Detection of epidemics in their early stage through infectious disease surveillance.

BACKGROUND Surveillance of infectious diseases is done in many countries. The aims of such surveillance include the detection of epidemics. In the present study, the possibility of detecting an epidemic in its early stage using a simple method was evaluated for 16 infectious diseases. METHODS We used as an index the number of cases per week per sentinel medical institution in the area covered by a health centre in infectious disease surveillance in Japan in 1993-1997. Periods of epidemics in health centre areas were determined according to the reported indices. The simple method used for detecting the early stage of an epidemic is that if the index exceeds a critical value, then an epidemic will begin in the following 4 weeks. The sensitivity, specificity and positive predictive value for this epidemic warning were evaluated for given critical values. RESULTS When the specificity of the epidemic warning was more than 95%, the sensitivity was more than 60% in ten diseases, and more than 80% in four diseases (influenza-like illness, rubella, hand-foot-and-mouth disease, and herpangina). The positive predictive value was between 15.6% and 31.4% in these ten diseases. CONCLUSION The early stage of epidemics of some infectious diseases might be detectable using this simple method.

[1]  D F Stroup,et al.  Evaluation of a method for detecting aberrations in public health surveillance data. , 1993, American journal of epidemiology.

[2]  W. Beyer,et al.  Influenza: relation of mortality to morbidity parameters--Netherlands, 1970-1989. , 1991, International journal of epidemiology.

[3]  T. Nose,et al.  Infectious Disease Surveillance System of Infectious Diseases in Japan , 1996 .

[4]  A. Flahault,et al.  A routine tool for detection and assessment of epidemics of influenza-like syndromes in France. , 1991, American journal of public health.

[5]  H. Tillett,et al.  Influenza surveillance in England and Wales using routine statistics: Development of ‘cusum’ graphs to compare 12 previous winters and to monitor the 1980/81 winter , 1982, Journal of Hygiene.

[6]  S B Thacker,et al.  An evaluation of influenza mortality surveillance, 1962-1979. I. Time series forecasts of expected pneumonia and influenza deaths. , 1981, American journal of epidemiology.

[7]  S B Thacker,et al.  Future directions for comprehensive public health surveillance and health information systems in the United States. , 1994, American journal of epidemiology.

[8]  P. Haggett,et al.  The changing geographical coherence of measles morbidity in the United States, 1962-88. , 1992, Statistics in medicine.

[9]  S B Thacker,et al.  A Bayesian Approach to the Detection of Aberrations in Public Health Surveillance Data , 1993, Epidemiology.

[10]  S. Thacker,et al.  The surveillance of infectious diseases. , 1983, JAMA.

[11]  F F Nobre,et al.  A monitoring system to detect changes in public health surveillance data. , 1994, International journal of epidemiology.

[12]  C. Del Mar,et al.  Incidence patterns of respiratory illness in Queensland estimated from sentinel general practice. , 1995, Australian family physician.

[13]  H. Matter,et al.  Measles, mumps, and rubella: monitoring in Switzerland through a sentinel network, 1986-94. Sentinella Arbeitsgemeinschaft. , 1995, Journal of epidemiology and community health.