Wenyon[97] writes that, “the fleas, when once infected with T. lewisi, remain infected for long periods, for though many small infective trypanosomes are washed out of the gut at each feed, those that remain behind multiply to re-establish the infection of the hind gut. Further, the infection is still maintained even if the flea is nourished on a human being, so that fresh human blood does not appear to be destructive to the infective forms in the flea.”
The best method of controlling fleas during experiments is that due to Nöller. He adopted the method of showmen who exhibit performing fleas, and secure them on very fine silver wire.
Of fleas fed on an infected rat only about 20 per cent. become infective. About 80 per cent. are immune. If fleas are examined twenty-four hours after feeding, trypanosomes will be found in all, so that many of the parasites are destined to degenerate.
It may be of interest to note that Gonder[98] (1911) has shown that a strain of T. lewisi resistant to arsenophenylglycin loses its resistance after passage through the rat-louse, Hæmatopinus spinulosus. These experiments suggest that physiological “acquired characters” may be lost by passage through an invertebrate host.
Trypanosoma brucei, Plimmer and Bradford, 1899.
Trypanosoma brucei was discovered by Sir D. Bruce in 1894 in cattle in Zululand and was named T. brucei by Plimmer and Bradford in 1899 in honour of its discoverer. This trypanosome is of considerable economic importance, as it is responsible for the fatal tsetse fly disease, or “nagana,” in cattle, horses and dogs. The disease is widely distributed in Africa and is transmitted from host to host by the tsetse, Glossina morsitans, and other species of Glossina. The virus is maintained in nature in certain big game, such as wildebeest, bushbuck and koodoo, which thus act as living reservoirs of disease from which the tsetse may become infected. These reservoir hosts are not injured, apparently, by the presence of the parasites.
T. brucei is rapidly fatal to the small laboratory animals, such as rats and mice. Horses, asses and dogs practically always succumb to its attacks, while a very small number of cattle recover from “nagana.” The disease is characterized by fever, destruction of red blood corpuscles, severe emaciation and by an infiltration of coagulated lymph in the subcutaneous tissue of the neck, abdomen and extremities giving a swollen appearance thereto. The natural reservoirs in which T. brucei has been long acclimatized are unaffected by the trypanosomes, while the newer hosts, such as imported cattle in Africa, are rapidly destroyed by their action.
Fig. 40.—Trypanosoma brucei. × 2,000. (After Laveran and Mesnil.)