Authors: Amina M. Bishr, Ahmed B. Magdub, Abdul-Baset R. Abuzweda

Abstract:

A major challenge in camel productivity is the high mortality rate of camel calves in the early stage due to the lack of colostrums. This study investigates the time required for the calves to obtain the optimum amount of the immunoglobulin (IgG). Eleven pregnant female camels (Camelus Dromedarus) were selected randomly and variant in age and gestation. After delivery, 7 calves were obtained and used for this investigation. Colostrum samples were collected from mothers immediately after parturition. Blood samples were obtained from the calves as follow: 0 day (before suckling), 24, 48, 72, 96, 120 and 144 hours, 2nd, 3rd, and 4th weeks post suckling. Blood serum and colostrums whey were separated and used to determine IgG concentration, total protein and concentration of Cortisol and Thyroxin. The results showed high levels of IgG in camel colostrums (328.8 ± 4.5 mg / ml). The IgG concentration in serum of calves was the highest within 1st 24 h after suckling (140.75 mg /ml), and then declined gradually reached lower level at 144 h (41.97 mg / ml). The average turnover rate (t 1/2) of serum IgG in the all cases was 3.22 days. The turnover of ranged from 2.56 days for calves have values of IgG more than average and 7.7 days for those with values below average. In spite of very high levels of thyroxin in sera of new born the results showed no correlation between cortisol and thyroxin with IgG levels.

Keywords: Camel, cortisol, IgG, thyroxin, turn-over rate.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1330403

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1975

References:

[1] S. R. Ghazi, A. Oryan and Pourmizali, "Some aspects of microscopic studies of the placentation in the camel", Ant. Histol. Embrol., 23, 337- 342, 1994.
[2] J. A. Paxson, S. M. Cunningham, J. E. Rush and D. Bedenice, "The association of lung function and plasma volume expansion in neonatal alpaca crias following plasma transfusion for failure of passive transfer",Journal of veterinary Emergency andcritical care, vol. 18(6), pp. 601-607, 2008.
[3] S. M. Azwai, S. D. Carter and Z. Woldehiwet, "Imm unoglobulins of camel (Camelus dromedaries) colostrums",J. Comp. Path, vol. 114, 275- 282, 1996.
[4] A. E. Garmendia and T. C. McGuire, "Mechanism and isotypes envolved in passive immunoglobulin transfer to the newborn alpaca (Lama pacos)", Am. J. Vet. Res., vol. 48, 1465-1471, 1987a.
[5] R. A. Metawie, "Immunoglobulin concentrations in the sera of camel calves before and after ingestion of colostrum and duringthe first 8 months of age", Egypt J. Agric. Res., vol. 78, 843-850, 2000.
[6] R. Kamber, Z. Farah, P. Rusch and M. Hassig, "Studies on the supply of immunoglobulin G to newborn camel calves (Camelus Dromedaries)", J.Dairy Res., vol. 68, 1-7, 2001.
[7] U. Wernery, " Camelid Immunoglobulins and their Importance for the New-Born- A Review ", J. Vet. Med. B, 48, 561-568, 2001.
[8] M. Sedlinska, J. Krejci, M. Vyskocil and H. Kudlackova, "Postnatal Development of blood serum concentrations of immunoglobulin IgG, IgA and IgM isotypes in suckling foals", ACTA VET. BRNO, vol. 75, 175-182, 2006.
[9] R. L. Hough, F. D. McCarthy, C. D. Thatcher, H. D. Kent and D. E. Eversole, "Influence of glucocorticoid on macromolecular absorption and passive immunity in neonatal lambs", J. Anim. Sci., vol. 68, 2459- 2464, 1990.
[10] A. B. Magdub and H. Johnson, "Thyroxine (T4) and triiodothyronine (T3) in female camels and cows", The Libyan Journal of Agriculture,vol. 12, 5-7, 1986.