Dengue is a vector-borne disease recognized as the major arbovirose with four
immunologically distant dengue serotypes coexisting in many endemic areas. Several …

A situação epidemiológica da dengue no Brasil é apresentada, mostrando-se a introdução
e a dispersão do vetor e dos diferentes sorotipos do vírus no Brasil. No presente momento …

In this work, we use a mathematical model for dengue transmission with the aim of analysing
and comparing two dengue epidemics that occurred in Salvador, Brazil, in 1995–1996 and …

The prevention and control of dengue are great public health challenges for many countries,
particularly since 2015, as other arboviruses have been observed to interact significantly …

Background Dengue is a disease of great complexity, due to interactions between humans,
mosquitoes and various virus serotypes as well as efficient vector survival strategies. Thus …

In this work, to support decision making of immunisation strategies, we propose the inclusion
of two vaccination doses in the SEIR model considering a stochastic cellular automaton. We …

We present a stochastic dynamical model for the transmission of dengue that takes into
account seasonal and spatial dynamics of the vector Aedes aegypti. It describes disease …

Predicting infectious disease outbreak impacts on population, healthcare resources and
economics and has received a special academic focus during coronavirus (COVID-19) …

Dengue disease transmission is a complex vector-borne disease, mainly due to the co-
circulation of four serotypes of the virus. Mathematical models have proved to be a useful …

Abstract Models can be useful tools for understanding the dynamics and control of mosquito-
borne disease. More detailed models may be more realistic and better suited for …