Mathematical models can help elucidate the spatio-temporal dynamics of epidemics as well as the impact of control measures. The gravity model for directly transmitted diseases is currently one of the most parsimonious models for spatial epidemic spread. This model uses distance-weighted, population size-dependent coupling to estimate host movement and disease incidence in metapopulations. The model captures overall measles dynamics in terms of underlying human movement in pre-vaccination England and Wales (previously established). In spatial models, edges often present a special challenge. Therefore, to test the model's robustness, we analyzed gravity model incidence predictions for coastal cities in England and Wales. Results show that, al...
In recent years, serious infectious diseases tend to transcend national borders and widely spread in...
Spatial-temporal patterns of measles incidence reflect the spatial distribution of human hosts. The ...
Prediction and control of the spread of infectious disease in human populations benefits greatly fro...
Abstract: Local oscillatory dynamics, fadeout rates and regional phase differ-ences are the most imp...
We present a spatial variant of the time series susceptible-infectious-recovered (TSIR) stochastic p...
In recent years the global nature of epidemic spread has become a well established fact, however the...
There is still limited understanding of key determinants of spatial spread of influenza. The 1918 pa...
Three main mechanisms determining the dynamics of measles have been described in the literature: inv...
Epidemic dynamics pose a great challenge to stochastic modelling because chance events are major det...
<div><p>The emergence of novel respiratory pathogens can challenge the capacity of key health care r...
Understanding how the geographic distribution of and movements within a population influence the spa...
During transmission of seasonal endemic diseases such as measles and influenza, spatial waves of inf...
Abstract Computational models for large, resurgent epidemics are recognized as a crucial tool for pr...
Before the development of mass-vaccination campaigns. measles exhibited persistent fluctuations (end...
Childhood diseases remain an important public health issue, particularly in developing countries whe...
In recent years, serious infectious diseases tend to transcend national borders and widely spread in...
Spatial-temporal patterns of measles incidence reflect the spatial distribution of human hosts. The ...
Prediction and control of the spread of infectious disease in human populations benefits greatly fro...
Abstract: Local oscillatory dynamics, fadeout rates and regional phase differ-ences are the most imp...
We present a spatial variant of the time series susceptible-infectious-recovered (TSIR) stochastic p...
In recent years the global nature of epidemic spread has become a well established fact, however the...
There is still limited understanding of key determinants of spatial spread of influenza. The 1918 pa...
Three main mechanisms determining the dynamics of measles have been described in the literature: inv...
Epidemic dynamics pose a great challenge to stochastic modelling because chance events are major det...
<div><p>The emergence of novel respiratory pathogens can challenge the capacity of key health care r...
Understanding how the geographic distribution of and movements within a population influence the spa...
During transmission of seasonal endemic diseases such as measles and influenza, spatial waves of inf...
Abstract Computational models for large, resurgent epidemics are recognized as a crucial tool for pr...
Before the development of mass-vaccination campaigns. measles exhibited persistent fluctuations (end...
Childhood diseases remain an important public health issue, particularly in developing countries whe...
In recent years, serious infectious diseases tend to transcend national borders and widely spread in...
Spatial-temporal patterns of measles incidence reflect the spatial distribution of human hosts. The ...
Prediction and control of the spread of infectious disease in human populations benefits greatly fro...