Population-level analyses often use average quantities to describe heterogeneous systems, particularly when variation does not arise from identifiable groups. A prominent example, central to our current understanding of epidemic spread, is the basic reproductive number, R(0), which is defined as the mean number of infections caused by an infected individual in a susceptible population. Population estimates of R(0) can obscure considerable individual variation in infectiousness, as highlighted during the global emergence of severe acute respiratory syndrome (SARS) by numerous 'superspreading events' in which certain individuals infected unusually large numbers of secondary cases. For diseases transmitted by non-sexual direct contacts, such a...
When controlling an emerging outbreak of an infectious disease, it is essential to know the key epid...
In the context of infectious disease transmission, high heterogeneity in individual infectiousness i...
<div><p>Emerging and re-emerging infections such as SARS (2003) and pandemic H1N1 (2009) have caused...
Population-level analyses often use average quantities to describe heterogeneous systems, particular...
Many recent disease outbreaks (e.g. SARS, foot-and-mouth disease) exhibit superspreading, where rela...
The aim of this study is to identify general properties of emerging infectious agents that determine...
International audienceInfectious disease transmission patterns in some outbreaks can be more heterog...
SummaryEarly studies that explored host–pathogen interactions assumed that infected individuals with...
This analysis uses a model that incorporates randomness and individual-level variation in transmissi...
Early theoretical work on disease invasion typically assumed large and well-mixed host populations. ...
Superspreaders are an important phenomenon in the spread of infectious disease, accounting for a hig...
<div><h3>Background</h3><p>Early warning systems for outbreaks of infectious diseases are an importa...
Classical compartmental models of infectious disease assume that spread occurs through a homogeneous...
Through a series of case studies, this thesis explores how changes in infectiousness and symptoms du...
Superspreaders are recognized as being important drivers of disease spread. However, models to date ...
When controlling an emerging outbreak of an infectious disease, it is essential to know the key epid...
In the context of infectious disease transmission, high heterogeneity in individual infectiousness i...
<div><p>Emerging and re-emerging infections such as SARS (2003) and pandemic H1N1 (2009) have caused...
Population-level analyses often use average quantities to describe heterogeneous systems, particular...
Many recent disease outbreaks (e.g. SARS, foot-and-mouth disease) exhibit superspreading, where rela...
The aim of this study is to identify general properties of emerging infectious agents that determine...
International audienceInfectious disease transmission patterns in some outbreaks can be more heterog...
SummaryEarly studies that explored host–pathogen interactions assumed that infected individuals with...
This analysis uses a model that incorporates randomness and individual-level variation in transmissi...
Early theoretical work on disease invasion typically assumed large and well-mixed host populations. ...
Superspreaders are an important phenomenon in the spread of infectious disease, accounting for a hig...
<div><h3>Background</h3><p>Early warning systems for outbreaks of infectious diseases are an importa...
Classical compartmental models of infectious disease assume that spread occurs through a homogeneous...
Through a series of case studies, this thesis explores how changes in infectiousness and symptoms du...
Superspreaders are recognized as being important drivers of disease spread. However, models to date ...
When controlling an emerging outbreak of an infectious disease, it is essential to know the key epid...
In the context of infectious disease transmission, high heterogeneity in individual infectiousness i...
<div><p>Emerging and re-emerging infections such as SARS (2003) and pandemic H1N1 (2009) have caused...
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