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Influenza

2009; Deutscher Ärzte-Verlag; Linguagem: Inglês

10.3238/arztebl.2009.0777

1866-0452

Rafael Mikolajczyk, Ralf Krumkamp, Reinhard Bornemann, Amena Ahmad, Markus Schwehm, Hans-Peter Duerr,

Zoonotic diseases and public health

Background: When the first cases of a new infectious disease appear, questions arise about the further course of the epidemic and about the appropriate interventions to be taken to protect individuals and the public as a whole.Mathematical models can help answer these ques tions.In this article, the authors describe basic concepts in the mathematical modelling of infectious diseases, illustrate their use with a simple example, and present the results of influenza models.Method: Description of the mathematical modelling of infectious diseases and selective review of the literature.Results: The two fundamental concepts of mathematical modelling of infectious diseases-the basic reproduction number and the generation time-allow a better understanding of the course of an epidemic.Modelling studies based on past influenza epidemics suggest that the rise of the epidemic curve can be slowed at the beginning of the epi demic by isolating ill persons and giving prophylactic medications to their contacts.Later on in the course of the epidemic, restricting the number of contacts (e.g., by closing schools) may mitigate the epidemic but will only have a limited effect on the total number of persons who contract the disease.Conclusion: Mathematical modelling is a valuable tool for understanding the dynamics of an epidemic and for planning and evaluating interven tions.