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Literature DB >> 15172802

A mathematical model for Chagas disease with infection-age-dependent infectivity.

Abstract

In this paper we develop a mathematical model for Chagas disease with infection-age-dependent infectivity. The effects of vector and blood transfusion transmission are considered, and the infected population is structured by the infection age (the time elapsed from infection). The authors identify the basic reproduction ratio R0 and show that the disease can invade into the susceptible population and unique endemic steady state exists if R0 > 1, whereas the disease dies out if R0 is small enough. We show that depending on parameters, backward bifurcation of endemic steady state can occur, so even if R0 < 1, there could exist endemic steady states. We also discuss local and global stability of steady states. Copyright 2004 Elsevier Inc.

Entities: Disease

Mesh：

Year: 2004 PMID： 15172802 DOI： 10.1016/j.mbs.2004.02.004

Source DB: PubMed Journal: Math Biosci ISSN： 0025-5564 Impact factor: 2.144

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Cited

8 in total

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Journal: Trans R Soc Trop Med Hyg Date: 2015-02 Impact factor: 2.184

3. Modeling Chagas Disease at Population Level to Explain Venezuela's Real Data.

Authors: Gilberto González-Parra; Benito M Chen-Charpentier; Moises Bermúdez
Journal: Osong Public Health Res Perspect Date: 2015-10-22

4. Epidemiological modeling of Trypanosoma cruzi: Low stercorarian transmission and failure of host adaptive immunity explain the frequency of mixed infections in humans.

Authors: Nicolás Tomasini; Paula Gabriela Ragone; Sébastien Gourbière; Juan Pablo Aparicio; Patricio Diosque
Journal: PLoS Comput Biol Date: 2017-05-08 Impact factor: 4.475

A mathematical model for Chagas disease with infection-age-dependent infectivity.

1. Blood transfusion and spread of variant Creutzfeldt-Jakob disease.

2. Experimental control of Triatoma infestans in poor rural villages of Bolivia through community participation.

3. Modeling Chagas Disease at Population Level to Explain Venezuela's Real Data.

4. Epidemiological modeling of Trypanosoma cruzi: Low stercorarian transmission and failure of host adaptive immunity explain the frequency of mixed infections in humans.

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6. A probabilistic epidemiological model for infectious diseases: The case of COVID-19 at global-level.

7. Competitive exclusion in a vector-host epidemic model with distributed delay(†).

8. A voluntary use of insecticide treated nets can stop the vector transmission of Chagas disease.