【 摘 要 】

Chicken meat nutritional value with regard to fatty acid composition and selenium content depends on the choice of dietary oil and selenium level used in the chickens’ feed. The objective of this study was to investigate the effect of replacing commonly used rendered animal fat as a dietary source of saturated fatty acids and soybean oil as a source of unsaturated fatty acids, with palm oil and red palm oil in combinations with rapeseed oil, linseed oil and two levels of selenium enriched yeast on chicken breast meat nutritional value. The study also wished to see whether red palm oil had a cholesterol lowering effect on chicken plasma.

204 male, newly hatched broiler chickens were randomly divided into twelve dietary treatment groups, and individually fed one out of six dietary fat combinations combined with either low (0.1 mg Se /kg feed) or high (1 mg Se/kg feed) dietary selenium levels. Linseed oil, independent of accompanying dietary fat source, lead to increased levels of the n-3 EPA, DPA and DHA and reduced levels of the n-6 arachidonic acid (AA). The ratio between AA/EPA was reduced from 19/1 in the soybean oil dietary groups to 1.7/1 in the linseed oil dietary groups. Dietary red palm oil reduced total chicken plasma cholesterol levels. There were no differences between the dietary groups with regard to measured meat antioxidant capacity or sensory evaluation. Chicken meat selenium levels were clearly influenced by dietary selenium levels, but were not influenced by feed fatty acid composition. High dietary selenium level lead to marginally increased n-3 EPA and higher meat fat % in breast muscle but did not influence the other LC PUFA levels. Chicken breast meat nutritional value from the soybean oil and low selenium dietary groups may be regarded as less beneficial compared to the breast meat from the linseed oil and high selenium dietary groups. Replacing rendered animal fat with palm oil and red palm oil had no negative effects on chicken muscle nutritional value with regard to fatty acid composition. Red palm oil decreased total chicken plasma cholesterol, confirming the cholesterol reducing effect of this dietary oil.

【 授权许可】

   
2013 Nyquist et al.; licensee BioMed Central Ltd.

【 预 览 】

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【 参考文献 】

• [1]Nettleton JA: Omega-3-fatty acids, comparison of plant and seafood sources in human nutrition. J Am Diet Assoc 1991, 91(3):331-337.
• [2]De Gŏmez Dumm IN, Brenner RR: Oxidative desaturation of alpha-linoleic, linoleic, and stearic acids by human liver microsomes. Lipids 1975, 10(6):315-317.
• [3]Ikeda I, Wakamatsu K, Inayoshi A, Imaizumi K, Sugano M, Yazawa K: Alpha-linolenic, eicosapentaenoic and docosahexaenoic acids affect lipid-metabolsim differently in rats. J Nutr 1994, 124(10):1898-1906.
• [4]An BK, Banno C, Xia ZS, Tanaka K, Ohtani S: Effects of dietary fat sources on lipid metabolism in growing chicks (gallus domesticus). Comp Biochem Physiol B Biochem Mol Biol 1997, 116(1):119-125.
• [5]Animalia: Status i norsk kjøtt- og eggproduksjon. 2011, 91. [Kjøttets tilstand]
• [6]Utvikling i norsk kosthold 2012. Norway, Helsedirektoratet rapport IS 2036 http://www.helsedirektoratet.no/publikasjoner/utviklingen-i-norsk-kosthold2012/Sider/default.aspx webcite. Assessed March 2012
• [7]FAO: Review of the state of world marine fishery resources. Volume 457. Rome: Food and agriculture organization of the united nations; 2005. [FAO Fisheries tehnical paper]
• [8]Fritsche KL, Cassity NA, Huang SC: Effect of dietary fats on the fatty acid compositions of serum and immune tissues in chickens. Poult Sci 1991, 70(5):1213-1222.
• [9]Calder PC, Yaqoob P: Marine omega-3 fatty acids and coronary heart disease. Curr Opin Cardiol 2012, 27(4):412-419.
• [10]Calder PC: Fatty acids and inflammation: the cutting edge between food and pharma. Eur J Pharmacol 2011, 668:S50-S58.
• [11]Mistry HD, Broughton PF, Redman CWG, Poston L: Selenium in reproductive health. Am J Obstet Gynecol 2012, 206(1):21-30.
• [12]Rayman MP: The importance of selenium to human health. Lancet 2000, 356(9225):233-241.
• [13]Christophersen OA, Haug A: Animal products, diseases and drugs: a plea for better integration between agricultural sciences, human nutrition and human pharmacology. Lipids Health Dis 2011, 10:16. BioMed Central Full Text
• [14]Haug A, Christophersen OA, Sogn T: Chicken meat rich in selenium and omega-3 fatty acids, and human health. Open Agr J 2011, 5:30-36.
• [15]Matvaretabellen.no. : The Norwegian Food Safety Authority; 2012. http://www.matvaretabellen.no/ webcite
• [16]Pappas AC, Zoidis E, Papadomichelakis G, Fegeros K: Supranutritional selenium level affects fatty acid composition and oxidative stability of chicken breast muscle tissue. J Anim Physiol Anim Nutr 2012, 96(3):385-394.
• [17]Haug A, Eich- Greatorex S, Bernhoft A, Wold JP, Hetland H, Christophersen OA, Sogn T: Effect of dietary selenium and omega-3 fatty acids on muscle composition and quality in broilers. Lipids Health Dis 2007., 6(29)
• [18]Oguntibeju OO, Esterhuyse AJ, Truter EJ: Red palm oil: nutritional, physiological and therapeutic roles in improving human wellbeing and quality of life. Br J Biomed Sci 2009, 66(4):216-222.
• [19]Wilson TA, Nicolosi RJ, Kotyla T, Sundram K, Kritchevsky D: Different palm oil preparations reduce plasma cholesterol concentrations and aortic cholesterol accumulation compared to coconut oil in hypercholesterolemic hamsters. J Nutr Biochem 2005, 16(10):633-640.
• [20]Ng TKW, Hassan K, Lim JB, Lye MS, Ishak R: Non hypercholesterolemic effects of a palm-oil diet in Malasian volunteers American. J Clin Nutr 1991, 53(4):S1015-S1020.
• [21]Qureshi AA, Peterson DM: The combined effects of novel tocotrienols and lovastatin on lipid metabolism in chickens. Atherosclerosis 2001, 156(1):39-47.
• [22]O’Fallon JV, Busboom JR, Nelson ML, Gaskins CT: A direct method for fatty acid methyl ester synthesis: application to wet meat tissues, oils, and feedstuffs. J Anim Sci 2007, 85(6):1511-1521.
• [23]Mielnik MB, Aaby K, Skrede G: Commercial antioxidants control lipid oxidation in mechanically deboned turkey meat. Meat Sci 2003, 65(3):1147-1155.
• [24]Brand-Williams W, Cuvelier M, Berset C: Use of a free radical method to evaluate antioxidant activity. Lebensm Wiss Technol 1995, 28:25-30.
• [25]Scaife JR, Moyo J, Galbraith H, Michie W, Campbell V: Effect of different dietary supplemental fats and oils on the tissue fatty-acid composition and growth of female broilers. Br Poult Sci 1994, 35(1):107-118.
• [26]Bou R, Guardiola F, Barroeta AC, Codony R: Effect of dietary fat sources and zinc and selenium supplements on the composition and consumer acceptability of chicken meat. Poult Sci 2005, 84(7):1129-1140.
• [27]Smink W, Gerrits WJJ, Hovenier R, Geelen MJH, Lobee HWJ, Verstegen MWA, Beynen AC: Fatty acid digestion and deposition in broiler chickens fed diets containing either native or randomized palm oil. Poult Sci 2008, 87(3):506-513.
• [28]Wongsuthavas S, Yuangklang C, Vasupen K, Mitchaotha J, Alhaidary A, Mohamed HE, Beynen AC: Fatty acid metabolism in broiler chickens fed diets either rich in linoleic or alpha-linolenic acid. Asian J Anim Vet Adv 2011, 6(3):282-289.
• [29]Ratnayake WMN, Galli C: Fat and fatty acid terminology, methods of analysis and fat digestion and metabolism: a background review paper. Ann Nutr Metab 2009, 55(1–3):8-43.
• [30]Simopoulos AP: The importace of the ratio of omega-6/omega-3 essential fatty acids. Biomed Pharmacother 2002, 56:365-379.
• [31]Calder PC: Polyunsaturated fatty acids and inflammation. Prostaglandins Leukot Essent Fatty Acids 2006, 75(3):197-202.
• [32]Haug A, Nyquist NF, Mosti TJ, Andersen M, Hostmark AT: Increased EPA levels in serum phospholipids of humans after four weeks daily ingestion of one portion chicken fed linseed and rapeseed oil. Lipids Health Dis 2012, 11:104. BioMed Central Full Text
• [33]Mat på Data M, Norway. 2012. http://matportalen.no/verktoy/mat_pa_data/ webcite. Assessed March 2012: Matportalen.no. In
• [34]EFSA: Labelling reference intake values for n-3 and n-6 polyunsaturated fatty acids. The EFSA Journal 2009, 1176:1-11.
• [35]Kralik Z, Kralik G, Grcevic M, Suchy P, Strakovà E: Effect of increased content of organic selenium in feed on the selenium content and fatty acid profile in broiler breast meat. Acta Vet Brno 2012, 81:031-035.
• [36]NRC: Nutrient requirements of poultry. 9th edition. Washington D.C: National Academy Press; 1994. [NRC, 1994 Ninth Revised Edition]
• [37]Haug A, Eich-Greatorex S, Bernhoft A, Hetland H, Sogn T: Selenium bioavailability in chicken fed selenium-fertilized wheat. Acta Agriculturae Scandinavica 2008, 58(2):65-70.
• [38]Zanini SF, Torres CAA, Bragagnolo N, Turatti JM, Silva MG, Zanini MS: Lipid composition and vitamin E concentration in cockerel meat. Lebenson Wiss Technol 2003, 36(7):697-702.
• [39]Hsieh HF, Chiang SH, Lu MY: Effect of dietary monounsaturated/saturated fatty acid ratio on fatty acid composition and oxidative stability of tissues in broilers. Anim Feed Sci Technol 2002, 95(3–4):189-204.
• [40]Rebole A, Rodriguez ML, Ortiz LT, Alzueta C, Centeno C, Viveros A, Brenes A, Arija I: Effect of dietary high-oleic acid sunflower seed, palm oil and vitamin E supplementation on broiler performance, fatty acid composition and oxidation susceptibility of meat. Br Poult Sci 2006, 47(5):581-591.
• [41]Kris-Etherton PM, Pearson TA, Wan Y, Hargrove RL, Moriarty K, Fishell V, Etherton T: High-monounsaturated fatty acid diets lower both plasma cholesterol and triacylglycerol concentrations. Am J Clin Nutr 1999, 70(6):1009-1015.
• [42]Yaqoob P, Knapper JA, Webb DH, Williams CM, Newsholme EA, Calder PC: Effect of olive oil on immune function in middle-aged men. Am J Clin Nutr 1998, 67(1):129-135.
• [43]Matvaretabellen. http://www.matvaretabellen.no/ webcite. In. accessed August 2012
• [44]NNR: Nordic Nutrition Recommendations 2004. Copenhagen, Denmark: Ministers NCo; 2004.
• [45]Khor HT, Chieng DY, Ong KK: Tocotrienols inhibit liver HMG CoA reductase-activity in the guinea-pig. Nutr Res 1995, 15(4):537-544.
• [46]Parker RA, Pearce BC, Clark RW, Gordon DA, Wright JJK: Tocotrienols regulate cholesterol production in mammalian-cells by posttranscriptional suppression of 3-hydroxy-3-methylglutaryl-coenzyme-A-reductase. J Biol Chem 1993, 268(15):11230-11238.
• [47]Jeger R, Dieterle T: Statins: have we found the Holy Grail? Swiss Med Wkly 2012, 142:1-4.
• [48]Renaud SC, Ruf JC, Petithory D: The positional distribution of fatty acids in palm oil and lard influences their biological effects in rats. J Nutr 1995, 125(2):229-237.
• [49]Elson CE: Tropical oils-nutritional and scientific issues. Crit Rev Food Sci Nutr 1992, 31(1–2):79-102.
• [50]Carr TP, Cornelison RM, Illston BJ, Stuefer-Powell CL, Gallaher DD: Plant sterols alter bile acid metabolism and reduce cholesterol absorption in hamsters fed a beef-based diet. Nutr Res 2002, 22(6):745-754.
• [51]Choi YS, Goto S, Ikeda I, Sugano M: Effect of dietary n-3 polyunsaturated fatty acids on cholesterol synthesis and degradation in rats of different ages. Lipids 1989, 24(1):45-50.
• [52]Hood RL: Research note: effects of dietary fats on hepatic cholesterol synthesis in Japanese quail. Poult Sci 1991, 70(8):1848-1850.
• [53]Miezeliene A, Alencikiene G, Gruzauskas R, Barstys T: The effect of dietary selenium supplementation on meat quality of broiler chickens. Biotechnologie Agronomie Societe Et Environnement 2011, 15:61-69.
• [54]Betti M, Schneider BL, Wismer WV, Carney VL, Zuidhof MJ, Renema RA: Omega-3-enriched broiler meat: 2. Functional properties, oxidative stability, and consumer acceptance. Poult Sci 2009, 88(5):1085-1095.