Simple Models of Influenza Progression Within a Heterogeneous Population

References

• Blendon R. J., Benson J. M., Weldon K. J., Herrmann M. J. Pandemic influenza and the public: Survey findings. (2006) . Presented at Institute of Medicine October 26. http://www.hsph.harvard.edu/press/releases/press10262006.htmlGoogle Scholar
• Cahill E., Crandall R., Rude L., Sullivan A. Space-time influenza model with demographic, mobility, and vaccine parameters. Proc. 5th Annual Hawaii Internat. Conf. Math., Statist., and Related Fields (2005) . http://academic.reed.edu/epi/papers/USAfluFINAL.pdfGoogle Scholar
• Christley R. M., et al. Infection in social networks: Using network analysis to identify high-risk individuals. Amer. J. Epidemiology (2005) 162(10):1024–1031 http://aje.oxfordjournals.org/cgi/content/abstract/162/10/1024Crossref, Google Scholar
• Committee on Modeling Community Containment for Pandemic Influenza, Board on Population Health and Public Health Practice Modeling community containment for pandemic influenza, a letter report. (2006) . Institute of Medicine of the National Academies, The National Academy Press, Washington, D.C. http://www.nap.eduGoogle Scholar
• Eubank S. Network based models of infectious disease spread. Japan J. Infect. Dis. (2005) 58:S9–S13 http://www.nih.go.jp/JJID/58/S9.pdfGoogle Scholar
• Eubank S., Guclu H., Kumar V. S. Anil, Marathe M. V., Srinivasan A., Toraczkai Z., Wang N. Modelling disease outbreaks in realistic urban social networks. Nature (2004) 429(13):180–184Crossref, Google Scholar
• Ferguson N. M., et al. Strategies for containing an emerging influenza pandemic in Southeast Asia. Nature (2005) 437(7056):209–214 http://www.nature.com/nature/journal/vaop/ncurrent/full/nature04017.htmlCrossref, Google Scholar
• Fu Y.-C. Measuring personal networks with daily contacts: A single-item survey question and the contact diary. Soc. Networks (2005) 27:169–186Crossref, Google Scholar
• Fu Y.-C. Contact diaries: Building archives of actual and comprehensive personal networks. Field Methods (2007) 19(2):194–217Crossref, Google Scholar
• Germann T. C., Kadau K., Longini I. M., Macken C. A. Mitigation strategies for pandemic influenza in the United States. Proc. Natl. Acad. Sci. USA (2006) 103(15):5935–5940Crossref, Google Scholar
• Glass R. J., Glass L. M., Beyeler W. E., Min H. J. Targeted social distancing design for pandemic influenza. Emerging Infectious Diseases (serial on the Internet) (2006) 12(11):1–9 http://www.cdc.gov/ncidod/EID/vol12no11/06-0255.htmCrossref, Google Scholar
• Gordon B. Letter to The Honorable Michael O. Leavitt, Secretary of Health and Human Services (Dec. 8). (2005) . http://democrats.science.house.gov/Media/File/AdminLetters/hhs_pandemic_plan_review_8dec05.pdfGoogle Scholar
• Heesterbeek J. A. P. A brief history of R0 and a recipe for its calculation. Acta Biotheor. (2002) 50:189–204Crossref, Google Scholar
• Isham V., Davison A. C., Dodge Y., Wermuth N. Stochastic models for epidemics: Current issues and developments. Celebrating Statistics (2005) (Oxford University Press)27–54Research report 263, 2004. http://www.ucl.ac.uk/statsCrossref, Google Scholar
• Kaplan E. H., Craft D. L., Wein L. M. Emergency response to a smallpox attack: The case of mass vaccination. Proc. Natl. Acad. Sci. USA (2002) 99(August):10935–10940Crossref, Google Scholar
• Knox R. Grim scenario predicted for pandemic flu. (2005) . NPR Health News Briefs (Dec. 5). http://www.npr.orgtemplates/story/story.php?storyId=5039099Google Scholar
• Lipsitch M. Heterogeneity and sexually transmitted diseases. (2005) . Class notes, Epi 260, Harvard School of Public Health, Cambridge, MAGoogle Scholar
• Lipsitch M., et al. Transmission dynamics and control of severe acute respiratory syndrome. ScienceExpress (2003) . http://www.sciencexpress.org, 23 May Page 1/10.1126/Science.1086616Google Scholar
• Lo J. Y. C., Tsang T. H. F., Leung Y.-H., Yeung E. Y. H., Wu T., Lim W. W. L. Respiratory infections during SARS outbreak, Hong Kong, 2003. Emerging Infectious Diseases (2005) 11(111):1738–1741Crossref, Google Scholar
• Longini I. M., Nizam A., Xu S., Ungchusak K., Hanshaoworakul W., Cummings D. A. T., Halloran M. E. Containing pandemic influenza at the source. Science (2005) 309(12):1083–1087 http://www.sciencemag.org/cgi/reprint/1115717v1.pdfCrossref, Google Scholar
• Lowe J. K. Special issue: Homeland security: Operations research initiatives and applications. Interfaces (2006) 36(6):483–485Abstract, Google Scholar
• Meyers M. A., Newman M. E. J., Martin M., Schrag S. Applying network theory to epidemics: Control measures for mycoplasma pneumoniae outbreaks. Emerging Infectious Diseases (2003) 9(2):204–210Crossref, Google Scholar
• Mills C. E., Robbins J. M., Lipsitch M. Transmissibility of 1918 pandemic influenza. Nature (2004) 432(7019):904–906Crossref, Google Scholar
• Pourbohloul B., Lauren M., et al. Modeling control strategies of respiratory pathogens. Emerging Infectious Diseases (2005) 11(8Crossref, Google Scholar
• Riley S., et al. Transmission dynamics of the etiological agent of SARS in Hong Kong: Impact of public health interventions. ScienceExpress (2003) . http://www.sciencexpress.org, 23 May Page 1/10.1126/Science.1086478Google Scholar
• Wallinga J., Teunis P., Kretzschmar M. Using data on social contacts to estimate age-specific transmission parameters for respiratory-spread infectious agents. Amer. J. Epidemiology (2006) 164(10):936–944 http://aje.oxfordjournals.org/cgi/content/abstract/164/10/936Crossref, Google Scholar
• Watts D. J., Muhamad R., Medina D. C., Dodds P. S. Multiscale, resurgent epidemics in a hierarchical metapopulation model. Proc. Natl. Acad. USA (2005) 102(32):11157–11162Crossref, Google Scholar
• Wearing H. J., Rohani P., Keeling M. J. Appropriate models for the management of infectious diseases. PLoS Medicine (2005) 2(7):e174Crossref, Google Scholar
• Wein L. M., Craft D. L., Kaplan E. H. Emergency response to an anthrax attack. Proc. Natl. Acad. USA (2003) 100(7, April 1):4347–4351Google Scholar
• World Health Organization Writing Group Nonpharmaceutical interventions for pandemic influenza, national and community measures. Emerging Infectious Diseases (2006) 12(1):88–94 http://www.cdc.gov/ncidod/EID/vol12no01/05-1371.htmGoogle Scholar
• Wu J. T., Riley S., Fraser C., Leung G. M. Reducing the impact of the next influenza pandemic using household-based public health interventions. PLoS Medicine (2006) 3(9):e361 http://dx.doi.org/10.1371/journal.pmed.0030361Crossref, Google Scholar