Dietary supplementation of Vitamin E and selenium on performance and oxidative stability of meat of broiler chickens in a hot climate

Al-Daraji H. J., Al-Mashadani H. A., Al-hassani A. S., Mirza H. A., Al-Hayani W. K. (2012): The influence of parsley (Petroselinum crispum) as feed additive on haematological traits of local Iraqi geese. Advances in Nutrition Research 1: 1 – 5. Search in Google Scholar

AOAC International (2005): Official methods of analysis of AOAC International, 17^th ed. Association of Official Analytical Chemists. Search in Google Scholar

Ahmad I., Gohar A., Ahmad N., Ahmad M. (2003): Haematological profile in cyclic, non-cyclic and endometritic cross-bred cattle. International Journal Agriculture and Biology 5: 332 – 334. Search in Google Scholar

Akbari M. R., Kermanshahi H., Moghaddam N. (2008): Effect of wheat-soybean meal-based diet supplementation with Vitamin A, Vitamin E and Zinc on blood cells, organ weights and humoral immune response in broiler chickens. Journal of Animal Veterinary Advances7: 297 – 304. Search in Google Scholar

Baker M. A, Cerniglia G. J., Zaman A. (1990): Microtiter plate assay for the measurement of glutathione and glutathione disulfide in large numbers of biological samples. Analytical Biochemistry 190: 360 – 365.10.1016/0003-2697(90)90208-Q Search in Google Scholar

Bashar Y., Tukur M., Sekoni A., Hassan W. (2010): Nutrient retention and haematological indices of broiler starters fed lablab seed meal as the source of protein. Nigerian Journal of Basic Applied Science 18: 285 – 291. Search in Google Scholar

Benjamin M. M. (1985): Outline of veterinary clinical pathology. 3^rd Ed. The Iowa State University Press, Ames. Search in Google Scholar

Brar R. S., Sandhu H. S., Singh A. (2002): Veterinary clinical diagnosis by laboratory methods. 1^st Ed. Kalyani Publishers, New Delhi. Search in Google Scholar

Chae B. J., Lohakare J. D., Choi J. Y., Han K. N., Yong J. S., Won H. K., Park Y. H., Hahn T. W. (2005): The efficacy of vitamin E – polyethylene glycol complex on growth performance, chicken meat quality and immunity in broilers. Journal of Animal and Feed Sciences 14: 125 – 138.10.22358/jafs/66972/2005 Search in Google Scholar

Cheng K., Song Z. H., Zheng X.C., Zhang H., Zhang J. F., Zhang L. L., Zhou Y. M., Wang T. (2017): Effects of dietary vitamin E type on the growth performance and antioxidant capacity in cyclophosphamide immunosuppressed broilers. Poultry Science 96: 1159 – 1166.10.3382/ps/pew336 Search in Google Scholar

Edens F. W., Carter T. A., Parkhurst T. C. R., Sefton A. E. (2000): Effect of selenium source and litter type on broiler feathering. Journal of Applied Poultry Research 9: 407 – 413.10.1093/japr/9.3.407 Search in Google Scholar

Eder K., Grunthal G., Kluge H., Hirche F., Spilke J., Brandsch C. (2005): Concentrations of cholesterol oxidation products in raw, heat-processed and frozen-stored meat of broiler chickens fed diets differing in the type of fat and vitamin E concentrations. British Journal of Nutrition 93: 633 – 643.10.1079/BJN20051411 Search in Google Scholar

Ekunseitan D. A., Abiola S. S., Oluwatosin O. O., Sogunle O. M., Adeleye O. O., Egbeyale L. T., Iyasere O. S. (2017): Health status of laying birds administered extracts of Lagenaria breviflora managed under two housing systems. Canadian Journal of Animal Science 97: 154 – 164. Search in Google Scholar

Estévez M. (2015): Oxidative damage to poultry: from farm to fork. Poultry Science 94: 1368 – 1378.10.3382/ps/pev094 Search in Google Scholar

Feldman B. F., Zinkl J. G., Jain N. C., Schalm O. W. (2000): Schalm’s Veterinary Hematology. 5^th Ed. Lippincott Williams and Wilkins, Philadelphia. Search in Google Scholar

Fellenberg M. A., Speisky H. (2006): Antioxidants: their effects on broiler oxidative stress and its meat oxidative stability. World Poultry Science Journal 62: 53 – 70.10.1079/WPS200584 Search in Google Scholar

Flachowsky G., Engelman D., Sunder A., Halle I., Sallmann H. P. (2002): Eggs and poultry meat as tocopherol sources in dependence on tocopherol supplementation of poultry diets. Food Research International 35: 239 – 243.10.1016/S0963-9969(01)00191-0 Search in Google Scholar

Galli F., Azzi A., Birringer M., Cook-Mills J. M., Eggersdorfer M., Frank J., Cruciani G., Lorkowski S., Özer N. K. (2017): Vitamin E: Emerging aspects and new directions. Free Radical Biology and Medicine 102: 16 – 36.10.1016/j.freeradbiomed.2016.09.01727816611 Search in Google Scholar

Ghazi S., Habibiyan M., Moeini M. M., Abdolmohammadi A. R. (2012): Effects of dietary selenium, vitamin E, and their combination on growth, serum metabolites, and antioxidant defense system in skeletal muscle of broilers under heat stress. Biological Trace Element Research 148: 322 – 330.10.1007/s12011-012-9374-022426748 Search in Google Scholar

Grau A., Guardiola F., Grimpa S., Barroeta A. C., Codony R. (2001): Oxidative stability of dark chicken meat through frozen storage: influence of dietary fat and alpha-tocopherol and ascorbic acid supplementation. Poultry Science 80: 1630 – 1642.10.1093/ps/80.11.1630 Search in Google Scholar

Habibian M., Ghazi S., Mehdi Moeini M., Abdolmohammadi A. (2014): Effects of dietary selenium and vitamin E on immune response and biological blood parameters of broilers reared under thermoneutral or heat stress conditions. International Journal of Biometeorology 58: 741 – 752.10.1007/s00484-013-0654-y Search in Google Scholar

Habibian M., Ghazi S., Mehdi M. (2016): Effects of Dietary Selenium and Vitamin E on Growth Performance, Meat Yield, and Selenium Content and Lipid Oxidation of Breast Meat of Broilers Reared Under Heat Stress Moeini. Biological Trace Element Research 169: 142 – 152.10.1007/s12011-015-0404-6 Search in Google Scholar

Kennedy D. G., Rice D. A., Bruce D. W., Goodall E. A., McIlroy S.G. (1992): Economic effects of increased vitamin E supplementation of broiler diets on commercial broiler production. British Poultry Science 33: 1015 – 1023.10.1080/00071669208417544 Search in Google Scholar

Li W. J., Zhao G. P., Chen J. L., Zheng M. Q., Wen J. (2009): Influence of dietary vitamin E supplementation on meat quality traits and gene expression related to lipid metabolism in the Beijing-you chicken. British Poultry Science 50: 188 – 198.10.1080/00071660902755409 Search in Google Scholar

Maraschiello C., Esteve E., Garcia-Regueiro J. A. (1998): Cholesterol oxidation in meat from chicken fed alpha-tocopherol and β-carotene-supplemented diets with different unsaturation grades. Lipids 33: 317 – 507.10.1007/s11745-998-0260-4 Search in Google Scholar

Mercier Y., Gatellier P., Vincent A., Renerre M. (2001), Lipid and protein oxidation in microsomal fraction from turkeys: influence of dietary fat and vitamin E supplementation. Meat Science 58: 125 – 134.10.1016/S0309-1740(00)00138-8 Search in Google Scholar

Niu Z. Y., Liu F. Z., Yan Q. L., Li L. (2009a): Effects of different levels of selenium on growth performance and immunocompetence of broilers under heat stress. Archives of Animal Nutrition 63: 56 – 65.10.1080/1745039080261161019271551 Search in Google Scholar

Niu Z. Y., Liu F. Z., Yan Q. L., Li W. C. (2009b): Effects of different levels of vitamin E on growth performance and immune responses of broilers under heat stress. Poultry Science 88: 2101 – 2107.10.3382/ps.2009-0022019762862 Search in Google Scholar

Özkan S., Malayoğlu H. B., Yalçin S., Karadaş F., Koçtürk S., Çabuk M., Ergül M. (2007): Dietary vitamin E (α-tocopherol acetate) and selenium supplementation from different sources: performance, ascites-related variables and antioxidant status in broilers reared at low and optimum temperatures. British Poultry Science 48: 580 – 593.10.1080/0007166070159395117952730 Search in Google Scholar

Paton N. D., Cantor A. H., Pescatore A. J., Ford M. J., Smith C. A. (2002): The effect of dietary selenium source and level on the uptake of selenium by developing chick embryos. Poultry Science 81: 1548 – 1554.10.1093/ps/81.10.154812412922 Search in Google Scholar

Purves W. K., Sadava D., Orians G. H., Heller H. C. (2003): Life: The Science of Biology (7^th edition).Sunderland, Sinauer Associates and W. H. Freeman, 954 p. Search in Google Scholar

Puthpongsiriporn U., Scheideler S. E., Shell J. L., Beck M. M. (2001): Effect of vitamin E and C supplementation on performance, in vitro lymphocyte proliferation, and antioxidant status of laying hens during heat stress. Poultry Science 80: 1190 – 1200.10.1093/ps/80.8.119011495472 Search in Google Scholar

Rael L. T., Thomas G. W., Craun M. L., Curtis C. G., Bar-Or R., Bar-Or D. (2004): Lipid peroxidation and the thiobarbituric acid assay: standardization of the assay when using saturated and unsaturated fatty acids. Journal of Biochemistry and Molecular Biology 37: 749 – 752. Search in Google Scholar

Rey A. I., Segura J., Olivares A., Cerisuelo A., Piñeiro C., López-Bote C. J. (2015): Effect of micellized natural (D-α-tocopherol) vs. synthetic (DL-α-tocopheryl acetate) vitamin E supplementation given to turkeys on oxidative status and breast meat quality characteristics. Poultry Science 94: 1259 – 1269.10.3382/ps/pev09125825790 Search in Google Scholar

Roch G., Boulianne M., De Roth L. (2000): Effects of dietary vitamin E and selenium source on incidence of ascites, growth performance and blood parameters cold-stressed broilers. Poultry Science 79: Suppl. 1, 41. Search in Google Scholar

Sahin K., Kucuk O. (2001): Effects of vitamin E and selenium on performance, digestibility of nutrients, and carcass characteristics of Japanese quails reared under heat stress (34 °C). Journal of Animal Physiology and Animal Nutrition 85: 342 – 348.10.1046/j.1439-0396.2001.00340.x11906558 Search in Google Scholar

Sihvo H. K., Immonen K., Puolanne E. (2013): Myodegeneration with fibrosis and regeneration in the pectoralis major muscle of broilers. Veterinary Pathology 51: 619 – 623.10.1177/030098581349748823892375 Search in Google Scholar

Surai P. F. (2002): Effect of selenium and vitamin E content of the maternal diet on the antioxidant system of the yolk and the developing chick. British Poultry Science 41: 235 – 243.10.1080/71365490910890223 Search in Google Scholar

Surai P. F., Dvorska J. E. (2002): Effects of selenium and vitamin E content of the diet on lipid peroxidation in breast muscle tissue of broiler breeder hens during storage. Proceedings of Australian Poultry Science Symposium 14: 187 – 192. Search in Google Scholar

Tayeb I. T., Qader G. K. (2012): Effect of feed supplementation of selenium and vitamin e on production performance and some hematological parameters of Broiler. KSU Journal of Natural Science 15: 46 – 56. Search in Google Scholar

Villar P. G., Diaz C. A., Avila G. E., Guinzberg R., Pablos J. L., Pina E. (2002): Effects of dietary Supplementation with vitamin C or vitamin E on growth performance in broilers. American Journal of Veterinary Research 63: 573 – 576. Search in Google Scholar

Voljc M., Frankic T., Levart A., Nemec M., Salobir J. (2011): Evaluation of different vitamin E recommendations and bioactivity of α-tocopherol isomers in broiler nutrition by measuring oxidative stress in vivo and the oxidative stability of meat. Poultry Science 90: 1478 – 1488.10.3382/ps.2010-0122321673163 Search in Google Scholar

Wang Y. X., Zhan X. A., Zhang X. W., Wu R. J., Yuan D. (2011): Comparison of different forms of dietary selenium supplementation on growth performance, meat quality, selenium deposition, and antioxidant property in broilers. Biological Trace Element Research 143: 261 – 273.10.1007/s12011-010-8839-220838922 Search in Google Scholar

Yoon I., Werner T. M., Butler J. M. (2007): Effect of source and concentration of selenium on growth performance and selenium retention in broiler chickens. Poultry Science 86: 727 – 730.10.1093/ps/86.4.72717369545 Search in Google Scholar

Young J. F., Stagsted J., Jensen S. K., Karlsson A. H., Henckel P. (2003): Ascorbic acid, alpha-tocopherol, and oregano supplements reduce stress-induced deterioration of chicken meat quality. Poultry Science 82: 1343 – 1351.10.1093/ps/82.8.134312943308 Search in Google Scholar