Authors: S. Wongkoon, M. Pollar, M. Jaroensutasinee, K. Jaroensutasinee

Abstract:

This study aimed at developing a forecasting model on the number of Dengue Haemorrhagic Fever (DHF) incidence in Northern Thailand using time series analysis. We developed Seasonal Autoregressive Integrated Moving Average (SARIMA) models on the data collected between 2003-2006 and then validated the models using the data collected between January-September 2007. The results showed that the regressive forecast curves were consistent with the pattern of actual values. The most suitable model was the SARIMA(2,0,1)(0,2,0)12 model with a Akaike Information Criterion (AIC) of 12.2931 and a Mean Absolute Percent Error (MAPE) of 8.91713. The SARIMA(2,0,1)(0,2,0)12 model fitting was adequate for the data with the Portmanteau statistic Q20 = 8.98644 ( x20,95= 27.5871, P>0.05). This indicated that there was no significant autocorrelation between residuals at different lag times in the SARIMA(2,0,1)(0,2,0)12 model.

Keywords: Dengue, SARIMA, Time Series Analysis, Northern Thailand.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1055643

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1950

References:

[1] World Health Organization. Dengue haemorrhagic fever: diagnosis, treatment, prevention and control (2nd edition). Geneva: World Health Organization; 1997.
[2] S. Anuradha, N. P. Singh, S. N. Rizvi, S. K. Agarwal, R. Gur, and M. D. Mathur, "The 1996 outbreak of dengue hemorrhagic fever in Delhi, India," Southeast Asian J Trop Med Public Health, vol. 29, pp. 503-506, 1998.
[3] J. G. Rigau-Perez, D. J. Gubler, A. V. Vorndam, and G. G. Clark, "Dengue: literature review and case study of travelers from the United States 1986-1994," J Travel Med, vol. 4, pp. 65-71, 1997.
[4] D. J. Gubler, "The global pandemic of dengue/dengue haemorrhagic fever: current status and prospects for the future," Ann Acad Med Singapore, vol. 27, pp. 227-234, 1998.
[5] W. M. Hammon, A. Rudnick, and G. E. Sather, "Viruses associated with epidemic hemorrhagic fevers of the Philippines and Thailand," Science, vol. 131, pp. 1102-1103, 1960.
[6] S. B. Halstead, "Mosquito-borne haemorrhagic fevers of south and southeast Asia," Bull World Health Organ, vol. 35, pp. 3-15, 1966.
[7] K. Ungchusak, and P. Kunasol, "Dengue haemorrhagic fever in Thailand, 1987," Southeast Asian J Trop Med Public Health, vol. 19(3), pp. 487-490, 1988.
[8] P. Barbazan, S. Yoksan, and J. P. Gonzalez, "Dengue hemorrhagic fever epidemiology in Thailand: description and forecasting of epidemics," Microbes Infect, vol. 4(7), pp. 699-705, 2002.
[9] Bureau of Epidemiology, "DHF Situation in Thailand," Ministry of Public Health, Thailand, 2002.
[10] Department of Medical Science, "DHF Situation in Thailand," Ministry of Public Health, Thailand, 2007.
[11] C. Bowie, and D. Prothero, "Finding cases of seasonal diseases using time series analysis," Int. J. Epidemiol, vol. 10, pp. 87-92, 1981.
[12] R. Catalano, and S. Serxner, "Time series designs of potential interest to epidemiologists," Am. J. Epidemiol, vol. 26, pp. 724-731, 1987.
[13] U. Helfenstein, "The use of transfer function models, intervention analysis and related time series methods in epidemiology," Int. J. Epidemiol, vol. 20, pp. 808-815, 1991.
[14] J. Schwartz, C. Spix, G. Touloumi, L. Bacharova, T. Barumamdzadeh, A. Tertre, T. Pickarksi, A. Leon, A. Ponka, G. Rossi, M. Saez, and J. Schouten, "Methodological issues in studies of air pollution and daily counts of deaths or hospital admissions," J. Epidemiol. Community Health, vol. 50(s), pp. s3-s11, 1996.
[15] J. Schwartz, "The distributed lag between air pollution and daily deaths," Epidemiology, vol. 11, pp. 320-326, 2000.
[16] T. Slini, K. Karatzas, and N. Moussiopoulos, "Statistical analysis of environmental data as the basis of forecasting: an air quality apllication," Sci Total Environ, vol. 288(3), pp. 227-237, 2002.
[17] National Statistical Office, "The population and area data in Thailand," Avalable online http://portal.nso.go.th, 2007
[18] Thai Meteorological Department, "The climatic data in Thailand," Avalable online : http://www.tmd.go.th, 2007.
[19] S. Makridakis, S. C. Wheelwrigth, and R. J. Hyndman, "Forecasting: methods and applications," Prentice Hall, 1998.
[20] A. S. Weigend, and N. A. Gershenfeld, "Time series prediction: forecasting the future and understanding the past," Addison-Wesley, 1996.
[21] A. Guisan, and N. Zimmermann, "Predictive habitat distribution models in ecology," Ecol. Model, vol. 135, pp. 147-186, 2000.
[22] S. J├ÿrgensen, "25 years of ecological modelling by ecological modelling," Ecol. Model, vol. 126, pp. 95-99, 2000.
[23] S. J├ÿrgensen, "Ecological modelling: editorial overview 2000-2005," Ecol. Model, vol. 188, pp. 137-144, 2005.
[24] R. Woodruff, C. Guest, M. Garner, N. Becker, J. Lindesay, T. Carvan, and K. Ebi, "Predicting Ross River virus epidemics from regional weather data," Epidemiology, vol. 13, pp. 384-393, 2002.
[25] H. Teklehaimanot, M. Lipsitch, A. Teklehaimanot, and J. Schwartz, "Weather-based prediction of Plasmodium falciparum malaria in epidemic-prone regions of Ethiopia I patterns of lagged weather effects reflect biological mechanisms," Malar. J, vol. 3, pp. 41. 2004.
[26] H. Teklehaimanot, J. Schwartz, A. Teklehaimanot, and M. Lipsitch, "Weather-based prediction of Plasmodium falciparum malaria in epidemic-prone regions of Ethiopia II weather-based prediction systems perform comparably to early detection systems in identifying times for interventions," Malar. J, vol. 3, pp. 44. 2004.
[27] K. Linthicum, A. Anyamba, C. Tucker, P. Kelley, M. F. Myers, and C. Peters, "Climate and satellite indicators to forecast Rift Valley fever epidemics in Kenya," Science, vol. 285, pp. 347-348, 1999.
[28] T. Abeku, S. deVlas, G. Borsboom, A. Teklehaimanot, A. Kebede, D. Olana, G. van Oortamrssen, and J. Habbema, "Forecasting malaria incidence from historical morbidity patterns in epidemic-prone areas of Ethiopia: a simple seasonal adjustment method performs best," Trop. Med. Int. Health, vol. 7, pp. 851-857, 2002.
[29] W. Hu, N. Nicholls, M. Lindsay, P. Dale, A. McMichael, J. Mackenzie, and S. Tong, "Development of a predictive model for Ross River virus disease in Brisbane," Am. J. Trop. Med. Hyg, vol. 71, pp. 129-137, 2004.
[30] G. Box, and G. Jenkins, "Time-series Analysis: Forecasting and Control ," Holden-Day (Maidenhead McGraw-Hill), 1970.
[31] K. Yurekli, A. Kurunc, and F. Ozturk, "Application of linear stochastic models to monthly flow data of Kelkit Stream," Ecol. Model, vol. 183, pp. 67-75, 2005.
[32] U. Helfenstein, "Box-Jenkins modelling of some viral infectious diseases," Stat. Med, vol. 5, pp. 37-47, 1986.
[33] R. Allard, "Use of time-series analysis in infectious disease surveillance," Bull. World Health Organ, vol. 76, pp. 327-333, 1998.
[34] W. Wei, "Time Series Analysis," Addison-Wesley Publishing Company Inc., Now York, 1990.