Implications of Vaccination and Waning Immunity

For infectious diseases where immunization can offer lifelong protection, a variety of simple models can be used to explain the utility of vaccination as a control method. However, for many diseases, immunity wanes over time and is subsequently enhanced (boosted) by asymptomatic encounters with the...

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Veröffentlicht in:	Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2009-06, Vol.276 (1664), p.2071-2080
Hauptverfasser:	Heffernan, J. M., Keeling, M. J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Disease models Epidemics Immunity Infections Measles Memory Natural immunity Parametric models Transplantation immunology Vaccination
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creator	Heffernan, J. M. Keeling, M. J.
description	For infectious diseases where immunization can offer lifelong protection, a variety of simple models can be used to explain the utility of vaccination as a control method. However, for many diseases, immunity wanes over time and is subsequently enhanced (boosted) by asymptomatic encounters with the infection. The study of this type of epidemiological process requires a model formulation that can capture both the within-host dynamics of the pathogen and immune system as well as the associated population-level transmission dynamics. Here, we parametrize such a model for measles and show how vaccination can have a range of unexpected consequences as it reduces the natural boosting of immunity as well as reducing the number of naive susceptibles. In particular, we show that moderate waning times (40-80 years) and high levels of vaccination (greater than 70%) can induce large-scale oscillations with substantial numbers of symptomatic cases being generated at the peak. In addition, we predict that, after a long disease-free period, the introduction of infection will lead to far larger epidemics than that predicted by standard models. These results have clear implications for the long-term success of any vaccination campaign and highlight the need for a sound understanding of the immunological mechanisms of immunity and vaccination.
doi_str_mv	10.1098/rspb.2008.0057
format	Article
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The study of this type of epidemiological process requires a model formulation that can capture both the within-host dynamics of the pathogen and immune system as well as the associated population-level transmission dynamics. Here, we parametrize such a model for measles and show how vaccination can have a range of unexpected consequences as it reduces the natural boosting of immunity as well as reducing the number of naive susceptibles. In particular, we show that moderate waning times (40-80 years) and high levels of vaccination (greater than 70%) can induce large-scale oscillations with substantial numbers of symptomatic cases being generated at the peak. In addition, we predict that, after a long disease-free period, the introduction of infection will lead to far larger epidemics than that predicted by standard models. These results have clear implications for the long-term success of any vaccination campaign and highlight the need for a sound understanding of the immunological mechanisms of immunity and vaccination.</abstract><pub>The Royal Society</pub><doi>10.1098/rspb.2008.0057</doi></addata></record>
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source	JSTOR Archive Collection A-Z Listing; PubMed Central
subjects	Disease models Epidemics Immunity Infections Measles Memory Natural immunity Parametric models Transplantation immunology Vaccination
title	Implications of Vaccination and Waning Immunity
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