Vet Med - Czech, 2015, 60(6):301-308 | DOI: 10.17221/8244-VETMED

Significance of clinical variables and selected biochemical markers in predicting the outcome of bovine anaplasmosisOriginal Paper

M. El-Ashker1, M. Salama1, M. El-Sebaei1, E. Risha1, F. Abdelhamid1, M. El-Diasty2, E. El-Fadle1
1 Faculty of Veterinary Medicine, Mansoura University, Mansoura, Egypt
2 Animal Health Research Institute, Mansoura Provincial Laboratory, Mansoura, Egypt

The present study was aimed at evaluating the usefulness of selected inflammatory and oxidative stress markers in predicting the clinical outcome of cattle infected with Anaplasma (A). marginale. The study population consisted of 39 cattle naturally infected with A. marginale. The presumptive diagnosis of this infection was initially achieved on the basis of case history, microscopy and clinical examination findings, and confirmed using A. marginale-specific PCR assays. The diseased cattle were categorised according to the clinical outcome into survivors (n = 26) and non-survivors (n = 13). For comparison, ten clinically healthy cattle were randomly selected and served as controls. Blood was drawn from all examined animals to measure the respective levels of selected cytokines, acute phase proteins, oxidative stress markers, and antioxidant enzyme levels. We found that the clinical examination alone was not conclusive and should be used in conjunction with other diagnostic methods. Nonetheless, the non-surviving animals showed anorexia, frequent coughing, dyspnoea, bloody faeces, recumbency, pale or icteric mucous membranes, and haemoglobinuria. Biochemically, tumour necrosis factor alpha, interleukin (IL)-1β, IL-6, serum amyloid A, fibrinogen, malondialdehye, superoxide dismutase, and catalase levels were significantly higher in diseased cattle compared with controls, and were higher in non-survivors than survivors (P < 0.05). In contrast, reduced glutathione (G-SH) was significantly lower in non-surviving cattle than survivors and controls. Interestingly, a significant correlation was found between parasitaemia of the diseased cattle and most of the measured biochemical variables, with IL-1β and G-SH showing the highest correlation. Our findings clearly demonstrate that A. marginale infection is associated with marked inflammatory and oxidative stress responses, which are higher in non-surviving cattle compared with survivors. The overall degree of cytokine and anti-oxidative disruption may have an important prognostic value for the disease outcome.

Keywords: Anaplasma marginale; cytokine profile; oxidative stress; prognosis; cattle

Published: June 30, 2015  Show citation

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El-Ashker M, Salama M, El-Sebaei M, Risha E, Abdelhamid F, El-Diasty M, El-Fadle E. Significance of clinical variables and selected biochemical markers in predicting the outcome of bovine anaplasmosis. Vet Med - Czech. 2015;60(6):301-308. doi: 10.17221/8244-VETMED.
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    References

    1. Abdel Hamid O, Radwan M, Ali A (2014): Biochemical changes associated with Anaplasma infection in cattle. Global Journal of Biotechnology and Biochemistry 9, 19-23.
    2. Asri S, Dalir B (2006): Evaluation of antioxidant status and oxidative stress in cattle naturally infected with Theileria annulata. Veterinary Parasitology 142, 179-186. Go to original source... Go to PubMed...
    3. Carelli G, Decaro N, Lorusso A, Elia G, Lorusso E, Mari V, Ceci L, Buonavoglia C (2007): Detection and quantification of Anaplasma marginale DNA in blood samples of cattle by real-time PCR. Veterinary Microbiology 124, 107-114. Go to original source... Go to PubMed...
    4. da Silva AP, Meotti FC, Santos AR, Farina M (2006): Lactational exposure to malathion inhibits brain acetylcholinesterase in mice. Neurotoxicology 27, 1101-1105. Go to original source... Go to PubMed...
    5. De UK, Dey S, Banerjee PS, Sahoo M (2012): Correlations among Anaplasma marginale parasitemia and markers of oxidative stress in crossbred calves. Tropical Animal Health and Production 44, 385-388. Go to original source... Go to PubMed...
    6. DumlerJS, Barbet AF., Bekker CP, Dasch GA, Palmer GH, Ray, SC, Rikihisa Y, Rurangirwa FR (2001): Reorganization of genera in the families Rickettsiaceae and Anaplasmataceae in the order Rickettsiales: unification of some species of Ehrlichia with Anaplasma, Cowdria with Ehrlichia and Ehrlichia with Neorickettsia, descriptions of six new species combinations and designation of Ehrlichiaequiand 'HGE agent' as subjective synonyms of Ehrlichiaphagocytophila. International Journal of Systematic and Evolutionary Microbiology 51, 2145-2165. Go to original source... Go to PubMed...
    7. Eckersall P (2000): Recent advances and future prospects for the use of acute phase proteins as markers of disease in animals. Revue de Medecine Veterinaire 151, 577-584.
    8. Edith MS, Jonathan H, Sezer MT, Chertow GM (2004): Plasma cytokine levels predict mortality in patients with acute renal failure. Official Journal of the International Society of Nephrology 65, 1357-1365. Go to original source... Go to PubMed...
    9. El-Ashker M, Salama M, El Boshy M (2013): Traumatic reticuloperitonitis in water buffalo (Bubalus bubalis): Clinical findings and the associated inflammatory response. Journal of Veterinary Medicine. Article ID 808656, 6. Go to original source... Go to PubMed...
    10. El-Ashker M, Salama M, Rizk A, El-Boshy M. (2014): The use of inflammatory markers as a prognostic aid for traumatic reticuloperitonitis in water buffalo (Bubalus bubalis) Veterinarni Medicina 59, 239-246. Go to original source...
    11. El-Ashker M, Hotzel H, Gwida M, El-Beskawy M, Silaghi C, Tomaso H. (2015): Molecular biological identification of Babesia,Theileria, and Anaplasma species in cattle in Egypt using PCR assays, gene sequence analysis and a novel DNA microarray. Veterinary Parasitology 207, 329-334. Go to original source... Go to PubMed...
    12. El-Sebaei M, El-Ashker M, El-Boshy M. (2014): The role of acute phase cytokines in the recovery and disease progress of Theileria annulata-infected cattle. Comparative Clinical Pathology 23, 1497-1502. Go to original source...
    13. Eriks IS, Stiller D, Palmer GH (1993): Impact of persistent Anaplasma marginale rickettsemia on tick infection and transmission. Journal of Clinical Microbiology 31, 2091- 2096. Go to original source... Go to PubMed...
    14. Feldman, BV, Zinkl JG, Jain NC (2000): Schalms Veterinary Hematology. 5th ed. Williams and Wilkins. Philadelphia. 1152-1159.
    15. Freeman BA, Crapo JD (1982): Biology of disease: free radicals and tissue injury. Laboratory Investigation 47, 412-426. Go to PubMed...
    16. Gubbels JM, de Vos AP, van der Weide M, Viseras J, Schouls LM, de Vries E, Jongejan F (1999): Simultaneous detection of bovine Theileria and Babesia species by reverse line blot hybridization. Journal of Clinical Microbiology 37, 1782-1789. Go to original source... Go to PubMed...
    17. Kocan KM, Fuente JDL, Blouin EF, Coetzee JF, Ewing SA (2010): The natural history of Anaplasma marginale. Veterinary Parasitology 167, 95-107. Go to original source... Go to PubMed...
    18. Koj A (1997): Initiation of acute phase response and synthesis of cytokines. Biochimica et Biophysica Acta 1317, 84-94. Go to original source... Go to PubMed...
    19. Kusawa S, Gelfand JA, Ikejima T (1988): Interleukin 1 induces a shock-like state in rabbits. Synergism with tumor necrosis factor and the effect of cyclooxygenase inhibition. Journal of Clinical Investigation 81, 1162-1172. Go to original source... Go to PubMed...
    20. Latimer KS, Mahaffey EA, Prasse KW (2003): Veterinary Laboratory Medicine: Clinical Pathology. 4th ed. Iowa State Press, Iowa. 162-168.
    21. Nazifi S, Razavi SM, Kaviani F, Rakhshandehroo E (2012): Acute phase response in cattle infected with Anaplasma marginale. Veterinary Microbiology 155, 267-271. Go to original source... Go to PubMed...
    22. OIE (2012): Bovine Anaplasmosis. OIE Terrestrial Manual Chapter 2.4.1. 589-600
    23. Orro T, Pohjanvirta T, Rikula U, Huovilainen A, Alasuutari S, Sihvonen L, Pelkonen S, Soveri T (2011): Acute phase protein changes in calves during an outbreak of respiratory disease caused by bovine respiratory syncytial virus. Comparative Immunology, Microbiology and Infectious Diseases 34, 23-29. Go to original source... Go to PubMed...
    24. Rauchhaus M, Doehner W, Francis D, Davos C, Kemp M (2000): Plasma cytokine parameters and mortality in patients with chronic heart failure. Circulation 102, 3060- 3067. Go to original source... Go to PubMed...
    25. Salm FF, Younis EE, Hegazy NM, El-Sawalhy AA (2011): Epidemiological studies on bovine Anaplasmosis. Bulletin of Animal Health and Production in Africa 59. 179-189.
    26. Younis EE, Hegazy NAM, El-Deeb W, El-Khatib RM (2009) Epidemiological and biochemical studies on bovine anaplamosis in Dakahlia and Damietta Governorates in Egypt. Bulletin of Animal Health and Production in Africa 57. http://dx.doi.org/10.4314/bahpa.v57i4.51668 Go to original source...

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