Spatio-temporal distribution of tuberculosis and effects of environmental factors in China | BMC Infectious Diseases

0
  • Shaweno D, Karmakar M, Alene KA, Ragonnet R, Clements AC, Trauer JM, et al. Methods used in the spatial analysis of tuberculosis epidemiology: a systematic review. BMC Med. 2018;16:193.

    Google Scholar article

  • Rao HX, Zhang X, Zhao L, Yu J, Ren W, Zhang XL, et al. Spatial transmission and meteorological determinants of tuberculosis incidence in Qinghai Province, China: a spatial clustering panel analysis. Infect Say Poverty. 2016;5(1):45.

    Google Scholar article

  • Rao HX, Shi XY, Zhang X. Using Kulldorff scanning statistical analysis to detect spatiotemporal clusters of tuberculosis in Qinghai province, China, 2009-2016. BMC Infect Dis. 2017;17(1):578.

    Google Scholar article

  • Kiani B, Rahmati AR, Bergquist R, Hashtarkhani S, Firouragh N, Bagheri N, et al. Spatio-temporal epidemiology of TB incidence rate in Iran from 2008 to 2018. BMC Public Health. 2021;21:1093.

    Google Scholar article

  • Wang T, Xue FZ, Chen YJ, Ma YB, Liu YX. The spatial epidemiology of tuberculosis in the city of Linyi, China, 2005-2010. BMC Public Health. 2012;12(1):885.

    Google Scholar article

  • Ge EJ, Zhang X, Wang XM, Wei XL. Spatial and temporal analysis of tuberculosis in Zhejiang province, China, 2009-2012. Infect Say Poverty. 2016;5:11.

    Google Scholar article

  • Sadeq M, Bourkadi JE. Spatio-temporal distribution and predictors of the incidence of tuberculosis in Morocco. Infect Say Poverty. 2018;7(1):13.

    Google Scholar article

  • Khaliq A, Batool SA, Chaudhry MN. Analysis of tuberculosis seasonality and trends in Lahore, Pakistan, 2006-2013. J Epidemiol Global Health. 2015;5(4):397–403.

    Google Scholar article

  • You SM, Tong YW, Neoh KG, Dai Y. On the association between outdoor PM2.5 concentration and tuberculosis seasonality for Beijing and Hong Kong. About Pollution. 2016;218:1170–9.

    CAS Google Scholar Article

  • Zhang X, Hao Y, Fei ZY, He J. Effect of meteorological factors on the incidence of tuberculosis: a 15-year retrospective study based on the Chinese medicine theory of five circuits and six qi. Chin J Integr Med. 2015;21:751–8.

    Google Scholar article

  • Keerqinfu, Zhang QM, Long Y, He J. Time-series analysis of the correlation between pulmonary tuberculosis and seasonal weather factors based on human-environment interaction theory. J Tradit Chin Med Sci. 2018;5(2):119–27.

    Google Scholar

  • Fernandes FMdC, Martins EdS, Pedrosa DMAS, Evangelista MdSN. Relationship between climatic factors and air quality with tuberculosis in the Distrito Federal, Brazil, 2003-2012. Brazilian J Infect Dis. 2017;21(4):369–75.

    Google Scholar article

  • Zhu S, Xia L, Wu JL, Chen SB, Chen F, Zeng FF, et al. Ambient air pollutants are associated with newly diagnosed tuberculosis: a time series study in Chengdu, China. Sci Total Environ. 2018;631–632:47–55.

    Google Scholar article

  • Ge EJ, Fan M, Qiu H, Hu H, Tian LW, Wang XM, et al. Ambient sulfur dioxide levels associated with reduced risk of first outpatient visits for tuberculosis: a population-based time series analysis. About Pollution. 2017;228:408–15.

    CAS Google Scholar Article

  • Wang JF, Xu CD, Geodetector. Principle and prospective. Acta Geogr Sin. 2017;72(01):116–34.

    Google Scholar

  • Song Y, Wang JF, Ge Y, Xu CD. A geographic detector model based on optimal parameters improves the geographic characteristics of the explanatory variables for the analysis of spatial heterogeneity: cases with different types of spatial data. GISci Remote Sens. 2020;57(5):593–610.

    Google Scholar article

  • Li XX, Wang LX, Zhang H, Du X, Jiang SW, Shen T, et al. Seasonal variations in active tuberculosis case notification in China, 2005-2012. PLOS ONE. 2013;8(7):e68102.

    CAS Google Scholar Article

  • Luo TY, Sumi A, Zhou D, Kobayashi N, Mise K, Yu B, et al. Seasonality of notified tuberculosis cases from 2006 to 2010 in Wuhan, China. Epidemiol Infect. 2013;142(10):2036–48.

    Google Scholar article

  • Yang JD, Zhang MX, Chen YG, Ma L, Yadikaer R, et al. A study on the relationship between air pollution and pulmonary tuberculosis based on the general additive model in wulumuqi, China. Int J Infect Dis. 2020;96:42–7.

    CAS Google Scholar Article

  • Yang Z, Ye ZH, You AG. Application of the multiple seasonal ARIMA model in the prediction of the incidence of tuberculosis. Public Health Chin J. 2013;29(4):469 (in Chinese).

    Google Scholar

  • Li YS, Zhu LM, Lu W, Chen C, Yang HT. Seasonal variation in notified tuberculosis cases from 2014 to 2018 in eastern China. J Int Med Res. 2020;48(8):030006052094903.

    Google Scholar article

  • Wubuli A, Xue F, Jiang DB, Yao XM, Upur H, Wushouer Q. Sociodemographic predictors and distribution of pulmonary tuberculosis (TB) in Xinjiang, China: a spatial analysis. PLOS ONE. 2015;10(12):e0144010.

    Google Scholar article

  • Kang W, Li P, Zheng S. Study on the spatial clustering of tuberculosis in China. Health Statistics Chin J. 2008;25(3):3.

    Google Scholar

  • Xia L, Zhu S, Chen C, Rao ZY, Wu JL. Spatio-temporal analysis of socioeconomic characteristics of pulmonary tuberculosis in China’s Sichuan Province, 2006-2015. BMC Infect Dis. 2020;20(1):433.

    Google Scholar article

  • Kiani B, Rahmati AR, Bergquist R, Hashtarkhani S, Mohammadi A. Spatiotemporal epidemiology of tuberculosis incidence rate in Iran from 2008 to 2018. BMC Public Health. 2021;21(1):1093.

    Google Scholar article

  • Li QH, Liu MY, Zhang YJ, Wu SW, Yang Y, Liu Y, et al. Spatio-temporal analysis of tuberculosis incidence and associated factors in mainland China, 2009-2015. Infect Genet Evol. 2019;75:103949.

    Google Scholar article

  • Pinto CT, Nano FE. Stable and temperature-sensitive recombinant strain of Mycobacterium smegmatis generated by substitution of a psychrophilic ligA gene. FEMS Microbiol Lett. 2015;362(18):fnv152.

    Google Scholar article

  • Baughman A, Arens EA. Indoor humidity and human health — Part 1: review of the literature on the health effects of indoor pollutants influenced by humidity. ASHRAE Trans. 1996;102(1):193–211.

    Google Scholar

  • Lin YJ, Liao CM. Seasonal dynamics of tuberculosis epidemics and implications for the assessment of the risk of multidrug-resistant infection. Epidemiol Infect. 2014;142(2):358–70.

    Google Scholar article

  • Omonijo AG, Oguntoke O, Matzarakis A, Adeofun CO. A study of weather-related respiratory diseases in ecoclimatic zones. Afr Rev Phys. 2011;5:41–56.

    Google Scholar

  • Jassal MS, Bakman I, Jones B. Correlation of ambient pollution levels and proximity to busy roads on the prevalence of smear-positive tuberculosis. Public health. 2013;127(3):268–74.

    CAS Google Scholar Article

  • Lai TC, Chiang CY, Wu CF, Yang SL, Liu DP, Chan CC, et al. Ambient air pollution and risk of tuberculosis: a cohort study. Occupy Environ Med. 2015;73(1):56–61.

    Google Scholar article

  • Xiang K, Xu Z, Hu YQ, He YS, Pan HF. Association between ambient air pollution and tuberculosis risk: a systematic review and meta-analysis. Chemosphere. 2021;11:130342.

    Google Scholar article

  • Yang CX, Yang HB, Shu G, Wang ZS, Xu XH, Duan XL, et al. Alternative measures of ozone and daily mortality in Suzhou: the China Air Pollution and Health Effects Study (CAPES). Sci Total Environ. 2012;426:83–9.

    CAS Google Scholar Article

  • Yan ML, Liu ZR, Liu XT, Duan HY, Li TT. Meta-analysis of Chinese studies on the association between ambient ozone and mortality. Chemosphere. 2013;93(6):899–905.

    CAS Google Scholar Article

  • Xu M, Liao JQ, Yin P, Hou J. Association of air pollution with the risk of first outpatient visits for tuberculosis in Wuhan, China. Occupy Environ Med. 2019;76(8):560–6.

    Google Scholar article

  • Tian L, Yang C, Zhou ZJ, Wu ZT, Pan XC, Clements ACA. Spatial patterns and effects of air pollution and meteorological factors on chronic lung disease hospitalization in Beijing, China. Sci China Life Sci. 2019;62(10):1381–8.

    Google Scholar article

  • Kan HD, Wong CM, Vadakan NV, Qian ZM, PAPA project teams. Short-term association between sulfur dioxide and daily mortality: the Asia Public Health and Air Pollution (PAPA) Study. Approx Res. 2010;110(3):258–64.

    CAS Google Scholar Article

  • Niu ZC, Qi YJ, Zhao PQ, Li YD. Short-term effects of ambient air pollution and meteorological factors on tuberculosis in a semi-arid area of ​​northwest China: a case study in Lanzhou. About Sci Pollut Res. 2021;28(48):1–10.

    Google Scholar

  • Share.

    Comments are closed.