The Effects of Omega-3 and Omega-6 Fatty Acids on Performance, Egg Quality, and Some Blood Parameters of Laying Hens

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Research Paper 01/10/2016
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The Effects of Omega-3 and Omega-6 Fatty Acids on Performance, Egg Quality, and Some Blood Parameters of Laying Hens

Seyyed Naeim Saber
Int. J. Agron. Agri. Res.9( 4), 44-54, October 2016.
Certificate: IJAAR 2016 [Generate Certificate]

Abstract

Polyunsaturated fatty acids (especially omega-3) are beneficial on brain growth, immune system, and preventing of heart attack. In recent years the production of foods with high levels of omega 3 polyunsaturated fatty acids has received special attentions by many companies. One of these foods is hen egg and many researches explained that type and amount of egg yolk fatty acids can be changed by the type and amount of diet fatty acids in laying hens. Also inclusion of polyunsaturated fatty acids in layer hens diet can be reduce cholesterol and triglyceride content in egg yolk and because of it consuming of these eggs humans have an important effect on LDL and HDL contents in humans blood. However, many researches have been done to determine the effects of polyunsaturated fatty acids on the production performance and egg characteristics of laying hens. In conducted experiment major problems were decrease egg production, egg weight, and egg quality. It can be suggested that more studies are needed to be done on effects of polyunsaturated fatty acids on laying performance and egg quality in layers hen.

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Agdam Shahriyar H, Shivazad M, Chamani M, Nazer adl K, Abrahimnejad Y. 2007. Effect of dietary fat tupe and different levels of vitamin E on performance and some of eggs characters of broiler breeder. 16th European Symposium on Poultry Nutrition. Strasbourg, France p. 691-694.

Ahmad Sh, Ahsan-ul H, Yousaf M, Nawaz H. 2010. Effect of feeding canola oil and vitamin A on the fatty acid profile of egg yolks in laying hens. Pakistan Journal of Nutrition 2, 191-194.

Ahn DU, Sunwoo HH, Wolfe FH, Sim JS. 1995. Effects of dietary alfa-linolenic acid and strain of hen on the fatty acid composition, storage stability, and flavor characteristics of chicken eggs. Journal of Poultry Science 74, 1540-1547.

Ajuyah AO, Lee KH, Hardin RT, Sim JS. 1991. Influence of dietary full fat seeds and oils on total lipid, cholesterol and fatty acid composition of broiler meats. Canada Journal of Animal Science 71, 1011-1019.

Al-khalifa H, Givens DI, Rymer C, Yaqoob. 2012. Effect of n-3 fatty acids on immune function in broiler chickens. Journal of Poultry Science 91, 74-88.

Alparsalan G, Ozdogan M. 2006. The effects of diet containing fish oil on some blood parameters and the performance values of broilers and cost efficiency. International Journal of Poultry Science 5(5), 415-419.

An SY, Guo YM, Ma SD, Yuan JM, Liu GZ. 2010. Effects of Different Oil Sources and Vitamin E in Breeder Diet on Egg Quality, Hatchability and Development of the Neonatal Offspring. Asian-Aust. Journal of Animal science Vol 23, No 2, 234 – 239.

Ansari R, Azarbayejani A, Ansari S, Asgari S, Gheisari A. 2006. Production of egg enriched with omega-3 fatty acids in laying hens. Arya Journal 1, 242–246.

Antruejo A, Azcona JO, Garcia PT, Gallinger C, Rosmini M, Ayerza R, Coates W, Perz CD. 2011. Omega-3 enriched egg production: the effect of alfa-linilenic w-3 fatty acid sources on laying hen performance and yolk lipid content and fatty acid composition. British Poultry Science 52, 750-760.

Applegate TJ, Ladwig E, Weissert L, Lilburn MS. 1999. Effect of hen age on intestinal development and glucose tolerance of Pekin duckling. Journal of Poultry Science 78, 1485-1492.

Atakisi E, Atakisi O, Yaman H, Arslan I. 2009. Omega-3 fatty acid application reduces yolk and plasma cholesterol levels in Japanese quails. Journal of Food and Chemical Toxicology 47, 2590-2593.

Augustyn R, Barteczko J, Smulikowska S. 2006. The effect of feeding regular or low a-linolenic acid linseed on laying performance and total cholesterol content in eggs. Journal of Animal and Feed Sciences 15, 103–106.

Balevi T, Coskun B. 2000. Effects of some oils used in broiler rations on performance and fatty acid compositions in abdominal fat. Revue de médecine vétérinaire 151, 10, 937-944.

Basmacıoğlu H, Çabuk M, Ünal K, Özkan K, Akkan S, Yalçın H. 2003. Effects of dietary fish oil and flax seed on cholesterol and fatty acid composition of egg yolk and blood parameters of laying hens. South African Journal of Animal Science 33(4), 266-273.

Baucells MD, Crespo N, Barroeta AC, Lopez-Ferrer S, Grashorn MA. 2000. Incorporation of different polyunsaturated fatty acids into eggs. Journal of Poultry Science 79(1), 51-59.

Bean ID, Leeson S. 2003. Long-term effect of feeding linseed on performance and egg fatty acid composition of brown and white hens. Journal of Poultry Science 82, 388–394.

Beynen AC. 2004. Fatty acid composition of eggs produced by hens fed diets containing groundnut, soybean or linseed. Nutrition journal of animal science 52, 3–10.

Cachaldora P, Garci- Rebollar P, Alvarez C, De Blas JC, Mendez J. 2006. Effect of type and level of fish oil supplementation on yolk fat composition and n-3 fatty acids retention efficiency in laying hens. British Poultry Science Volume 47, Number 1, pp. 43–49.

Calder PC. 2003. Long-chain n-3 fatty acids and inflammation: Potential application in surgical and trauma patients. Brazilian Journal of Medical and Biological Research 36(4), 433- 446.

Carrillo-Dominguez S, Carranco-Jauregui IME, CastilloDomy ´nguez RM, Castro-Gonza ´lez MI. 2005. Cholesterol and n-3 and n-6 fatty acid content in eggs from laying hens fed with red crab meal (Pleuroncodes planipes). Journal of Poultry Science 84, 167–172.

Celebi S, Macit M. 2008. The effects of sources of supplemental fat on performance, egg quality, and fatty acid composition of egg yolk in laying hens. Journal of the Science of Food and Agriculture 88, 2382–2387.

Celebi S, Utlu N. 2006. Influence of animal and vegetable oil in layer diets on performance and serum lipid profile. International Journal of Poultry Science 5, 370–373.

Çelik L, Tekeli A, Kutlu HR, Serin S, Görgülü M. 2005. RasyonunYağ (soya yağı ve karma yağ), balık unu ve L-Karnitin içeriğininyüksek sıcalık altında yetiştirilen etlik piliçlerin performansı üzerine etkileri. III Ulusal Hayvan Besleme Kongresi, Adana. 07-10 Eylül 2005. Sempozyum Kitabı, 199-204, Adana.

Ceylan N, Ciftçi I, Mızrak C, Kahraman Z, Efl H. 2011. Influence of different dietary oil sources on performance and fatty acid profile of egg yolk in laying hens. Journal of Animal and Feed Sciences 20, 71–83.

Cherian C. 2008. Egg quality and yolk polyunsaturated fatty acid status in relation to broiler breeder hen age and dietary n-3 oils. Journal of Poultry Science 87, 1131-1137.

Cherian G, Traber MG, Goeger MP, Leonard SW. 2007. Conjugated Linoleic Acid and Fish Oil in Laying Hen Diets: Effects on egg fatty acids, thiobarbituric acid reactive substances, and tocopherols during storage. Journal of Poultry Science 86, 953–958.

Cobos AL, Delahoz L, Cambero MI, Ordonez JA. 1995. Dietary modification and hen strain dependence of egg yolk lipids. Food Research International 28, 71-76.

Crespo N, Esteve-Garcia E. 2002. Dietary linseed oil produces lower abdominal fat deposition but higher de novo fatty acid synthesis in broiler chickens. Journal of Poultry Science 81, 1555–1562.

Crespo N, Esteve-Garcia E. 2003. Polyunsaturated fatty acids reduce insulin and very low density lipoprotein levels in broiler chickens. Journal of Poultry Science 82, 1134–1139.

De La Cruz JP, Quintero L, Villalobos MA, Cuesta FS. 2000. Lipid peroxidation and glutathione system in hyperlipemic rabbits: influence of olive oil administration. Biochimica et Biophysica Acta 1485, 36-44.

Donaldson WE. 1979. Regulations of fatty acid synthesis. Feed Proccecing 38, 2617–2621.

Ebeid T, Eid Y, Saleh A, Abd El-Hamid H. 2008. Ovarian follicular development, lipid peroxidation, antioxidative status and immune response in laying hens fed fish oil-supplemented diets to produce n-3-enriched eggs. Animal 2, 84–91.

Eseceli H, Kahraman R. 2003. Ayçiçek ve balık yağı içeren yumurta tavuğu rasyonlarına E ve C vitaminleri ilavesinin performansa etkisi (Effect of layer hens diet based fish and sunflower oil and Vitamin E and C on performance) sunflower and fish oil. Gıda ve Yem Bilimi-Teknolojisi Dergisi 4, 13-22.

Febal H, Mezes M, Palfy T, Herman A, Gundel J, Lugasi A, Balogh K, Kocsis I, Blazovics A. 2008. Effect of dietary fatty acid pattern on growth, body fat composition and antioxidant parameters in broilers. Journal of Animal Physiology and Animal Nutrition 92, 369 – 376.

Filardi RDS, Junqueira OM, de Laurentiz AC, Casartelli EM, Aparecida RE, Francelino AL. 2005. Influence of different fat sources on the performance, egg quality, and lipid profile of egg yolks of commercial layers in the second laying cycle. Journal of Applied Poultry Research 14, 258– 264.

Galobart J, Barroeta AC, Baucells MD, Cortinas L, Guardiola F. 2001. Alfa Tocopherol transfer efficiency and lipid oxidation in fresh and spray-dried eggs enriched with o3-polyunsaturated fatty acids. Journal of Poultry Science 80, 1496 – 1505.

Goncuglu E, Ergun A. 2004. The effect of linseed oil to egg quality, fatty acids and cholesterol content of egg yolk in laying hens. 22nd World Poultry Congress, Istanbul, Turkey.

Gonzalez-Esquerra R, Leeson S. 2000. Effect of feeding hens regular or deodorized menhaden oil on production parameters, Yolk fatty acid profile, and sensory quality of eggs. Journal of Poultry Science 79, 1597 – 1602.

Grobas S, Mendez J, Lazaros R, Blas CD, Mateos GG, De BC. 2001. Influence of source of fat added to diet on performance and fatty acid composition of egg yolks of two strains of laying hens. Journal of Poultry Science 80, 1171– 1179.

Grundy BM. 1989. Monounsaturated fatty acids plasma cholesterol and coronary heart disease. Animal journal clinical Nutrition 45, 1168-75.

Hargis PS, Van Elswyk ME, Hargis BM. 1991. Dietary modification of yolk lipids with menhaden oil. Journal of Poultry Science 70, 874 – 883.

Harris WS. 1989. Fish oils and plasma lipid and lipoprotein metabolism in human. Journal of lipids research 30, 785-190.

Hermier D, Dillon J. 1992. Characterization of dietary induced hypercholesterolemia in the chicken. Biochimica et Biophysica Acta 11, 178 – 184.

Jiang Z, Ahn DU, Lander L, Sim JSm. 1992. Influence of feeding full-flax and sunflower seeds on internal and sensory qualities of eggs. Journal of Poultry Science 71, 378 –382.

Kahraman R, Ozpınar H, Yavuz Pekel A, Kutay HC, Abaş İ, Keser O. 2004. Yumurta tavuklarında farklı yağ asiti kaynaklarının yumurta verimi ve kalitesine etkisi. GIDA ve YEN BİLİMİ-TEKIİOLOJİ5İ., Sayı 5. Sayfa 19.

Kamran Azad S, Rahimi Sh, Karimi Torshizi MA. 2009. Effect of dietary oil seeds on n-3 fatty acid enrichment, performance parameters and humoral immune response of broiler chichens. Iranian Journal of Veterinary Research, 10 (o2), Ser. No. 27.

King EJ, Hugo A, Witt FH, Merwe HJ, Fair MD. 2012. Effect of dietary fat source on fatty acid profile and lipid oxidation of eggs. South African Journal of Animal Science 42, Issue 5, 503-506.

Lewis CJ. 2000. Letter-regarding dietary supplement health claim for omega-3 fatty acids and coronary heart disease. American Journal of Clinical Nutrition 50, 83-92.

Marrugat J, Covas MI, Fito M, Miro-Casas E, Gimeno E, Lopez-Sabater MC, De La Torre R, Fare M. 2003. Effects of differing phenolic content in dietary olive oils on lipids and LDL oxidation. European Journal of Nutrition 43, 140-147.

Mazalli MR, Faria DE, Salvador D, Ito DT. 2004. A comparison of the feeding value of different sources of fat for laying hens: 2. lipid, cholesterol, and vitamin E profiles of egg yolk. The Journal of Applied Poultry Research 13, 280-290.

Mazalli MR, Faria DE, Salvador D, Ito DT. 2004. A comparison of the feeding value of different sources of fats for laying hens: 1. Performance characteristics. The Journal of Applied Poultry Research 13, 274 –279.

Meluzzi A, Sirri F, Manfreda G, Tallarico N, Franchini A. 2000. Effects of dietary vitamin E on the quality of table eggs enriched with n-3 long chain fatty acids. Journal of Poultry Science 79, 539– 545.

Mori AV, Mendonca CX, Santos COF. 1999. Effect of dietary lipid lowering drugs upon plasma lipids and egg-yolk cholesterol levels of laying hens. Journal of Agriculture and Food Sciences 47, 4731 – 4735.

Najib H, Al-Khateeb SA. 2004. The effect of incorporating different levels of locally produced canola seeds (Brassica napus L.) in the diet of laying hen. International Journal of Poultry Science 3(7), 490– 496.

Nakamura MT, Cho HP, Xu J, Tang Z, Clarke SD. 2001. Metabolism and functions of highly unsaturated fatty acids: An update. Lipids 36, 961-964.

Nestel PJ, Corner WE, Reardon MF, Connor S, Wong S, Drevon CA. 1984. Suppression by diets rich in fish oil of very density lipoprotein production in man. Journal of clinical investigation 74, 82-90.

Novak C, Scheideler SE. 2001. Long-term effects of feeding linseed-based diets. 1. Egg production parameters, components, and eggshell quality in two strains of laying hens. Journal of Poultry Science 80, 1480 – 1489.

Özkan Y, Koca SS. 2006. Hiperlipidemi tedavisinde omega-3 yağ asidinin (balık yağı) etkinliği. Fırat Tıp Dergisi 11(1), 40-44.

Pappas AC, Acamovic T, Sparks NHC, Surai PF, McDevitt RM. 2005. Effects of supplementing broiler breeder diets with organic selenium and polyunsaturated fatty acids on egg quality during storage. Journal of Poultry Science 84, 865– 865.

Patterson PH, Koelkebeck KW, Bell DD, Carey JB, Anderson KE, Darre MJ. 2001. Egg marketing in national supermarkets: Specialty eggs-Part 2. Journal of Poultry Science 80, 390 –395.

Raes K, Huyghebaert G, De Smet S, Nollet L, Arnouts S, Demeyer D. 2002. The deposition of conjugated linoleic acids in eggs of laying hens fed diets varying in fat level and fatty acid profile. Journal of Nutrition 132, 182–189.

Richardson AJ. 2004. Long Chain Polyunsaturated Fatty Acids in Childhood Developmental and Psychiatric Disorders. Journal of Lipids 39, 1215-1223.

Sadeghi AA, Iravani H, Karimi M, Chamani M. 2012. Fatty acids profiles in meat of broiler chicks fed diet containing corn oil switched to fish oil at different weeks of age. World Applied Sciences Journal 18 (2), 159-165.

Scheideler SE, Froning GW. 1996. The combined influence of dietary linseed variety, level form and storage conditions on egg production and composition among vitamin E supplemented hens. Journal of Poultry Science 75, 1221–1226.

Schreiner M, Hulan HW, Razzazi-Fazeli E, Bohm J, Iben C. 2004. Feeding laying hens seal blubber oil: Effects on egg yolk incorporation, stereospecific distribution of omega-3 fatty acids, and sensory aspects. Journal of Poultry Science 83, 462–473.

Schumann BE, Squires EJ, Leeson S. 2000. Effect of dietary linseed, flax oil and n-3 fatty acid supplementation on hepatic and plasma characteristics relevant to fatty liver haemorrhagic syndrome in laying hens. British Journal of Poultry Science 41, 465–472.

Shahriar H, Nazer adl K, Ebrahim Nezhad Y. 2008. Effet of dietry fat type and different levels of vitamin E on broiler bredder performance and vitamin E levels of egg. Asian journal of Animal and veterinary Advances 3(3), 147-154.

Shi SR, Lu J, Tong HB, Zou JM, Wang KH. 2012. Effects of graded replacement of soybean meal by sunflower seed meal in laying hen diets on hen performance, egg quality, egg fatty acid composition, and cholesterol content. Journal of applied poultry research 21, 367–374.

Silke HS, Nutztierethologie FG, Kleintierzucht U. 2008. Effect of genetic types with two types of dietary fats on performance and egg yolk fatty acids in laying hens. Eur. Journal of Poultry Science 72, 177–184.

Simopoulos AP. 1999. Essential fatty acids in health and chronic disease. The American Journal of Clinical Nutrition 70, 560–569.

Sosin E, Borowiec F, Strzetelski J, Smulikowska S. 2006.The effect of feeding regular or low a-linolenic acid linseed on the fatty acid composition of egg yolks. Journal of Animal and Feed Sciences 15, 641–650.

Souza JG, Costa FGP, Queiroga RCRE, Silva JHV, Schuler ARP, Goulart CC. 2008. Fatty acid profle of eggs of semi-heavy layers fed feeds containing linseed oil. Brazilian Journal of Poultry Science 10, 37-44.

Speake BK, Murray AMB, Noble RC. 1998. Transport and transformations of yolk lipids during development of the avian embryo. Progress in Lipid Research 37, 1-32.

Sprecher H. 2000. Metabolism of highly unsaturated n-3 and n-6 fatty acids. Biochimica et Biophysica Acta 1486, 219-231.

Svedova M, Vasko L, Trebunova A, Kastel R, Tuckova M, Certık M. 2008. Influence of linseed and fish oil on metabolic and immunological indicators of laying hens. Acta Veterinaria Brno 77, 39–44.

Tsuzuki Et, Garcia ER deM, Murakami AE, Sakamoto MI, Galli JR. 2003. Utilization of sunflower seed in laying hen rations. Revista Brasileira de Ciência Avícola V.5, N.3, 179 – 182.

Van Elswyk ME. 1997. Nutritional and physiological effects of flax seed in diets for laying fowl. World’s poultry Science 53, 253–264.

Vieira SL, Moran ET. 1998. Broiler yields using chicks from extremes in breeding age and dietary propionate. Journal of Applied Poultry Research 7, 320-327.

Watkins BA. 1987. Feed grade fats and oils for poultry: nutrition and metabolism. Arq. Bras. Med. Vet. Zootec. – Instructions, September 45-54.

Whitehead CC, Bowman AS, Griffin HD. 1993. Regulation of plasma estrogens by dietary fats in laying hen: Relationships with egg weight. British Journal of Poultry Sciencei 34, 999–1010.

Yannakopoulos AL, Tserveni-Gousi AS, Yannakakis S. 1999. Effect of feeding linseed to laying hens on the performance and egg quality and fatty acid composition of egg yolk. Archiv fur Geflugelkunde 63, 260–263.

Zyriax BC, Windler E. 2000. Dietary fat in the prevention of cardiovascular disease. A review. European Journal of Lipid Science and Technology 102, 355–365.