East Coast fever

East Coast fever, also known as theileriosis, is a disease of cattle which occurs in Africa and is caused by the protozoan parasite Theileria parva. The primary vector which spreads T. parva between cattle is a tick, Rhipicephalus appendiculatus.[1] East Coast fever is of major economic importance to livestock farmers in Africa,[2] killing at least one million cattle each year.[3] The disease occurs in Burundi, Democratic Republic of Congo, Kenya, Malawi, Mozambique, Rwanda, South Sudan, Tanzania, Uganda, Zimbabwe, Zambia.[3] In 2003, East Coast fever was introduced to Comoros by cattle imported from Tanzania.[4] It has been eradicated in South Africa.[3]

A more acute form of East Coast fever called corridor disease occurs when buffalo-derived T. parva is transmitted to cattle.[3] Another form, called January disease, only occurs over the winter months in Zimbabwe due to the tick lifecycle.

Native cattle are often resistant to the parasite, but not without symptoms. They are hosts to the parasite, but do not suffer as severely as foreign cattle.[5][6]

Clinical signs and diagnosis

Mortality can be up to 100%, with death occurring around 18–30 days after the initial attachment of infected ticks, because the incubation required is around 10–25 days, and the parasite spreads quickly and is rather aggressive.

Clinical signs include fever and enlarged lymph nodes near the tick bites.

Smears and stains can also be done to check for the parasite. Schizonts (meronts, or segmentors) can be found in infected lymphocytes. Pathology includes anorexia, dyspnea, corneal opacity, nasal discharge, frothy nasal discharge, diarrhea, pulmonary edema, leukopenia, and anemia. Endemic cattle given medication sometimes recover to varying degrees, or death follows due to blocked capillaries and parasites infecting the central nervous system.[7] Cattle in endemic areas which survive infection become carriers.

For diagnosis, post mortem findings are characteristic and mainly include damage to the lymphoid and respiratory systems.

Treatment and control

One study using the medicinal plant Peganum harmala showed it to have a lifesaving effect on cattle infected with East Coast fever.[8]

The classical treatment with tetracyclines (1970–1990) cannot provide efficiency more than 50%.

Since the early 1990s, buparvaquone is used in bovine theileriosis with remarkable results (90 to 98% recovery).

Other than the buparvaquones, other chemotherapeutic options are the parvaquones, e.g. Clexon.[9] Halofuginone lactate[10] has also been shown to have an 80.5% efficacy against Theirelia parva parva infections. The ultimate factor that causes death is pulmonary edema. In May 2010, a vaccine to protect cattle against East Coast fever reportedly had been approved and registered by the governments of Kenya, Malawi and Tanzania.[11] This consists of cryopreserved sporozoites from crushed ticks, but it is expensive and can cause disease.

Control of the disease relies on control of ticks of domestic animals. This is a major concern in tropical countries with large livestock populations, especially in the endemic area. Pesticides (acaricides) are applied in dipping baths or spray races, and cattle breeds with good ability to acquire immune resistance to the vector ticks are used.

History

This disease was first reported in southern Africa, south of the Zambezi river, in 1902.[12] It became known as East Coast fever after it was determined that the disease had originated in cattle imported from the East Coast of Africa.[12]

References

  1. Olwoch JM, Reyers B, Engelbrecht FA, Erasmus BF (2008). "Climate change and the tick-borne disease, Theileriosis (East Coast fever) in sub-Saharan Africa". Journal of Arid Environments. 72 (2): 108–20. doi:10.1016/j.jaridenv.2007.04.003.
  2. "Protecting Africa's cattle with a live vaccine: An East Coast fever impact narrative". ILRI Research Brief. No. 24. International Livestock Research Institute. September 2014. Retrieved 2018-05-06.
  3. 1 2 3 4 Nene, V; Kiara, H; Lacasta, A; Pelle, R; Svitek, N; Steinaa, L (June 2016). "The biology of Theileria parva and control of East Coast fever - Current status and future trends". Ticks and tick-borne diseases. 7 (4): 549–64. doi:10.1016/j.ttbdis.2016.02.001. PMID 26972687.
  4. Gachohi, J; Skilton, R; Hansen, F; Ngumi, P; Kitala, P (7 September 2012). "Epidemiology of East Coast fever (Theileria parva infection) in Kenya: past, present and the future". Parasites & Vectors. 5: 194. doi:10.1186/1756-3305-5-194. PMC 3465218. PMID 22958352.
  5. Norval RA, Perry BD, Young AS (1992). The Epidemiology of Theileriosis in Africa. London: Academic Press. ISBN 0-12-521740-4.
  6. International Livestock Research Institute
  7. Morrison WI, Goddeeris BM, Brown WC, Baldwin CL, Teale AJ (February 1989). "Theileria parva in cattle: characterization of infected lymphocytes and the immune responses they provoke". Vet Immunol Immunopathol. 20 (3): 213–37. doi:10.1016/0165-2427(89)90003-2. PMID 2497579.
  8. Derakhshanfar A, Mirzaei M (March 2008). "Effect of Peganum harmala (wild rue) extract on experimental ovine malignant theileriosis: pathological and parasitological findings". Onderstepoort J Vet Res. 75 (1): 67–72. doi:10.4102/ojvr.v75i1.90. PMID 18575066.
  9. ILRI. "Treatment of East coast Fever using Clexon in Uganda".
  10. PubMed (June 1987). "Clinical Trial of Halofuginone Lactate for the Treatment of East Coast Fever in Kenya". Vet. Rec. 120 (24): 575–7. PMID 3303642.
  11. "Cattle disease vaccine launched 30 years after invention". 2010-05-07. SciDev.net (7 May 2010).
  12. 1 2 Norval, R.A.I.; Perry, B.D.; Young, A.S. (1992). "Chapter 1.1 The epidemiology of East Coast fever. Introduction". The epidemiology of theileriosis in Africa. London: Academic Press. pp. 2–3. ISBN 9780125217408.
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