P. A. Nnadi
Department of Animal Health and Production, University of Nigeria, Nsukka, Nigeria
K.C. Ezema
Department of Veterinary Pathology and Microbiology, Faculty of Veterinary Medicine, University of Nigeria, Nsukka, Nigeria
ABSTRACT
A total of 72 day old cockerel Harco chicks purchased from a local hatchery were used to investigate the effect of feed quality on the development and function of immune system in chicken. Upon procurement, they were divided into 3 equal groups (n = 24) and brooded separately in three mini deep litter brooder pens with adequate brooding requirement Three diets with crude protein contents of 26, 22 and 17% were prepared and from day zero of hatch till day 26, chicks in group A were fed 26 while groups B and C were fed 22 and 17% respectively. During and after brooding, signs of ill health such as diarrhoea, anorexia, huddling, drooping of wings, coughing and mortality were carefully monitored. Post brooding, each group retained its pen but all the groups were maintained on one diet, lpd on which they were fed till the end of the study. On day 21 Post Hatch (PH), 8 chicks per group were randomly selected, weighed individually and their group means and standard deviation calculated. They were subsequently sacrificed and through jugular venipunture, 2 ml of blood was collected into an anticoagulant bottle for general haematology while 5 mls was collected into a non anticoagulant containing bottle for serum biochemistry and serology. This was followed by necropsy of all the chicks after which some lymphoid organs and the liver were harvested and their weights determined followed by that of their relative weights. The remaining birds in each group were vaccinated with ND vaccine lasotaR. Five days later, all the operations of day 21 were repeated. The remaining chicks in the group were hereafter maintained on 17% CP till day 42 PH when they were vaccinated with ND KomarovR vaccine. Five days later, all the operations of day 21 were repeated. We observed the loss of 17% of the flock population in group A during brooding. On days 21, 26 and 47 PH groups A and B had comparable mean live weights which were significantly higher than the mean weights of group C (p<0.05). Also, all the groups had comparable mean relative organ weights throughout the period of study. Moreover, on days 21 and 26 PH, all the groups had comparable PCV while on day 47, groups A and B had mean values significantly higher than C (p<0.05). Generally, we observed that dietary protein appears to modulate the rate of growth and function of some lymphoid organs in growing chicks.
PDF References
How to cite this article
P. A. Nnadi and K.C. Ezema, 2010. The Effect of Feed Quality on the Development and Function of Immune System in Chicken. International Journal of Poultry Science, 9: 334-339.
DOI: 10.3923/ijps.2010.334.339
URL: https://scialert.net/abstract/?doi=ijps.2010.334.339
DOI: 10.3923/ijps.2010.334.339
URL: https://scialert.net/abstract/?doi=ijps.2010.334.339
REFERENCES
- Agbede, J.O. and V.A. Aletor, 2003. Evaluation of fish meal replaced with leaf protein concentrate from glyricidia in diets for broiler-chicks: Effect on performance, muscle growth, haematology and serum metabolites. Int. J. Poult. Sci., 2: 242-250.
CrossRefDirect Link - Cook, M.E., 1991. Nutrition and immune response of the domestic fowl. Crit. Rev. Poult. Biol., 3: 167-189.
Direct Link - Deif, E.A., A. Galal, M.M. Fathi and A. Zein-El-Dein, 2007. Immunocompetence of two broiler strains fed marginal and high protein diets. Int. J. Poult. Sci., 6: 901-911.
CrossRefDirect Link - Dibner, J.J., C.D. Knight, M.L. Kitchell, C.A. Atwell, A.C. Downs and F.J. Ivey, 1998. Early feeding and development of the immune system in neonatal poultry. J. Applied Poult. Res., 7: 425-436.
CrossRefDirect Link - Grimble, R.F., 1996. Interaction between nutrients , pro-inflammatory cytokines and inflammation. Clin. Sci., 91: 121-130.
PubMed - Glick, B., R.L.Jr. Taylor, D.E. Martin, M. Watabe, E.J. Day and D. Thompson, 1983. Calorie-protein deficiencies and the immune response of the chicken. II. Cell-mediated immunity. Poult. Sci., 62: 1889-1893.
CrossRefPubMedDirect Link - Gross, W.B. and P.B. Siegel, 1997. Why some get sick. J. Applied Poult. Res., 6: 453-460.
Direct Link - Klasing, K.C., 1998. Nutritional modulation of resistance to infectious diseases. Poult. Sci., 77: 1119-1125.
CrossRefPubMedDirect Link - Lockmiller, R.L., M.R. Vestey and S.T. McMurry, 1993. Selected immune responses of adult cotton rats Sigmodon hispidus to dietary restriction. Comp. Biochem. Physiol. Comp. Physiol., 104: 593-599.
PubMedDirect Link - Moldawer, L.L. and E.M. Copeland, 1997. Pro inflammatory cytokines, nutritional support and the cachexia syndrome. Cancer, 79: 1828-1839.
PubMed - Nnadi, P.A., T.N. Kamalu and D.N. Onah, 2007. The effect of dietary protein on the pathophysiology of Haemonchus contortus infection in West African Dwarf goat. Vet. Parasitol., 148: 256-261.
PubMed - Payne, C.J., T.R. Scott, J.W. Dick and B. Glick, 1990. Immunity to Pasteurella multocida in protein deficient chickens. Poult. Sci., 69: 2134-2142.
Direct Link - Rao, S.V.R., N.K. Praharaj, M.R. Reddy and B. Sridevi, 1999. Immune competence, resistance to Escherichia coli and growth in male broiler parent chicks fed different levels of crude protein. Vet. Res. Commun., 23: 323-336.
CrossRef - Saino, N., S. Calza and A.P. Moller, 1997. Immunocompetence of nestling barn swallows in relation to brood size and parental effort. J. Anim. Ecol., 66: 827-836.
CrossRef - Saki, A.A., 2005. Effect of post hatch feeding on broiler performance. Int. J. Poult. Sci., 4: 4-6.
Direct Link - Tewe, O.O., 1985. Protein metabolism in growing pigs fed corn or cassava peel based diets containing graded protein levels. Res. Vet. Sci., 29: 259-263.
PubMed - Latshaw, J.D., 1991. Nutrition-mechanisms of immunosuppression. Vet. Immunol. Immunopathol., 30: 111-120.
CrossRef