Communication in Biomathematical Sciences
Vol 1, No 1 (2017)

Mathematical models of dengue fever epidemiology: multi-strain dynamics, immunological aspects associated to disease severity and vaccines

Aguiar, Maira (Centre for Mathematics and Applications, Faculty of Sciences and Technology, Nova University of Lisbon, 2829-516 Caparica)
Stollenwerk, Nico (Centro de Matematica, Aplicacoes Fundamentais e Investigacao Operacional, Faculdade de Ciencias da Universidade de Lisboa)

Article Info

Publish Date
22 Dec 2017

Abstract

Epidemiological models formulated to describe the transmission of the disease and to predict future outbreaks, can become an interesting tool able to address specific public health questions, guiding public health authorities during implementation of disease control measures such as vector control and vaccination. In this paper, we survey a model framework for dengue fever epidemiology, the most important viral mosquitoborne disease in the world. Here, we discuss the role of number of subsequent infections versus detailed number of dengue serotypes included in the model framework and the human immunological aspects associated to disease severity, identifying the implications for model dynamics and its impact for vaccine implementation.

Copyrights © 2017




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Journal Info
Communication in Biomathematical Sciences
Website

Abbrev

Publisher

Indonesian Biomathematical Society

Subject

Social Sciences

Description

Full research articles in the area of Applications of Mathematics in biological processes and ...