Add to ORKGIn this note we discuss the issues involved in attempting to model pandemic dynamics. More specifically, we show how it may be possible to make projections for the ongoing H1N1 pandemic as extrapolated from knowledge of seasonal influenza. We derive first-approximation parameter estimates for the SIR model to describe seasonal influenza, and then explore the implications of the existing classical epidemiological theory for the case of a pandemic virus. In particular, we note the dramatic nonlinear increase in attack rate as a function of the percentage of susceptibles initially present in the population. This has severe consequences for the pandemic, given the general lack of immunity in the global population
The current pandemic threat can be best understood within an ecological framework that takes account...
Prediction models which will explicitly include the immunity levels of the population are required t...
Influenza in humans is characterised by strongly annual dynamics and antigenic evolution leading to ...
In this note we discuss the issues involved in attempting to model pandemic dynamics. More specifica...
In this note we discuss the issues involved in attempting to model pandemic dynamics. More specifica...
Background. The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
BACKGROUND: The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
Background. The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
Background: Geographical and temporal diffusion patterns of a human pandemic due to Swine Origin Inf...
Background: The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
Abstract Background Pre-existing cellular immunity ha...
The panzootic of H5N1 influenza in birds has raised concerns that the virus will mutate to spread mo...
Review of the literature of influenza modeling studies and discussed how these models can provide in...
Abstract The conventional susceptible-infectious-recovered (SIR) model tends to magnify the transmis...
ABSTRACT The outbreaks of Avian Influenza H5N1 the recent years has increased our attention to a po...
The current pandemic threat can be best understood within an ecological framework that takes account...
Prediction models which will explicitly include the immunity levels of the population are required t...
Influenza in humans is characterised by strongly annual dynamics and antigenic evolution leading to ...
In this note we discuss the issues involved in attempting to model pandemic dynamics. More specifica...
In this note we discuss the issues involved in attempting to model pandemic dynamics. More specifica...
Background. The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
BACKGROUND: The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
Background. The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
Background: Geographical and temporal diffusion patterns of a human pandemic due to Swine Origin Inf...
Background: The clinical attack rate of influenza is influenced by prior immunity and mixing pattern...
Abstract Background Pre-existing cellular immunity ha...
The panzootic of H5N1 influenza in birds has raised concerns that the virus will mutate to spread mo...
Review of the literature of influenza modeling studies and discussed how these models can provide in...
Abstract The conventional susceptible-infectious-recovered (SIR) model tends to magnify the transmis...
ABSTRACT The outbreaks of Avian Influenza H5N1 the recent years has increased our attention to a po...
The current pandemic threat can be best understood within an ecological framework that takes account...
Prediction models which will explicitly include the immunity levels of the population are required t...
Influenza in humans is characterised by strongly annual dynamics and antigenic evolution leading to ...