Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-30T16:12:54.972Z Has data issue: false hasContentIssue false

Population dynamics in echinococcosis and cysticercosis: evaluation of the biological parameters of Taenia hydatigena and T. ovis and comparison with those of Echinococcus granulosus

Published online by Cambridge University Press:  06 April 2009

M. A. Gemmell
Affiliation:
Hydatid Research Unit, Research Division, Ministry of Agriculture and Fisheries, University of Otago Medical School, Dunedin, NZ
J. R. Lawson
Affiliation:
Hydatid Research Unit, Research Division, Ministry of Agriculture and Fisheries, University of Otago Medical School, Dunedin, NZ
M. G. Roberts
Affiliation:
Wallaceville Animal Research Centre, Research Division, Ministry of Agriculture and Fisheries, Private Bag, Upper Hutt, NZ

Summary

An evaluation has been made of the biological and epidemiological parameters that determine the basic reproductive rates of Taenia hydatigena and T. ovis. These host-parasite systems are characterized by (i) no overcrowding in either host; (ii) no parasite-induced mortality of either host; (iii) no density-dependent constraint in the definitive host, but a strong, rapidly mobilized, short-acting immunity in the intermediate host and (iv) egg production which, in the natural environment, is high enough to prevent superinfection. It is considered that tapeworms with these characteristics are more stable to fluctuations in environmental conditions and to control measures such as dog dosing, than species which have a low egg production and infectivity such as Echinococcus granulosus. Reciprocal immunity exists between T. hydatigena and T. ovis in sheep. Exposure to T. hydatigena suppresses infection by T. ovis, but not by E. granulosus. This has important epidemiological consequences where these parasites co-exist.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1987

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anderson, R. M. & May, R. M. (1982). Population Biology of Infectious Diseases. Berlin, Heidelberg and New York: Springer-Verlag.Google Scholar
Anderson, R. M., Whitfield, P. J. & Dobson, A. P. (1978). Experimental studies of infection dynamics: infection of the definitive host by the cercariae of Transversotrema patialense. Parasitology 77, 189200.CrossRefGoogle ScholarPubMed
Arundel, J. H. (1972). A review of cysticercoses of sheep and cattle in Australia. Australian Veterinary Journal 48, 140–55.Google Scholar
Buslaeva, T. P. (1976). [Some data on the biology of Taenia hydatigena.] Sbornik Nauchnykh Trudov Moskovskoi Veterinarnoi Akademii 86, 99101.Google Scholar
Calamel, M., Soule, C. & Chevrier, L. (1975). La cysticercose musculaire ovine. Aspect experimental. Recueil de Médecine Vétérinaire de l'Ecole d'Alforte 151, 771–81.Google Scholar
Coman, B. J. & Rickard, M. D. (1975). The location of Taenia pisiformis, Taenia ovis and Taenia hydatigena in the gut of the dog and its effect on net environmental contamination with ova. Zeitschrift für Parasitenkunde 47, 237–48.Google Scholar
Featherston, D. W. (1969). Taenia hydatigena. 1. Growth and development of the adult stage in the dog. Experimental Parasitology 25, 327–38.CrossRefGoogle ScholarPubMed
Gemmell, M. A. (1959). Hydatid disease in Australia. VI. Observations on the carnivora of New South Wales as definitive hosts of Echinococcus granulosus (Batsch, 1786), (Rudolphi, 1805) and their role in the spread of hydatidosis in domestic animals. Australian Veterinary Journal 35, 450–5.CrossRefGoogle Scholar
Gemmell, M. A. (1964). Immunological responses of the mammalian host against tapeworm infections. I. Species specificity of the hexacanth embryo in protecting sheep against Taenia hydatigena. Immunology 7, 489–99.Google Scholar
Gemmell, M. A. (1965). Immunological responses of the mammalian host against tapeworm infections. II. Species specificity of hexacanth embryos in protecting sheep against Taenia ovis. Immunology 8, 281–90.Google Scholar
Gemmell, M. A. (1966). Immunological responses of the mammalian host against tapeworm infections. IV. Species specificity of the hexacanth embryo in protecting sheep against Echinococcus granulosus. Immunology 11, 325–35.Google Scholar
Gemmell, M. A. (1969). Hydatidosis and cysticercosis. 1. Acquired resistance to the larval phase. Australian Veterinary Journal 45, 521–4.CrossRefGoogle Scholar
Gemmell, M. A. (1970). Hydatidosis and cysticercosis. 3. Induced resistance to the larval phase. Australian Veterinary Journal 46, 366–9.Google Scholar
Gemmell, M. A. (1972 a). Hydatidosis and cysticercosis. 4. Acquired resistance to Taenia hydatigena under conditions of a strong infection pressure. Australian Veterinary Journal 48, 26–8.CrossRefGoogle ScholarPubMed
Gemmell, M. A. (1972 b). Hydatidosis and cysticercosis. 5. Some problems of inducing resistance to Taenia hydatigena under conditions of a strong infection pressure. Australian Veterinary Journal 48, 2931.Google Scholar
Gemmell, M. A. (1976 a). Factors regulating tapeworm populations: estimations of the build-up and dispersion patterns of eggs after the introduction of dogs infected with Taenia hydatigena. Research in Veterinary Science 21, 220–2.Google Scholar
Gemmell, M. A. (1976 b). Factors regulating tapeworm populations: the changing opportunities of lambs for ingesting eggs of Taenia hydatigena. Research in Veterinary Science 21, 223–6.Google Scholar
Gemmell, M. A. (1977). Taeniidae: modification to the life span of the egg and the regulation of tapeworm populations. Experimental Parasitology 41, 314–28.Google Scholar
Gemmell, M. A. (1978). The Styx Field Trial: Effect of treatment of the definitive host for tapeworms on larval forms in the intermediate host. Bulletin of the World Health Organization 56, 433–43.Google ScholarPubMed
Gemmell, M. A., Blundell, S. K. & Macnamara, F. N. (1968 a). Immunological responses of the mammalian host against tapeworm infections. V. The development of artificially induced immunity to Taenia hydatigena in young lambs. Proceedings of the University of Otago Medical School 46, 45.Google Scholar
Gemmell, M. A., Blundell, S. K. & Macnamara, F. N. (1968 b). Immunological responses of the mammalian host against tapeworm infections. VII. The effect of the time interval between artificial immunization and the ingestion of eggs on the development of immunity by sheep to Taenia hydatigena. Experimental Parasitology 23, 83–7.Google Scholar
Gemmell, M. A., Blundell, S. K. & Macnamara, F. N. (1969). Immunological responses of the mammalian host against tapeworm infections. IX. The transfer via colostrum of immunity to Taenia hydatigena. Experimental Parasitology 26, 52–7.Google Scholar
Gemmell, M. A. & Johnstone, P. D. (1976). Factors regulating tapeworm populations: dispersion patterns of eggs of Taenia hydatigena on pasture. Annals of Tropical Medicine and Parasitology 70, 431–4.CrossRefGoogle Scholar
Gemmell, M. A. & Johnstone, P. D. (1977). Experimental epidemiology of hydatidosis and cysticercosis. Advances in Parasitology 15, 311–69.CrossRefGoogle ScholarPubMed
Gemmell, M. A. & Johnstone, P. D. (1981). Factors regulating tapeworm populations: estimation of the duration of acquired immunity by sheep to Taenia hydatigena. Research in Veterinary Science 30, 53–6.Google Scholar
Gemmell, M. A., Johnstone, P. D. & Boswell, C. C. (1978). Factors regulating tapeworm populations: dispersion patterns of Taenia hydatigena eggs on pasture. Research in Veterinary Science 27, 334–8.CrossRefGoogle Scholar
Gemmell, M. A. & Lawson, J. R. (1982). Ovine cysticercosis: An epidemiological model for the cysticercoses. I. The free-living egg phase. In Cysticercosis: Present State of Knowledge and Perspectives, (ed. Flisser, A., Willms, K., Laclette, J. P., Larralde, C., Ridaura, C. and Beltran, F.), pp. 8798. New York: Academic Press.Google Scholar
Gemmell, M. A. & Lawson, J. R. (1985 a). The survival and infectivity to dogs of Taenia hydatigena and T. ovis in sheep. Veterinary Parasitology 17, 215–18.Google Scholar
Gemmell, M. A. & Lawson, J. R. (1985 b). Epidemiology and control of echinococcosis/hydatidosis. In The Biology of Echinococcus and Hydatid Disease, (ed. Thompson, R. C. A.). Boston, London and Sydney: George Allen and Unwin.Google Scholar
Gemmell, M. A., Lawson, J. R. & Roberts, M. G. (1986 a). Population dynamics in echinococcosis and cysticercosis: biological parameters of Echinococcus granulosus in dogs and sheep. Parasitology 92, 599620.CrossRefGoogle ScholarPubMed
Gemmell, M. A., Lawson, J. R., Roberts, M. G., Kerin, B. R. & Mason, C. J. (1986 b). Population dynamics in echinococcosis and cysticercosis: comparison of the response of Echinococcus granulosus, Taenia hydatigena and Taenia ovis to control. Parasitology 93, 357–69.Google Scholar
Gemmell, M. A. & Macnamara, F. N. (1972). Immune responses to tissue parasites. 2. Cestodes. In Immunity to Animal Parasites, (ed. Soulsby, E. J. L.), pp. 235–72. London and New York: Academic Press.Google Scholar
Gemmell, M. A. & Macnamara, F. N. (1976). Factors regulating tapeworm populations: estimations of the infection pressure and index of clustering from Taenia hydatigena before and after removal of infected dogs. Research in Veterinary Science 21, 215–19.CrossRefGoogle ScholarPubMed
Gemmell, M. A. & Soulsby, E. J. L. (1968). The development of acquired immunity to tapeworms and progress in research towards active immunization with special reference to Echinococcus spp. Bulletin of the World Health Organisation 39, 4555.Google Scholar
Gregory, G. G. (1976). Fecundity and proglottid release of Taenia ovis and T. hydatigena. Australian Veterinary Journal 52, 277–9.CrossRefGoogle ScholarPubMed
Guralp, N. & Dogru, C. (1967). [Incidence of Cysticercus ovis in sheep and goats in Turkey.] Veteriner Fakultesi Dergisi, Ankara Universitesi 14, 234–8.Google Scholar
Heath, D. D. & Lawrence, S. B. (1980). Prepatent period of Taenia ovis in dogs. New Zealand Veterinary Journal 88, 193–4.CrossRefGoogle Scholar
Heath, D. D., Lawrence, S. B. & Yong, W. K. (1979). Cross-protection between the cysts of Echinococcus granulosus, Taenia hydatigena and T. ovis in lambs. Research in Veterinary Science 27, 210–12.Google Scholar
Heath, D. D., Parmeter, S. N. & Osborn, P. J. (1980). An attempt to immunise dogs against Taenia hydatigena. Research in Veterinary Science 29, 388–9.Google Scholar
Heath, D. D., Yong, W. K., Osborn, P. J., Parmeter, S. N., Lawrence, S. B. & Twaalfhoven, H. (1979). The duration of passive protection against Taenia ovis larvae in lambs. Parasitology 79, 177–82.Google Scholar
Lawson, J. R. & Gemmell, M. A. (1983). Hydatidosis and cysticercosis: the dynamics of transmission. Advances in Parasitology 22, 261308.Google Scholar
Lawson, J. R. & Gemmell, M. A. (1985). The role of blowflies in the transmission of taeniid tapeworm eggs. Parasitology 91, 125–43.Google Scholar
Parmeter, S. N., Heath, D. D. & Twaalfhoven, H. (1981). Effect of population density on growth and development of Taenia hydatigena in dogs. Research in Veterinary Science 30, 257–9.CrossRefGoogle ScholarPubMed
Rickard, M. D. & Arundel, J. H. (1974). Passive protection of lambs against infection with Taenia ovis via colostrum. Australian Veterinary Journal 50, 22–4.Google Scholar
Rickard, M. D. & Williams, J. F. (1982). Hydatidosis/cysticercosis: immune mechanisms and immunization against infection. Advances in Parasitology 21, 229–96.Google Scholar
Rickard, M. D., White, J. B. & Boddington, E. B. (1976). Vaccination of lambs against infection with Taenia ovis. Australian Veterinary Journal 52, 209–14.CrossRefGoogle ScholarPubMed
Rao, B. V. & Anantaraman, M. (1966). Observations on the biology and development of some taeniid cestodes. Indian Journal of Helminthology 18, 161–71.Google Scholar
Roberts, M. G., Lawson, J. R. & Gemmell, M. A. (1986). Population dynamics in echinococcosis and cysticercosis: mathematical model of the life-cycle of Echinococcus granulosus. Parasitology 92, 621–41.CrossRefGoogle ScholarPubMed
Roberts, M. G., Lawson, J. R. & Gemmell, M. A. (1987). Population dynamics in echinococcosis and cysticercosis: mathematical model of the life-cycles of Taenia hydatigena and T. ovis. Parasitology 94, 181–97.CrossRefGoogle ScholarPubMed
Sutton, R. J. (1979). The passive transfer of immunity to T. ovis in lambs via colostrum. Research in Veterinary Science 27, 197–9.Google Scholar
Sweatman, G. K. & Henshall, T. C. (1962). The comparative biology and morphology of Taenia ovis and Taenia krabbei, with observations on the development of T. ovis in domestic sheep. Canadian Journal of Zoology 40, 1287–311.CrossRefGoogle Scholar
Sweatman, G. K. & Plummer, P. J. G. (1957). The biology and pathology of the tapeworm Taenia hydatigena in domestic and wild hosts. Canadian Journal of Zoology 35, 93109.Google Scholar
Varela-Diaz, V. M., Gemmell, M. A. & Williams, J. F. (1972). Taenia hydatigena and Taenia ovis antigen sharing. XII. Immunological responses of the mammalian host against tapeworm infections. Experimental Parasitology 32, 96101.CrossRefGoogle ScholarPubMed