Vaccination Is Not Immunization Vaccine Risks Exposed

Vaccines Have Serious Side Effects

Get Instant Access

Anderson, R.M., and Grenfell, B.T. (1986) Quantitative investigations of different vaccination policies for the control of congenital rubella syndrome (CRS) in the United Kingdom. J. Hyg. (Lond). 96, 305-333.

Anderson, R.M., Grenfell, B.T., and May, R.M. (1984) Oscillatory fluctuations in the incidence of infectious disease and the impact of vaccination: Time series analysis. J. Hyg. (Lond.). 93, 587-608.

Anderson, R.M., and May, R.M. (1985) Age-related changes in the rate of disease transmission: Implications for the design of vaccination programmes. J. Hyg. (Lond). 94, 365-436.

Anderson, R.M., and May, R.M. (1991) Infectious Diseases of Humans. Dynamics and Control. Oxford University Press, Oxford.

Anderson, R.M., and Medley, G.F. (1985) Parasitology. Community control of helminth infections of man by mass and selective chemotherapy. Parasitology 90, 629-660.

Anderson, R.M., Medley, G.F., May, R.M., and Johnson, A.M. (1986) A preliminary study of the transmission dynamics of the human immunodeficiency virus (HIV), the causative agent of AIDS. IMA J. Math. Appl. Med. Biol. 3, 229-263.

Bailey, N.T.J. (1975) The Mathematical Theory of Infectious Diseases (2nd ed.) Griffin, London.

Basanez, M.G., and Ricardez-Esquinca, J. (2001) Models for the population biology and control of human onchocerciasis. Trends Parasitol. 17, 430-438.

Begon, M., Harper, J.L., and Townsend, C.R. (1996) Ecology: Individuals, Populations and Communities. 3rd ed. Blackwell Science, Malden.

Bocharov, G., Ludewig, B., Bertoletti, A., Klenerman, P., Junt, T., Krebs, P., et al. (2004) Underwhelming the immune response: Effect of slow virus growth on CD8+-T-lymphocyte responses. J. Virol. 78, 2247-2254.

Brisson, M., and Edmunds, W.J. (2003) Varicella vaccination in England and Wales: Cost-utility analysis. Arch. Dis. Child. 88, 862-869.

Brisson, M., Edmunds, W.J., and Gay, N.J. (2003) Varicella vaccination: Impact of vaccine efficacy on the epidemiology of VZV. J. Med. Virol. 70 Suppl 1, S31-S37.

Brown, S.P., and Grenfell, B.T. (2001) An unlikely partnership: Parasites, concomitant immunity and host defence. Proc. Biol. Sci. 268, 2543-2549.

Chan, M.S., Guyatt, H.L., Bundy, D.A., Booth, M., Fulford, A.J., and Medley, G.F. (1995) The development of an age structured model for schistosomiasis transmission dynamics and control and its validation for Schistosoma mansoni. Epidemiol. Infect. 115, 325-344.

Davies, D.H., Halablab, M.A., Clarke, J., Cox, F.E.G., and Young, T.W.K. (1999) Infection and Immunity. Taylor and Francis, London.

Edmunds, W.J., Medley, G.F., Nokes, D.J., O'Callaghan, C.J., Whittle, H.C., and Hall, A.J. (1996) Epidemiological patterns of hepatitis B virus (HBV) in highly endemic areas. Epidemiol Infect. 117, 313-325.

Edmunds, W.J., van de Heijden, O.G., Eerola, M., and Gay, N.J. (2000) Modelling rubella in Europe. Epidemiol. Infect. 125, 617-634.

Farrington, C.P. (1990) Modelling forces of infection for measles, mumps and rubella. Stat. Med. 9, 953-967.

Koella, J.C., and Antia, R. (2003) Epidemiological models for the spread of anti-malarial resistance. Malar. J. 2,3.

Maizels, R.M., and Lawrence, R.A. (1991) Immunological tolerance: The key feature in human filariasis? Parasitol Today 7, 271-276.

Manfredi, P., Cleur, E.M., Williams, J.R., Salmaso, S., and Atti, M.C. (2005) The pre-vaccination regional epidemi-ological landscape of measles in Italy: Contact patterns, effort needed for eradication, and comparison with other regions of Europe. Popul. Health Metr. 3, 1.

Manfredi, P., Williams, J.R., Ciofi Degli Atti, M.L., and Salmaso, S. (2005) Measles elimination in Italy: Projected impact of the National Elimination Plan. Epidemiol Infect. 133, 87-97.

Medley, G.F., and Bundy, D.A. (1996) Dynamic modeling of epidemiologic patterns of schistosomiasis morbidity. Am. J. Trop. Med. Hyg. 55(5 Suppl), 149-158.

Medley, G.F., Lindop, N.A., Edmunds, W.J., and Nokes, D.J. (2001) Hepatitis-B virus endemicity: Heterogeneity, catastrophic dynamics and control. Nat. Med. 7, 619-624.

Mims, C.A., Nash, A., and Stephen, J. (2001) Mims' Pathogenesis of Infectious Disease. 5th ed. Academic Press, London.

Nokes, D.J., and Anderson, R.M. (1988) The use of mathematical models in the epidemiological study of infectious diseases and in the design of mass immunization programmes. Epidemiol Infect. 101, 1-20.

Nowak, M.A., and Bangham, C.R. (1996) Population dynamics of immune responses to persistent viruses. Science 272, 74-79.

Nowak, M.A., Bonhoeffer, S., Shaw, G.M., and May, R.M. (1997) Anti-viral drug treatment: Dynamics of resistance in free virus and infected cell populations. J. Theor. Biol. 184, 203-217.

Seaholm, S.K., Ackerman, E., and Wu, S.C. (1988) Latin hypercube sampling and the sensitivity analysis of a Monte Carlo epidemic model. Int. J. Biomed. Comput. 23, 97-112.

Thomas, J.C., and Weber, D.J. (eds.). (2001) Epidemiologic Methods for the Study of Infectious Diseases. Oxford University Press: New York.

Turner, K.M., and Garnett, G.P. (2002) The impact of the phase of an epidemic of sexually transmitted infection on the evolution of the organism. Sex. Transm. Infect. 78 Suppl 1, i20-i30.

Williams, J.R. and Anderson, R.M. (1994) Mathematical models of the transmission dynamics of human immunodeficiency virus in England and Wales: Mixing between different risk groups. J. R. Stat. Soc. [Ser A]. 157, 69-87

Williams, J.R., and Manfredi, P. (2004) Ageing populations and childhood infections: The potential impact on epidemic patterns and morbidity. Int. J. Epidemiol. 33, 566-572.

Williams, J.R., Nokes, D.J., Medley, G.F., and Anderson, R.M. (1996) The transmission dynamics of hepatitis B in the UK: A mathematical model for evaluating costs and effectiveness of immunization programmes. Epidemiol. Infect. 116, 71-89.

Wilson, J.N., Nokes, D.J., and Carman, W.F. (2000) Predictions of the emergence of vaccine-resistant hepatitis B in The Gambia using a mathematical model. Epidemiol. Infect. 124, 295-307.

Was this article helpful?

0 0
How To Bolster Your Immune System

How To Bolster Your Immune System

All Natural Immune Boosters Proven To Fight Infection, Disease And More. Discover A Natural, Safe Effective Way To Boost Your Immune System Using Ingredients From Your Kitchen Cupboard. The only common sense, no holds barred guide to hit the market today no gimmicks, no pills, just old fashioned common sense remedies to cure colds, influenza, viral infections and more.

Get My Free Audio Book

Post a comment