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On the Prophylactic Action of Vitamin A in Helminthiasis

Published online by Cambridge University Press:  18 November 2009

Phyllis A. Clapham
Affiliation:
From the Institute of Agricultural Parasitology, London School of Hygiene and Tropical Medicine.

Extract

(1) Experiments have been conducted to investigate the part played by Vitamin A in the prophylaxis of helminthiasis. Heterakis gallinæ in the chicken and Parascaris equorum in albino rats were used.

(2) The evidence tends to show that in Heterakis infestation the vitamin content of the diet has no effect on the course of the infestation. In Ascariasis in rats, however, the vitamin affects significantly the hatching, survival and rate of development of the larvae within the host.

(3) The writer can put forward no reason for this difference except to suggest that it may lie in. the life history of the parasites. Considering her own results and those of previous workers as cited in the introductory part of this paper, it seems obvious that the vitamin is effective in cases where the parasite comes into close contact with the host tissues.

(4) Some notes on the viability of eggs are added.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 1933

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References

Ackert, J. E., 1926.—“The Effect of Repeated Bleeding on Resistance of Chickens to Parasitism.” J. Parasit., XII (1), 163. (Abstract.) (W. L. 11428.)Google Scholar
Ackert, J. E. 1927.—“Some Intestinal Worms of Chickens and their Control.” Proc. 3rd Wld's. Poultry Congress. Ottawa.Google Scholar
Ackert, J. E. 1930.—“Recent Developments in the Importance and Control of the Intestinal Roundworm, Ascaridia lineata (Schneider) of Chickens.” Proc. 4th Wld's. Poultry Congress. London. 494500.Google Scholar
Ackert, J. E., McIlvaine, M. F. & Zimmermann, N. B., 1927.—“Resistance to Parasitism affected by fat-soluble Vitamin A.” J. Parasit., XIII (3), 219. (W.L. 11428.)Google Scholar
Ackert, J. E. & Crawford, N. B., 1931.—“Resistance of Chickens to Parasitism affected by Vitamin A.” Amer. J. Hyg., XIII (1), 320336. (W.L. 600a.)Google Scholar
Ackert, J. E. & Nolf, L. O., 1931.—“Resistance of Chickens to Parasitism affected by Vitamin B.” Amer. J. Hyg., XIII (1), 337344. (W.L. 600a.)Google Scholar
Allen, E. A., 1932.—“The Influence of Diet on the Experimental Coccidiosis in Chickens kept under sanitary conditions.” Amer. J. Hyg., XV. (1), 163185. (W.L. 600a.)Google Scholar
Burton, A. H. G. & Balmain, A. R., 1930.—“Vitamin A and Streptococcal Antitoxic Immunity.” Lancet (1), 10631066. (W.L. 11995.)Google Scholar
Cram, E. B., 1930.—“Pathological Conditions ascribed to Nematodes in Poultry.” U.S.A. Dept. Agri. Circular No. 126.Google Scholar
Cramer, W. & Kingsbury, A. N., 1924.—“Local and General Defences against Infections and the Effect on them of Vitamin Deficiency.” Brit. J. Exp. Path., V., 300304. (W.L. 3566.)Google Scholar
Dorman, H. P., 1928.—“Studies on the Life Cycle of Heterakis papillosa (Bloch).” Trans. Amer. Micr. Soc., XLVII (4), 279313. (W.L. 21400a.)Google Scholar
Foster, A. O. & Cort, W. W., 1931.—“The Effect of Diet on Hookworm Infestation in Dogs.” Science, LXXIII, 681683. (W.L. 19938.)CrossRefGoogle Scholar
Fugimaki, Y., 1926 (a).—“Formation of Gastric Carcinoma in albino rats fed on a deficient diet.” Progress of the Science of Nutrition in Japan. League of Nations Publications, III. Health, III, 25.Google Scholar
Fugimaki, Y. 1926 (b).—“Formation of Urinary and Bile Duct Calculi in Animals fed on Experimental Rations.” Japan Med. Wld., VI., 29. (W.L. 10880.)Google Scholar
Green, H. N. & Mellanby, E., 1928.—“Vitamin A as an anti-infective Agent.” Brit. M. J. (2), 691696. October. (W.L. 3579.)Google Scholar
Green, H. N., Pindar, D., Davis, G. & Mellanby, E., 1931.—“Diet as a Prophylactic Agent against Puerperal Sepsis—with special reference to Vitamin A as an anti-infective Agent.” Brit. M. J., 595598. Oct. 3rd. (W.L. 3579.)Google Scholar
Gudjónsson, S. V., 1930.—“ ‘Diet 4’ for breeding rats for work on Vitamin A.” Bio-Chem. J., XXIV (6). (W.L. 2976.)Google Scholar
Halnan, E. T., 1930.—“The Scientific Principles of Poultry Feeding.” Ministry of Agriculture and Fisheries. Bulletin No. 7.Google Scholar
Herrick, C. A., 1925.—“Studies on the Resistance of the Chicken to the Nematode, Ascaridia perspicillum.Amer. J. Hyg., VI (1), 153154. (W.L. 600a).Google Scholar
Herrick, C. A. 1927.—“Host-Parasite Relations between the Dog and the Hookworm, Ancylostoma caninum.J. Parasit., XIII, 219. (W.L. 11428.)Google Scholar
Hiraishi, T., 1928.—“Experimentelle Infektion junger Schweine mit Ascariden mit Rüchsicht auf die besonderen Beziehungen zu A-avitaminose.” (Abstract in German—original paper in Japanese.) Arch. Schiffs-u. Tropenhyg., XXXII, 519521. (W.L. 1804.)Google Scholar
Hutchinson, J. K., 1931.—“Some Observations on Avitaminosis A in Fowls.” Austr. Vet. J., VII (3).Google Scholar
Mellanby, E., 1929. “Vitamin A as an anti-infective Agent. Its use in the Treatment of Puerperal Septicæmia.” Brit. M. J., 984986. (W.L. 3579.)Google Scholar
Nagoya, T., 1931 (a).—“Fate of Anchylostoma caninum larvæ orally or percutaneously transmitted to the proper host, dog fed on Vitamin deficient diet. (First Report.) Experiment on Puppies fed on Vitamin A deficient diet.” Japan. J. Exp. Med., IX (6), 573585.Google Scholar
Nagoya, T. 1931 (b).—“Fate of Anchylostoma caninum larvæ orally or percutaneously transmitted to the proper host, dog fed on Vitamin deficient diet. (Third Report.) Histological Investigation on Puppies fed on Vitamin A diet, those fed on Vitamin B deficient diet and those fed on normal diet.” Japan. J. Exp. Med., IX (6), 595603.Google Scholar
Ortlepp, R. J., 1922.—“On the Hatching and Migration in a Mammalian Host of Larvæ of Ascarids normally parasitic in cold-blooded Vertebrates.” J. Trop. Med., XXV. (W.L. 11587.)Google Scholar
Owen, H. B. & Hennessey, R. S. F., 1932.—“Keratomalacia in Liver Disease.” Trans. Soc. Trop. Med. Hyg. Lond., XXV (5), 367375. (W.L. 21671.)Google Scholar
Rebrassier, R. E. & McCrory, B. R., 1931.—“A Study of Immunity or Resistance to Ascaridia lineata (Schneider).” J. Amer. Vet. Med. Ass., LXXIV, n.s. XXXII (3), 349359. (W.L. 11022.)Google Scholar
Seifried, O., 1930.—“Studies on A-avitaminosis in Chickens. I, Lesions of the Respiratory Tract and their relation to some Infectious Diseases. II, Lesions of the Upper Alimentary Tract and their relation to some Infectious Diseases.” J. Exp. Med., LII, 519538. (W.L. 11189.)Google Scholar
Seifried, O. & Westhaus, M., 1930.—“Histologie der Augerveranderungen bei der A-avitaminose der Huhner.” Arch. Wiss. prakt. Tierhlk., LXII (3), 223235. (W.L. 1818.)Google Scholar
Stewart, F. H., 1917.—“On the Development of Ascaris lumbricoides Lin. and Ascaris suilla Duj. in the Rat and Mouse.” Parasitology, IX (2), 213227. (W.L. 16035.)Google Scholar
Sure, B., Kik, M. C. & Walker, D. J., 1929.—“The Effect of Avitaminosis on Hæmopoietic Function. 1, Vitamin A Deficiency.” J. Biol. Chem., LXXXIII, 375385. (W.L. 11063.)Google Scholar
Woodland, W. N. F., 1924.—“On the Development of the Human Hymenolepis nana (Siebold 1852) in the White Mouse; with remarks on ‘H. fraterna,’ ‘H. longior’ and ‘H. diminuta.Parasitology, XVI (4), 424. (W.L. 16035.)Google Scholar