Artículo
Mathematical models for dengue fever epidemiology: A 10-year systematic review
Aguiar, Maíra; Anam, Vizda; Blyuss, Konstantin B.; Estadilla, Carlo Delfin S.; Guerrero, Bruno V.; Knopoff, Damián Alejandro
; Kooi, Bob W.; Srivastav, Akhil Kumar; Steindorf, Vanessa; Stollenwerk, Nico
Fecha de publicación:
03/2022
Editorial:
Elsevier Science
Revista:
Physics of Life Reviews
ISSN:
1571-0645
e-ISSN:
1873-1457
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Mathematical models have a long history in epidemiological research, and as the COVID-19 pandemic progressed, research on mathematical modeling became imperative and very influential to understand the epidemiological dynamics of disease spreading. Mathematical models describing dengue fever epidemiological dynamics are found back from 1970. Dengue fever is a viral mosquito-borne infection caused by four antigenically related but distinct serotypes (DENV-1 to DENV-4). With 2.5 billion people at risk of acquiring the infection, it is a major international public health concern. Although most of the cases are asymptomatic or mild, the disease immunological response is complex, with severe disease linked to the antibody-dependent enhancement (ADE) - a disease augmentation phenomenon where pre-existing antibodies to previous dengue infection do not neutralize but rather enhance the new infection. Here, we present a 10-year systematic review on mathematical models for dengue fever epidemiology. Specifically, we review multi-strain frameworks describing host-to-host and vector-host transmission models and within-host models describing viral replication and the respective immune response. Following a detailed literature search in standard scientific databases, different mathematical models in terms of their scope, analytical approach and structural form, including model validation and parameter estimation using empirical data, are described and analyzed. Aiming to identify a consensus on infectious diseases modeling aspects that can contribute to public health authorities for disease control, we revise the current understanding of epidemiological and immunological factors influencing the transmission dynamics of dengue. This review provide insights on general features to be considered to model aspects of real-world public health problems, such as the current epidemiological scenario we are living in.
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Articulos(CIEM)
Articulos de CENT.INV.Y ESTUDIOS DE MATEMATICA DE CORDOBA(P)
Articulos de CENT.INV.Y ESTUDIOS DE MATEMATICA DE CORDOBA(P)
Citación
Aguiar, Maíra; Anam, Vizda; Blyuss, Konstantin B.; Estadilla, Carlo Delfin S.; Guerrero, Bruno V.; et al.; Mathematical models for dengue fever epidemiology: A 10-year systematic review; Elsevier Science; Physics of Life Reviews; 40; 3-2022; 65-92
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