Ring Vaccination and Smallpox Control

We present a stochastic model for the spread of smallpox after a small number of index cases are introduced into a susceptible population. The model describes a branching process for the spread of the infection and the effects of intervention measures. We discuss scenarios in which ring vaccination of direct contacts of infected persons is sufficient to contain an epidemic. Ring vaccination can be successful if infectious cases are rapidly diagnosed. However, because of the inherent stochastic nature of epidemic outbreaks, both the size and duration of contained outbreaks are highly variable. Intervention requirements depend on the basic reproduction number R0, for which different estimates exist. When faced with the decision of whether to rely on ring vaccination, the public health community should be aware that an epidemic might take time to subside even for an eventually successful intervention strategy.

[1]  Lawrence M Wein,et al.  Smallpox Bioterror Response , 2003, Science.

[2]  M. Enserink Smallpox Vaccination Campaign in the Doldrums , 2003, Science.

[3]  J. Millar,et al.  Complications of smallpox vaccination, 1968: results of ten statewide surveys. , 1970, The Journal of infectious diseases.

[4]  W. Edmunds,et al.  Who mixes with whom? A method to determine the contact patterns of adults that may lead to the spread of airborne infections , 1997, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[5]  Philip K. Russell,et al.  Smallpox as a biological weapon: medical and public health management. Working Group on Civilian Biodefense. , 1999, JAMA.

[6]  J. D. Millar,et al.  Modeling potential responses to smallpox as a bioterrorist weapon. , 2001, Emerging infectious diseases.

[7]  Steve Leach,et al.  Transmission potential of smallpox in contemporary populations , 2001, Nature.

[8]  F. Fenner Smallpox and its eradication , 1988 .

[9]  Martin Eichner,et al.  Transmission potential of smallpox: estimates based on detailed data from an outbreak. , 2003, American journal of epidemiology.

[10]  Martin Eichner,et al.  Case isolation and contact tracing can prevent the spread of smallpox. , 2003, American journal of epidemiology.

[11]  T. Mack,et al.  Smallpox in Europe, 1950-1971. , 1972, The Journal of infectious diseases.

[12]  David L. Craft,et al.  Emergency response to a smallpox attack: The case for mass vaccination , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[13]  A. Jacobs Immunity conferred by smallpox vaccine , 2002, BMJ : British Medical Journal.

[14]  Craig Smith,et al.  Biological warfare and bioterrorism , 2002, BMJ : British Medical Journal.

[15]  P. Kaye Infectious diseases of humans: Dynamics and control , 1993 .

[16]  A. Nizam,et al.  Containing Bioterrorist Smallpox , 2002, Science.

[17]  Sally C Morton,et al.  A model for a smallpox-vaccination policy. , 2003, The New England journal of medicine.

[18]  W. Bicknell,et al.  The new cell culture smallpox vaccine should be offered to the general population , 2003, Reviews in medical virology.

[19]  D A Henderson,et al.  The looming threat of bioterrorism. , 1999, Science.