Background Although seasonal variation in tuberculosis (TB) incidence has been described in many countries, it remains unknown in China. Methods A time series decomposition analysis (X-12-ARIMA) was performed to examine the seasonal variation in active TB cases nationwide from 2005 through 2012 in China. Seasonal amplitude was calculated for the evaluation of TB seasonal variation. Results A total of 7.78 million active TB cases were reported over a period of 8 years. A spring peak (April) was observed with seasonal amplitude of 46.3%, compared with the winter trough (February). Most cases in provinces with subtropical and tropical monsoon climate showed lower amplitudes than those in temperate continental, plateau and mountain climate regions. The magnitude of seasonality varied inversely with annual average temperature, r (95% CI) = -0.71 (-0.79, -0.61). The seasonal amplitudes were 56.7, 60.5, 40.6, 46.4 and 50.9% for patients aged ≤14, 15–24, 25–44, 45–64, and ≥65 years, respectively. Students demonstrated greater seasonal amplitude than peasants, migrant workers and workers (115.3% vs. 43.5, 41.6 and 48.1%). Patients with pulmonary TB had lower amplitude compared to patients with pleural and other extra-pulmonary TB (EPTB) (45.9% vs. 52.0 and 56.3%). Relapse cases with sputum smear positive TB (SS+ TB) had significantly higher seasonal amplitude compared to new cases with sputum smear positive TB (52.2% vs. 41.6%). Conclusions TB is a seasonal disease in China. The peak and trough of TB transmission actually are in winter and in autumn respectively after factors of delay are removed. Higher amplitudes of TB seasonality are more likely to happen in temperate continental, plateau and mountain climate regions and regions with lower annual average temperature, and young person, students, patients with EPTB and relapse cases with SS+ TB are more likely to be affected by TB seasonality.
References
[1]
Mabaera B, Naranbat N, Katamba A, Laticevschi D, Lauritsen JM, et al. (2009) Seasonal variation among tuberculosis suspects in four countries. International Health 1: 53–60.
[2]
Chan TY (1999) Seasonal variations in vitamin-D status and the incidence of tuberculosis in different countries. Respiration 66: 196.
[3]
Martineau AR, Nhamoyebonde S, Oni T, Rangaka MX, Marais S, et al. (2011) Reciprocal seasonal variation in vitamin D status and tuberculosis notifications in Cape Town, South Africa. Proc Natl Acad Sci U S A 108: 19013–19017.
[4]
Nagayama N, Ohmori M (2006) Seasonality in various forms of tuberculosis. Int J Tuberc Lung Dis 10: 1117–1122.
[5]
Luquero FJ, Sanchez-Padilla E, Simon-Soria F, Eiros JM, Golub JE (2008) Trend and seasonality of tuberculosis in Spain, 1996–2004. Int J Tuberc Lung Dis 12: 221–224.
[6]
Naranbat N, Nymadawa P, Schopfer K, Rieder HL (2009) Seasonality of tuberculosis in an Eastern-Asian country with an extreme continental climate. Eur Respir J 34: 921–925.
[7]
Parrinello CM, Crossa A, Harris TG (2012) Seasonality of tuberculosis in New York City, 1990–2007. Int J Tuberc Lung Dis 16: 32–37.
[8]
Willis MD, Winston CA, Heilig CM, Cain KP, Walter ND, et al. (2012) Seasonality of tuberculosis in the United States, 1993–2008. Clin Infect Dis 54: 1553–1560.
[9]
Ane-Anyangwe IN, Akenji TN, Mbacham WF, Penlap VN, Titanji VP (2006) Seasonal variation and prevalence of tuberculosis among health seekers in the South Western Cameroon. East Afr Med J 83: 588–595.
[10]
Behera D, Sharma PP (2011) A retrospective study of seasonal variation in the number of cases diagnosed at a tertiary care tuberculosis hospital. Indian J Chest Dis Allied Sci 53: 145–152.
[11]
Douglas AS, Strachan DP, Maxwell JD (1996) Seasonality of tuberculosis: the reverse of other respiratory diseases in the UK. Thorax 51: 944–946.
[12]
Atun RA, Samyshkin YA, Drobniewski F, Kuznetsov SI, Fedorin IM, et al. (2005) Seasonal variation and hospital utilization for tuberculosis in Russia: hospitals as social care institutions. Eur J Public Health 15: 350–354.
[13]
Thorpe LE, Frieden TR, Laserson KF, Wells C, Khatri GR (2004) Seasonality of tuberculosis in India: is it real and what does it tell us? Lancet 364: 1613–1614.
[14]
Schaaf HS, Nel ED, Beyers N, Gie RP, Scott F, et al. (1996) A decade of experience with Mycobacterium tuberculosis culture from children: a seasonal influence on incidence of childhood tuberculosis. Tuber Lung Dis 77: 43–46.
[15]
Akhtar S, Mohammad HG (2008) Seasonality in pulmonary tuberculosis among migrant workers entering Kuwait. BMC Infect Dis 8: 3.
[16]
Douglas AS, Ali S, Bakhshi SS (1998) Does vitamin D deficiency account for ethnic differences in tuberculosis seasonality in the UK? Ethn Health 3: 247–253.
[17]
Korthals Altes H, Kremer K, Erkens C, van Soolingen D, Wallinga J (2012) Tuberculosis seasonality in the Netherlands differs between natives and non-natives: a role for vitamin D deficiency? Int J Tuberc Lung Dis 16: 639–644.
[18]
Leung CC, Yew WW, Chan TY, Tam CM, Chan CY, et al. (2005) Seasonal pattern of tuberculosis in Hong Kong. Int J Epidemiol 34: 924–930.
[19]
World Health Organization (2011) Global tuberculosis control: WHO report 2011. Geneva, Switzerland: World Health Organization Press. WHO/HTM/TB/2011.16.
[20]
Liu L, Zhao XQ, Zhou Y (2010) A tuberculosis model with seasonality. Bull Math Biol 72: 931–952.
[21]
Hu X (2012) Threshold dynamics for a tuberculosis model with seasonality. Math Biosci Eng 9: 111–122.
[22]
Huang F, Du X, Chen W, Cheng S, Wang L (2011) Introduction of tuberculosis information management syetem in China. China Digital Medicine 6: 97–99.
[23]
Time Series Staff of Census Bureau’s Statistical Research Division (2011) X-12-ARIMA Reference Manual (Version 0.3). Washington, D.C. Census Bureau website. Available: http://www.census.gov/ts/x12a/v03/x12ado?cV03.pdf?. Accessed 2013 January 28.
[24]
Permanasari AE, Rambli DR, Dominic PD (2011) Performance of univariate forecasting on seasonal diseases: the case of tuberculosis. Adv Exp Med Biol 696: 171–179.
[25]
Bai LQ, Xiao SY (2004) [Factors associated with diagnostic delay for patients with smear-positive pulmonary tuberculosis in rural Hunan, China]. Zhonghua Jie He He Hu Xi Za Zhi 27: 617–620.
[26]
Tattevin P, Che D, Fraisse P, Gatey C, Guichard C, et al. (2012) Factors associated with patient and health care system delay in the diagnosis of tuberculosis in France. Int J Tuberc Lung Dis 16: 510–515.
[27]
Belay M, Bjune G, Ameni G, Abebe F (2012) Diagnostic and treatment delay among Tuberculosis patients in Afar Region, Ethiopia: A cross-sectional study. BMC Public Health 12: 369.
[28]
ten Asbroek AH, Borgdorff MW, Nagelkerke NJ, Sebek MM, Deville W, et al. (1999) Estimation of serial interval and incubation period of tuberculosis using DNA fingerprinting. Int J Tuberc Lung Dis 3: 414–420.
[29]
Fares A (2011) Seasonality of tuberculosis. J Glob Infect Dis 3: 46–55.
[30]
Rios M, Garcia JM, Sanchez JA, Perez D (2000) A statistical analysis of the seasonality in pulmonary tuberculosis. Eur J Epidemiol 16: 483–488.
[31]
Janmeja AK, Mohapatra PR (2005) Seasonality of tuberculosis. Int J Tuberc Lung Dis 9: 704–705.
[32]
Moore M, Valway SE, Ihle W, Onorato IM (1999) A train passenger with pulmonary tuberculosis: evidence of limited transmission during travel. Clin Infect Dis 28: 52–56.
[33]
Davies PD (1997) Seasonality of tuberculosis. Thorax 52: 398.
[34]
Chen W, Xia Y, Li X, Zhou L, Li C, et al. (2012) A tuberculosis outbreak among senior high school students in china in 2011. J Int Med Res 40: 1830–1839.
[35]
Torgersen J, Dorman SE, Baruch N, Hooper N, Cronin W (2006) Molecular epidemiology of pleural and other extrapulmonary tuberculosis: a Maryland state review. Clin Infect Dis 42: 1375–1382.
