Impact of nutrition on the pathophysiology of bovine trypanosomiasis

P. H. HOLMES; E. KATUNGUKA-RWAKISHAYA; J. J. BENNISON; G. J. WASSINK; J. J. PARKINS

doi:10.1017/S0031182099005806

Abstract

Trypanosomiasis is a major veterinary problem over much of sub-Saharan Africa and is frequently associated with undernutrition. There is growing evidence that nutrition can have a profound effect on the pathophysiological features of animal trypanosomiasis. These features include anaemia, pyrexia, body weight changes, reduced feed intake and diminished productivity including reduced draught work output, milk yield and reproductive capacity. Anaemia is a principal characteristic of trypanosomiasis and the rate at which it develops is influenced by both protein and energy intakes. Pyrexia is associated with increased energy demands for maintenance which is ultimately manifested by reductions in voluntary activity levels and productivity. Weight changes in trypanosomiasis are markedly influenced by the levels of protein intake. High intakes allow infected animals to grow at the same rate as uninfected controls providing energy intake is adequate whilst low energy levels can exacerbate the adverse effects of trypanosomiasis on body weight. Reductions in feed intake are less apparent in animals which are provided with high protein diets and where intake is limited by the disease animals will often exhibit preferential selection of higher quality browse. Further studies are required to evaluate the minimum levels of protein and energy supplementation required to ameliorate the adverse effect of trypanosomiasis, the nature and quality of protein supplement to achieve these benefits and the influence these have on digestive physiology.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Magona, J.W. Walubengo, J. and Odimim, J.J. 2004. Differences in susceptibility to trypanosome infection between Nkedi Zebu and Ankole cattle, under field conditions in Uganda. Annals of Tropical Medicine & Parasitology, Vol. 98, Issue. 8, p. 785.

Dargantes, A.P. Campbell, R.S.F. Copeman, D.B. and Reid, S.A. 2005. Experimental Trypanosoma evansi Infection in the Goat. II. Pathology. Journal of Comparative Pathology, Vol. 133, Issue. 4, p. 267.

LOGAN, A. RUIZ-GONZÁLEZ, M. X. and BROWN, M. J. F. 2005. The impact of host starvation on parasite development and population dynamics in an intestinal trypanosome parasite of bumble bees. Parasitology, Vol. 130, Issue. 6, p. 637.

Marcotty, T. Simukoko, H. Berkvens, D. Vercruysse, J. Praet, N. and Van den Bossche, P. 2008. Evaluating the use of packed cell volume as an indicator of trypanosomal infections in cattle in eastern Zambia. Preventive Veterinary Medicine, Vol. 87, Issue. 3-4, p. 288.

Magona, J.W. Walubengo, J. Olaho-Mukani, W. Jonsson, N.N. and Eisler, M.C. 2009. Diagnostic value of rectal temperature of African cattle of variable coat colour infected with trypanosomes and tick-borne infections. Veterinary Parasitology, Vol. 160, Issue. 3-4, p. 301.

Holmes, P. H. and Coop, R. L. 2011. Encyclopedia of Animal Science, Second Edition. p. 855.

Ohaeri, C.C. and Eluwa, M.C. 2011. Abnormal biochemical and haematological indices in trypanosomiasis as a threat to herd production. Veterinary Parasitology, Vol. 177, Issue. 3-4, p. 199.

Coop, R. L. and Holmes, P. H. 2011. Encyclopedia of Animal Science, Second Edition. p. 852.

Fikru, Regassa Goddeeris, Bruno Maria Delespaux, Vincent Moti, Yohannes Tadesse, Aster Bekana, Merga Claes, Filip De Deken, Reginald and Büscher, Philippe 2012. Widespread occurrence of Trypanosoma vivax in bovines of tsetse- as well as non-tsetse-infested regions of Ethiopia: A reason for concern?. Veterinary Parasitology, Vol. 190, Issue. 3-4, p. 355.

Majekodunmi, Ayodele O Fajinmi, Akinyemi Dongkum, Charles Picozzi, Kim MacLeod, Ewan Thrusfield, Michael V M Shaw, Alexandra P and Welburn, Susan C 2013. Social factors affecting seasonal variation in bovine trypanosomiasis on the Jos Plateau, Nigeria. Parasites & Vectors, Vol. 6, Issue. 1,

Majekodunmi, Ayodele O Fajinmi, Akinyemi Dongkum, Charles Picozzi, Kim Thrusfield, Michael V and Welburn, Susan C 2013. A longitudinal survey of African animal trypanosomiasis in domestic cattle on the Jos Plateau, Nigeria: prevalence, distribution and risk factors. Parasites & Vectors, Vol. 6, Issue. 1,

Maiwald, Franziska Benítez, Diego Charquero, Diego Dar, Mahin Abad Erdmann, Hanna Preu, Lutz Koch, Oliver Hölscher, Christoph Loaëc, Nadège Meijer, Laurent Comini, Marcelo A. and Kunick, Conrad 2014. 9- and 11-substituted 4-azapaullones are potent and selective inhibitors of African trypanosoma. European Journal of Medicinal Chemistry, Vol. 83, Issue. , p. 274.

Chekwube, Adieme Ijeoma Onyema, Ezeh Ikenna Ikenna, Ugochukwu Emmanuel and Ezeokonkwo, Romanus Chukwuduruo 2014. Effect of diminazene aceturate, levamisole and vitamin C combination therapy in rats experimentally infected with Trypanosoma brucei brucei. Asian Pacific Journal of Tropical Medicine, Vol. 7, Issue. 6, p. 438.

Mamoudou, Abdoulmoumini Njanloga, Alexandre Hayatou, Aliyou Suh, Pierre Fongho and Achukwi, Mbunkah Daniel 2016. Animal trypanosomosis in clinically healthy cattle of north Cameroon: epidemiological implications. Parasites & Vectors, Vol. 9, Issue. 1,

Mergia, Ermias Shibeshi, Workineh Terefe, Getachew and Teklehaymanot, Tilahun 2016. Antitrypanosomal activity of Verbascum sinaiticum Benth. (Scrophulariaceae) against Trypanosoma congolense isolates. BMC Complementary and Alternative Medicine, Vol. 16, Issue. 1,

Degneh, Efrem Shibeshi, Workineh Terefe, Getachew Asres, Kaleab and Ashenafi, Hagos 2017. Bovine trypanosomosis: changes in parasitemia and packed cell volume in dry and wet seasons at Gidami District, Oromia Regional State, western Ethiopia. Acta Veterinaria Scandinavica, Vol. 59, Issue. 1,

OGBAJE, Christoph Igoche LAWAL, Idris Alao and AJANUSI, Joseph 2017. Comparative clinical presentation and pathology of some organs in experimentally infected Yankasa sheep with Trypanosoma vivax and Trypanosoma congolense from Nigeria. TURKISH JOURNAL OF VETERINARY AND ANIMAL SCIENCES, Vol. 41, Issue. , p. 604.

AKPAN, Clara NWEZE, Nwakaego and CHUKWU, Cornelius 2018. Hematological and clinical studies in West African Dwarf sheepexperimentally infected with Trypanosoma brucei and treated withdiminazene aceturate, levamisole, and vitamin A. TURKISH JOURNAL OF VETERINARY AND ANIMAL SCIENCES, Vol. 42, Issue. , p. 82.

Solomon, Mekuria Hoges, Ashenafi Nigatu, Kebede Tadesse, Eyasu Saifemichael, Ushecho and Getachew, Terefe 2020. The impact of Gibe III hydroelectric dam on the situation of livestock diseases with particular emphasis on bovine trypanosomosis in Southern Ethiopia. International Journal of Veterinary Science and Research, p. 104.

Eyasu, Tadesse Mekuria, Solomon and Sheferaw, Desie 2021. Seasonal prevalence of trypanosomosis, Glossina density and infection along the escarpment of Omo River, Loma district, southern Ethiopia. Heliyon, Vol. 7, Issue. 4, p. e06667.

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Impact of nutrition on the pathophysiology of bovine trypanosomiasis

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