SEARCH

SEARCH BY CITATION

References

  • 1
    Smyth, G.B., Dagley, K. and Tainsh, J. (2011) Insights into the economic consequences of the 2007 equine influenza outbreak in Australia. Aust. Vet. J. 89, Suppl. 1, 151-158.
  • 2
    Singh, G. (1994) Characterization of A/eq-1 virus isolated during the equine influenza epidemic in India. Acta Virol. 38, 25-26.
  • 3
    Newton, J.R., Daly, J.M., Spencer, L. and Mumford, J.A. (2006) Description of the outbreak of equine influenza (H3N8) in the United Kingdom in 2003, during which recently vaccinated horses in Newmarket developed respiratory disease. Vet. Rec. 158, 185-192.
  • 4
    Newton, J.R., Lakhani, K.H., Wood, J.L. and Baker, D.J. (2000) Risk factors for equine influenza serum antibody titres in young Thoroughbred racehorses given an inactivated vaccine. Prev. Vet. Med. 46, 129-141.
  • 5
    Newton, J.R., Townsend, H.G., Wood, J.L., Sinclair, R., Hannant, D. and Mumford, J.A. (2000) Immunity to equine influenza: relationship of vaccine-induced antibody in young Thoroughbred racehorses to protection against field infection with influenza A/equine-2 viruses (H3N8). Equine Vet. J. 32, 65-74.
  • 6
    Morley, P.S., Townsend, H.G., Bogdan, J.R. and Haines, D.M. (2000) Risk factors for disease associated with influenza virus infections during three epidemics in horses. J. Am. Vet. Med. Ass. 216, 545-550.
  • 7
    Morley, P.S., Townsend, H.G., Bogdan, J.R. and Haines, D.M. (2000) Descriptive epidemiologic study of disease associated with influenza virus infections during three epidemics in horses. J. Am. Vet. Med. Ass. 216, 535-544.
  • 8
    Park, A.W., Daly, J.M., Lewis, N.S., Smith, D.J., Wood, J.L. and Grenfell, B.T. (2009) Quantifying the impact of immune escape on transmission dynamics of influenza. Science 326, 726-728.
  • 9
    Anderson, R.M. and May, R.M. (1991) Infectious Diseases of Humans. Dynamics and Control, Oxford University Press, Oxford.
  • 10
    Glass, K., Wood, J.L., Mumford, J.A., Jesset, D. and Grenfell, B.T. (2002) Modelling equine influenza 1: a stochastic model of within-yard epidemics. Epidemiol. Infect. 128, 491-502.
  • 11
    Satou, K. and Nishiura, H. (2006) Basic reproduction number for equine-2 influenza virus a (H3N8) epidemic in racehorse facilities in Japan, 1971. J. Equine Vet. Sci. 26, 310-316.
  • 12
    de la Rua-Domenech, R., Reid, S.W.J., Gonzalez-Zariquiey, A.E., Wood, J.L.N. and Gettinby, G. (2000) Modelling the spread of a viral infection in equine populations managed in Thoroughbred racehorse training yars. Prev. Vet. Med. 47, 61-77.
  • 13
    Park, A.W., Wood, J.L., Newton, J.R., Daly, J., Mumford, J.A. and Grenfell, B.T. (2003) Optimising vaccination strategies in equine influenza. Vaccine 21, 2862-2870.
  • 14
    Park, A.W., Wood, J.L., Daly, J.M., Newton, J.R., Glass, K., Henley, W., Mumford, J.A. and Grenfell, B.T. (2004) The effects of strain heterology on the epidemiology of equine influenza in a vaccinated population. Proc. Biol. Sci. 271, 1547-1555.
  • 15
    Waddell, G.H., Teigland, M.B. and Sigel, M.M. (1963) A new influenza virus associated with equine respiratory disease. J. Am. Vet. Med. Ass. 143, 587-590.
  • 16
    Kawaoka, Y., Bean, W.J. and Webster, R.G. (1989) Evolution of the hemagglutinin of equine H3 influenza viruses. Virology 169, 283-292.
  • 17
    Bryant, N.A., Rash, A.S., Russell, C.A., Ross, J., Cooke, A., Bowman, S., MacRae, S., Lewis, N.S., Paillot, R., Zanoni, R., Meier, H., Griffiths, L.A., Daly, J.M., Tiwari, A., Chambers, T.M., Newton, J.R. and Elton, D.M. (2009) Antigenic and genetic variations in European and North American equine influenza virus strains (H3N8) isolated from 2006 to 2007. Vet. Microbiol. 138, 41-52.
  • 18
    Koelle, K., Khatri, P., Kamradt, M. and Kepler, T.B. (2010) A two-tiered model for simulating the ecological and evolutionary dynamics of rapidly evolving viruses, with an application to influenza. J. R. Soc. Interface 7, 1257-1274.
  • 19
    Barquero, N., Daly, J.M. and Newton, J.R. (2007) Risk factors for influenza infection in vaccinated racehorses: lessons from an outbreak in Newmarket, UK in 2003. Vaccine 25, 7520-7529.
  • 20
    Baguelin, M., Newton, J.R., Demiris, N., Daly, J., Mumford, J.A. and Wood, J.L. (2010) Control of equine influenza: scenario testing using a realistic metapopulation model of spread. J. R. Soc. Interface 7, 67-79.
  • 21
    Morton, J.M., Dups, J.N., Anthony, N.D. and Dwyer, J.F. (2011) Epidemic curve and hazard function for occurrence of clinical equine influenza in a closed population of horses at a 3-day event in southern Queensland, Australia, 2007. Aust. Vet. J. 89, Suppl. 1, 86-88.
  • 22
    Cowled, B., Ward, M.P., Hamilton, S. and Garner, G. (2009) The equine influenza epidemic in Australia: spatial and temporal descriptive analyses of a large propagating epidemic. Prev. Vet. Med. 92, 60-70.
  • 23
    Garner, M.G., Cowled, B., East, I.J., Moloney, B.J. and Kung, N.Y. (2011) Evaluating the effectiveness of early vaccination in the control and eradication of equine influenza – a modelling approach. Prev. Vet. Med. 99, 15-27.
  • 24
    Fournie, G., Rushton, J. and Pfeiffer, D. (2012) Disease modelling and the human factor. Vet. Rec. 170, 157-158.
  • 25
    Firestone, S.M., Ward, M.P., Christley, R.M. and Dhand, N.K. (2011) The importance of location in contact networks: describing early epidemic spread using spatial social network analysis. Prev. Vet. Med. 102, 185-195.
  • 26
    Pawelek, K.A., Huynh, G.T., Quinlivan, M., Cullinane, A., Rong, L. and Perelson, A.S. (2012) Modeling within-host dynamics of influenza virus infection including immune responses. Plos Comput. Biol. 8, e1002588.
  • 27
    Saenz, R.A., Quinlivan, M., Elton, D., Macrae, S., Blunden, A.S., Mumford, J.A., Daly, J.M., Digard, P., Cullinane, A., Grenfell, B.T., McCauley, J.W., Wood, J.L. and Gog, J.R. (2010) Dynamics of influenza virus infection and pathology. J. Virol. 84, 3974-3983.
  • 28
    Hughes, J., Allen, R.C., Baguelin, M., Hampson, K., Baillie, G.J., Elton, D., Newton, J.R., Kellam, P., Wood, J.L., Holmes, E.C. and Murcia, P.R. (2012) Transmission of equine influenza virus during an outbreak is characterized by frequent mixed infections and loose transmission bottlenecks. PLoS Pathog. 8, e1003081.
  • 29
    Restif, O., Hayman, D.T., Pulliam, J.R., Plowright, R.K., George, D.B., Luis, A.D., Cunningham, A.A., Bowen, R.A., Fooks, A.R., O'Shea, T.J., Wood, J.L. and Webb, C.T. (2012) Model-guided fieldwork: practical guidelines for multidisciplinary research on wildlife ecological and epidemiological dynamics. Ecol. Lett. 15, 1083-1094.