Epidemics
- Modeling superspreaders in epidemics
The first paper is a perspective on superspreaders, published in Nature. The other articles refer to specific models.
- Dimensions of superspreading, by A.P. Galvani and R.M. May, Nature 438, 293-295 (2005).
- Effects of superspreaders in spread of epidemic, by R. Fujie and T. Odagaki,
Physica A 374, 843-852 (2007).
- Super-spreaders and the rate of transmission of the SARS virus, by M. Small, C.K. Tse, and D.M. Walker,
Physica D 215, 146-158 (2006).
- Controlling the spread of epidemics
- Simple model for tuberculosis in cattle and badgers, by D. R. Cox, C.A. Donnelly, F.J. Bourne, G. Gettinby, J.P. McInerney, W.I. Morrison, and R. Woodroffe,
Proc. Natl. Acad. Sci. 102, 17588-17593 (2005).
- Thee GLEaMviz computational tool, a publicly available software to explore realistic epidemic spreading scenarios at the global scale by Wouter Van den Broeck, Corrado Gioannini, Bruno Goncalves, Marco Quaggiotto, Vittoria Colizza, and Alessandro Vespignani.
BMC Infectious Diseases 11, 37 (2011)
- 1918 Influenza: the Mother of All Pandemics by J. K. Taubenberger & D. M. Morens.
Emerging Infectious Diseases 12, 15-22 (2006)
- Cost-effectiveness analysis of pandemic influenza preparedness: what's missing? by Tom L Drake, Zaid Chalabi & Richard Coker.
Bulletin of the World Health Organization 90, 940-941 (2012)