Influenza surveillance enables systematic collection of data on spatially and demographically heterogeneous epidemics. Different data collection mechanisms record different aspects of the underlying epidemic with varying bias and noise. We aimed to characterize key differences in weekly incidence data from three influenza surveillance systems in Melbourne, Australia, from 2009 to 2012: laboratory-confirmed influenza notified to the Victorian Department of Health, influenza-like illness (ILI) reported through the Victorian General Practice Sentinel Surveillance scheme, and ILI cases presenting to the Melbourne Medical Deputising Service. Using nonlinear regression, we found that after adjusting for the effects of geographical region and age ...
Health authorities find thresholds useful to gauge the start and severity of influenza seasons. We e...
BackgroundInfluenza causes an estimated 3000 to 50,000 deaths per year in the United States of Ameri...
Understanding the global spatiotemporal pattern of seasonal influenza is essential for influenza con...
Background: Seasonal influenza epidemic patterns have been highly influenced by weather and usually ...
<p><b>(A)</b> Maps show the proportion of laboratory-confirmed cases of influenza A compared to infl...
Despite the significant amount of research conducted on the epidemiology of seasonal influenza, the ...
Seasonal waves of influenza display a complex spatiotemporal pattern resulting from the interplay of...
Fine-grained influenza surveillance data are lacking in the US, hampering our ability to monitor dis...
Accurate forecasting of seasonal influenza epidemics is of great concern to healthcare providers in ...
The inference of key infectious disease epidemiological parameters is critical for characterizing di...
The impact of influenza virus on populations is often under-estimated, a thorough understanding of i...
Traditional disease surveillance is increasingly being complemented by data from non-traditional sou...
BACKGROUND: The epidemic sizes of influenza A/H3N2, A/H1N1, and B infections vary from year to year ...
Multiple sources of influenza surveillance data are becoming more available; however integration of ...
Multiple sources of influenza surveillance data are becoming more available; however integration of ...
Health authorities find thresholds useful to gauge the start and severity of influenza seasons. We e...
BackgroundInfluenza causes an estimated 3000 to 50,000 deaths per year in the United States of Ameri...
Understanding the global spatiotemporal pattern of seasonal influenza is essential for influenza con...
Background: Seasonal influenza epidemic patterns have been highly influenced by weather and usually ...
<p><b>(A)</b> Maps show the proportion of laboratory-confirmed cases of influenza A compared to infl...
Despite the significant amount of research conducted on the epidemiology of seasonal influenza, the ...
Seasonal waves of influenza display a complex spatiotemporal pattern resulting from the interplay of...
Fine-grained influenza surveillance data are lacking in the US, hampering our ability to monitor dis...
Accurate forecasting of seasonal influenza epidemics is of great concern to healthcare providers in ...
The inference of key infectious disease epidemiological parameters is critical for characterizing di...
The impact of influenza virus on populations is often under-estimated, a thorough understanding of i...
Traditional disease surveillance is increasingly being complemented by data from non-traditional sou...
BACKGROUND: The epidemic sizes of influenza A/H3N2, A/H1N1, and B infections vary from year to year ...
Multiple sources of influenza surveillance data are becoming more available; however integration of ...
Multiple sources of influenza surveillance data are becoming more available; however integration of ...
Health authorities find thresholds useful to gauge the start and severity of influenza seasons. We e...
BackgroundInfluenza causes an estimated 3000 to 50,000 deaths per year in the United States of Ameri...
Understanding the global spatiotemporal pattern of seasonal influenza is essential for influenza con...