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The blood picture resulting from Nuttallia (= Babesia) rodhaini and Nuttallia (= Babesia) microti infections in rats and mice

Published online by Cambridge University Press:  06 April 2009

Frank Nowell
Affiliation:
Department of Zoology, University of London King's College, Strand, London, W.C. 2

Extract

The parasitaemia and associated blood picture following infections of Nuttallia rodhaini in rats and mice, and N. microti in rats are described. After inoculation of the blood stages of these parasites, it is evident that only further blood stages occur in the host animal. Infections with both piroplasms follow a similar course, there being a prepatent period followed by a patent infection which reaches a peak and then disappears. The prepatent period is an artifact due to the rarity of the parasites in the peripheral blood. The patent infection of N. rodhaini in rats and mice rapidly reaches a peak of up to 90% R.B.C. infected. That of N. microti develops more slowly and rarely reaches 20%. Rats show age resistance to both piroplasmoses but none is shown by mice aged up to 1 year against N. rodhaini infection. Increase of the parasite inoculum dose decreases the prepatent period and also the time from infection to the peak. In rats there is a corresponding increase of the peak but in mice this remains constant. N. microti infections in rats are enhanced by splenectomy, the peak being higher but the time from infection to the peak not altering. The parasitaemia produced by both piroplasms results in a temporary anaemia and reticulocytosis. The anaemia is not prolonged which does not suggest autoimmune reactions. Both piroplasms preferentially invade reticulocytes as compared with mature erythrocytes although this is apparently reversed at the onset of reticulocytosis.

An explanation of the mechanism of the parasitaemia of the piroplasms in rats and mice is suggested.

This paper is a report of work carried out in part for a thesis submitted for the degree of Ph.D. in the University of London. The work was aided by an S.R.C. research studentship. I would like to thank Dr F. E. G. Cox for his supervision and also for performing the splenectomies.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1969

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References

REFERENCES

Aeschlimann, A. & Suter, H. (1965). À propos de Babesia rodhaini. Acta trop. 22, 302–20.Google Scholar
Archer, R. K. (1965). Haematological Techniques for Use on Animals. Oxford: Blackwell Scientific Publications.Google Scholar
Baker, J. R., Chitty, D. & Phipps, E. (1963). Blood parasites of wild voles Microtus agrestis in England. Parasitology 53, 297301.CrossRefGoogle Scholar
Beveridge, E. (1953). Babesia rodhaini, a useful organism for the testing of drugs designed for the treatment of piroplasmosis. Ann. trop. Med. Parasit. 47, 134–8.Google Scholar
Beveridge, E. (1956). The activity of phenanthridine compounds against Babesia rodhaini in mice. Ann. trop. Med. Parasit. 50, 8591.CrossRefGoogle ScholarPubMed
Black, R. H. (1952). The absorption of inoculated blood containing Plasmodium berghei from the peritoneal cavity of the mouse. Ann. trop. Med. Parasit. 46, 144–9.CrossRefGoogle ScholarPubMed
Box, E. D. & Gingrich, W. D. (1958). Acquired immunity to Plasmodium berghei in the white mouse. J. infect. Dis. 103, 291300.CrossRefGoogle ScholarPubMed
Canache-Mata, E. A. (1959). Observaciones sobre infestacion experimental con Babesia rodhaini in ratones. Revta vet. venez. 7, 71113.Google Scholar
Cheissin, E. M. (1965). Taxonomies of piroplasmae and some peculiarities of their development in the vertebrate and invertebrate hosts. (In Russian.) Acta protozool. 3, 103–9.Google Scholar
Clark, C. H. & Woodley, C. H. (1959). Absorption of red blood cells after parenteral injection at various sites. Am. J. vet. Res. 20, 1062–6.Google Scholar
Colas-Belcour, J. & Vervent, G. (1953). Quelques observations sur des souris ayant survécu à lour infection par Babesia rodhaini. Bull. Soc. Path. exot. 46, 34–9.Google Scholar
Coles, A. C. (1914). Blood parasites found in mammals, birds, and fishes in England. Parasitology 7, 1761.Google Scholar
Cortice, F. C., Harding, J. & Steinbeck, A. W. (1953). The removal of free blood cells from the peritoneal cavity of animals. Aust. J. exp. Biol. med. Sci. 31, 215–26.CrossRefGoogle Scholar
Cox, F. E. G. & Young, A. S. (1969). Acquired immunity to Babesia microti and Babesia rodhaini in mice. Parasitology 59, 257–68.Google Scholar
Daly, G. D. & Hall, W. T. K. (1955). A note on the susceptibility of British and some Zebu type cattle to tick fever (babesiosis). Aust. vet. J. 31, 152.Google Scholar
Dennig, H. K. (1962). Experimentelle Übertragung von Babesia bovis, B. equi und B. trautmanni auf säugende Mäuse. Z. Tropenmed. Parasit. 13, 472–9.Google Scholar
França, C. (1912). Sur la classification des piroplasmes et description de deux formes de ces parasites. Arch. Inst. bact. Cam. Pest. 3, 1118.Google Scholar
Garnham, P. C. C. (1966). Malaria Parasites and other Haemosporidia. Oxford: Blackwell Scientific Publications.Google Scholar
Goble, F. C. (1966). Pathogenesis of blood protozoa. In Biology of Parasites (ed. Soulsby, E. J. L.), pp. 237–54. New York and London: Academic Press.Google Scholar
Goodwin, L. G. & Richards, W. H. G. (1960). Pharmacologically active peptides in the blood and urine of animals infected with Babesia rodhaini and other pathogenic organisms. Br. J. Pharmac. Chemother. 15, 152–9.CrossRefGoogle ScholarPubMed
Humphrey, J. H. & White, R. G. (1965). Immunology for Students of Medicine, 2nd. ed.Oxford: Blackwell Scientific Publications.Google Scholar
Jacobs, B. (1953). Some blood parasitic protozoa of small wild mammals of England. Trans. R. Soc. trop. Med. Hyg. 47, 1011.Google Scholar
Kiriner, S. H., Barbehenn, K. R. & Travis, B. V. (1958). A summer survey of the parasites of two Microtus pennsylvanicus p. Ord. populations. J. Parasit. 44, 103–5.CrossRefGoogle Scholar
Lucas, J. M. S. (1960). The chemotherapy of experimental babesiasis in mice and splenectomised calves. Res. vet. Sci. 1, 218–25.CrossRefGoogle Scholar
Maegraith, B. G., Kershaw, W. E. & Dagnall, D. (1961). Techniques in Tropical Pathology. Edinburgh and London: Oliver and Boyd.Google Scholar
Michiels, G. (1963). Observations sur la gametogenèse du Plasmodium berghei. Annls Soc. beige Méd. trop. 43, 6782.Google Scholar
Nowell, F. (1966) Division forms of two piroplasms in rodents. Trans. R. Soc. trop. Med. Hyg. 60, 12.CrossRefGoogle Scholar
Paget, G. E., Alcock, S. J. & Ryley, J. F. (1962). The pathology of Babesia rodhaini infections in mice. J. Path. Bact. 84, 218–20.CrossRefGoogle ScholarPubMed
Rodhain, J. (1950). Sur la pluralité des éspèces de Babesia des rongeurs. À propos de la specificité de Babesia rodhaini (Van den Berghe et al.) Annls Inst. Pasteur, Paris 79, 777–85.Google Scholar
Rodhain, J. (1951). Essais de chimotherapie chez les souris infectées de Babesia rodhaini. Rev. beige Path. 21, 129–36.Google Scholar
Rodhain, J & Demuylder, C. (1951). L'hemoglobinurie des rongeurs infectés de Babesia rodhaini. Annls Soc. beige Méd. trop. 31, 551–63.Google Scholar
Schroeder, W. F., Cox, H. W. & Ristic, M. (1966). Anaemia, parasitaemia, erythrophagocytosis and haemagglutinins in Babesia rodhaini infections. Ann. trop. Med. Parasit. 60, 31–9.CrossRefGoogle Scholar
Shortt, H. E. (1961). Various strains of piroplasms of British and Indian mammals. Trans. R. soc. trop. Med. Hyg. 55, 13.Google Scholar
Shortt, H. E. & Blackie, E. J. (1965). An account of the genus Babesia as found in certain small mammals in Britain. J. trop. Med. Hyg. 68, 3742.Google Scholar
Singer, I. (1954). The course of infection with Plasmodium berghei in inbred CF 1 mice. J. infect. Dis. 94, 237–40.CrossRefGoogle ScholarPubMed
Todorovic, R., Ferris, D. & Ristic, M. (1967). Roles of the spleen in acute plasmodial and babesial infections in rats. Expl Parasit. 21, 354–72.Google Scholar
Van den Berghe, L., Vincke, I. H., Chardome, M. & Van den Bulcke, M. (1950). Babesia rodhaini n.sp. d'un rongeur du Congo Belge transmissible à la souris blanche. Annls Soc. beige Méd. trop. 30, 8386.Google Scholar
Zuckerman, A. & Yoeli, M. (1954). Age and sex influencing Plasmodium berghei infections in intact and splenectomised rats. J. infect. Dis. 94, 225–36.Google Scholar