Add to ORKGDengue is a debilitating and devastating viral infection spread by mosquito vectors, and over half the world’s population currently live at risk of dengue (and other flavivirus) infections. Here we use an integrated epidemiological and vector ecology framework to predict optimal approaches for tackling dengue. Our aim is to investigate how vector control and/or vaccination strategies can be best combined and implemented for dengue disease control on small networks, and whether these optimal strategies differ under different circumstances. We show that a combination of vaccination programmes and the release of genetically modified self-limiting mosquitoes (comparable to sterile insect approaches) is always considered the most beneficial stra...
Dengue disease is caused by four serotypes of the dengue virus: DEN-1, DEN-2, DEN-3, and DEN-4. The ...
This study presents a mathematical model for dengue transmission which quantifies two very important...
Abstract A mathematical model of Dengue virus transmission between mosquitoes and humans, incorporat...
Dengue is a debilitating and devastating viral infection spread by mosquito vectors, and over half t...
AbstractDengue fever is a major public health issue affecting billions of people in over 100 countri...
Dengue fever is a major public health issue a↵ecting billions of people in over 100 countries across...
We present a SIR+ASI epidemic model to describe the interaction between human and dengue fever mosqu...
Dengue fever is the most important viral mosquito-borne disease worldwide, with approximately 3.9 bi...
The aim of this paper is to propose optimal strategies for dengue reduction and prevention in Cali, ...
Dengue is, in terms of death and economic cost, one of the most important infectious diseases in the...
Dengue is considered one of the most important vector-borne infection, affecting almost half of the ...
In this paper, we report an application for the mathematical theory of dynamic optimization for desi...
Dengue poses social and economic burden in the world. Around 390 million cases have been identified ...
Background Dengue is a vector-borne viral disease endemic in Malaysia. The disease is presently a pu...
A mathematical model of dengue diseases transmission will be discussed in this paper. Various interv...
Dengue disease is caused by four serotypes of the dengue virus: DEN-1, DEN-2, DEN-3, and DEN-4. The ...
This study presents a mathematical model for dengue transmission which quantifies two very important...
Abstract A mathematical model of Dengue virus transmission between mosquitoes and humans, incorporat...
Dengue is a debilitating and devastating viral infection spread by mosquito vectors, and over half t...
AbstractDengue fever is a major public health issue affecting billions of people in over 100 countri...
Dengue fever is a major public health issue a↵ecting billions of people in over 100 countries across...
We present a SIR+ASI epidemic model to describe the interaction between human and dengue fever mosqu...
Dengue fever is the most important viral mosquito-borne disease worldwide, with approximately 3.9 bi...
The aim of this paper is to propose optimal strategies for dengue reduction and prevention in Cali, ...
Dengue is, in terms of death and economic cost, one of the most important infectious diseases in the...
Dengue is considered one of the most important vector-borne infection, affecting almost half of the ...
In this paper, we report an application for the mathematical theory of dynamic optimization for desi...
Dengue poses social and economic burden in the world. Around 390 million cases have been identified ...
Background Dengue is a vector-borne viral disease endemic in Malaysia. The disease is presently a pu...
A mathematical model of dengue diseases transmission will be discussed in this paper. Various interv...
Dengue disease is caused by four serotypes of the dengue virus: DEN-1, DEN-2, DEN-3, and DEN-4. The ...
This study presents a mathematical model for dengue transmission which quantifies two very important...
Abstract A mathematical model of Dengue virus transmission between mosquitoes and humans, incorporat...