The role of spatial arrangements on the spread and management strategies of a cholera epidemic is investigated. We consider the effect of human and pathogen movement on optimal vaccination strategies. A metapopulation model is used, incorporating a susceptible–infected–recovered system of differential equations coupled with an equation modelling the concentration of Vibrio cholerae in an aquatic reservoir. The model compared spatial arrangements and varying scenarios to draw conclusions on how to effectively manage outbreaks. The work is motivated by the 2010 cholera outbreak in Haiti. Results give guidance for vaccination strategies in response to an outbreak
We generalize a recently proposed model for cholera epidemics that accounts for local communities of...
The fate of ongoing infectious disease outbreaks is predicted through reproduction numbers, defining...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
Here we propose spatially explicit predictions of the residual progression of the current Haiti chol...
Cholera is an infectious disease caused by the bacterium Vibrio cholerae. Infections can occur direc...
Following the empirical evidence of a clear correlation between rainfall events and cholera resurgen...
We propose a multi-group, multi-scale mathematical model to investigate the betweenhost and within-h...
Despite being one of the first infectious diseases to be isolated and studied in modern times, chole...
We propose an important extension of a previously studied, spatially explicit and hydrology-driven, ...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
We generalize a recently proposed model for cholera epidemics that accounts for local communities of...
The fate of ongoing infectious disease outbreaks is predicted through reproduction numbers, defining...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
Here we propose spatially explicit predictions of the residual progression of the current Haiti chol...
Cholera is an infectious disease caused by the bacterium Vibrio cholerae. Infections can occur direc...
Following the empirical evidence of a clear correlation between rainfall events and cholera resurgen...
We propose a multi-group, multi-scale mathematical model to investigate the betweenhost and within-h...
Despite being one of the first infectious diseases to be isolated and studied in modern times, chole...
We propose an important extension of a previously studied, spatially explicit and hydrology-driven, ...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...
We generalize a recently proposed model for cholera epidemics that accounts for local communities of...
The fate of ongoing infectious disease outbreaks is predicted through reproduction numbers, defining...
We investigate the role of human mobility as a driver for long-range spreading of cholera infections...