The general morphology and life history in the vertebrate host is that of a typical trypanosome (fig. 40). Its length is from 12 µ to 35 µ, its breadth from 1·5 µ to 4 µ. Multiplication by longitudinal division proceeds in the peripheral blood (fig. [26]), while latent, leishmaniform bodies are produced in the internal organs.
Bruce and colleagues[99] have quite recently (June, 1914) described the development of a Zululand strain of T. brucei in G. morsitans. The tsetse flies were bred out in Nyasaland. In vertebrate blood the brucei strain was polymorphic. The development was like that found for T. gambiense in G. palpalis (fig. [30]), and by Bruce and colleagues for T. rhodesiense in G. morsitans in Nyasaland. Long trypanosomes were found in the proventriculus of the tsetse. Crithidial, rounded or encysted, and immature “blood forms” occurred in the salivary glands; and finally infective, stumpy, “blood forms” were differentiated in the salivary glands. The period of development of T. brucei in G. morsitans takes about three weeks, and then the fly becomes infective. Bruce believes that T. rhodesiense of Nyasaland and T. brucei of Zululand are the same, their cycles of development in G. morsitans being “marvellously alike.” (But see Laveran, p. 80.)
T. brucei has been cultivated with difficulty by Novy and MacNeal, using blood agar. The best treatment for nagana is arsenic in some form.
It is probable that more than one trypanosome has been confused under the name T. brucei, more especially as the occurrence of many species of trypanosomes in various animals in Africa was not suspected until comparatively recent times. It has been shown by Stephens and Blacklock (1913) that the original Zululand strain of T. brucei was monomorphic, while the organism sent from Uganda, and at the time believed by Bruce to be the same as the Zululand trypanosome, has been found to be polymorphic, with morphological resemblances to T. rhodesiense. Stephens and Blacklock[100] have suggested the name T. ugandæ for the polymorphic trypanosome, which, however, has marked resemblances with Trypanosoma pecaudi, and they are, perhaps, identical. T. pecaudi was the name given by Laveran[101] in 1907 to the causal agent of “baleri” in equines and sheep in the French Sudan. T. pecaudi, which is dimorphic, is widely distributed in Africa. An extremely small number of both T. pecaudi and T. ugandæ have been shown to possess posterior nuclei. T. pecaudi is transmitted by various species of Glossina, and is said to develop in the gut and proboscis of the fly.
On the other hand, Bruce and colleagues (1914), examining a strain sent from Zululand in 1913, state that T. brucei is polymorphic. Bruce (1914) suggests that passage through laboratory hosts has influenced and altered the morphology of the parasite.
Trypanosoma evansi, Steel, 1885.
Syn.: Spirochæta evansi, Steel, 1885; Hæmatomonas evansi, Crookshank, 1886; Trichomonas evansi, Crookshank, 1886.
Trypanosoma evansi, first found by Evans in 1880, in India, is the causal agent of the disease known as “surra.” The malady affects more particularly horses, mules, camels and cattle in India and neighbouring countries, such as Burma and Indo-China. It occurs also in Java, the Philippines, Mauritius and North Africa. Elephants may be affected. A serious outbreak among cattle in Mauritius occurred in 1902, the disease being imported into the island. The symptoms are fever, emaciation, œdema, great muscular weakness and paralysis culminating in death.
T. evansi varies from 18 µ to 34 µ in length and 1·5 µ to 2 µ in breadth. It has a pointed posterior extremity, and, anteriorly, there is a free portion to the flagellum (fig. 41). It is possibly monomorphic, but a few broad forms occur. The trypanosome multiplies by longitudinal fission in the blood. Rounded leishmaniform stages occur in the spleen of the vertebrate host, which stages Walker[102] (1912) considers to be phases of schizogony.