=101.69, P<0.001), pneumonia (χ2=7.39, P<0.01) and asthma (χ2=7.41, P<0.01) were higher in the central than in the northern part of Baoshan District, while the crude mortality rate for COPD (χ2=19.97, P<0.001) was higher in the central than in the southern part.
    Conclusion The attention should be focused on COPD; increased detection in males and the elderly, especially in winter and spring; and a good balance between environmental and economic when planning the regional development.

     

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