Advanced search
Publication Cover
International Journal of Food Properties Volume 21, 2018 - Issue 1
Submit an article Journal homepage
997
Views
10
CrossRef citations to date
0
Altmetric
Original Article

Fatty acid profile of meat (Longissimus lumborum) from female roe deer (Capreolus capreolus L.) and red deer (Cervus elaphus L.)

Tomasz DaszkiewiczDepartment of Commodity Science and Processing of Animal Raw Materials, University of Warmia and Mazury in Olsztyn, Olsztyn, PolandCorrespondence[email protected]
View further author information
&
Dominika MesingerDepartment of Commodity Science and Processing of Animal Raw Materials, University of Warmia and Mazury in Olsztyn, Olsztyn, PolandView further author information
Pages 2276-2282 | Received 05 May 2018, Accepted 30 Jul 2018, Published online: 12 Sep 2018

References

  • Briggs, M.A.; Petersen, K.S.; Kris-Etherton, P.M. Saturated Fatty Acids and Cardiovascular Disease: Replacements for Saturated Fat to Reduce Cardiovascular Risk. Healthcare. 2017,5(2), 29. pii: E29. DOI: 10.3390/healthcare5020029.
  • Keys, A.; Anderson, J.T.; Grande, F. Serum Cholesterol Response to Changes in the Diet: IV. Particular Saturated Fatty Acids in the Diet. Metabolism 1957, 14(7), 747–787. DOI: 10.1016/0026-0495(65)90001-6.
  • Moloney, A.P.;. Potential of Animal Nutrition to Decrease the Saturated Fatty Acids in Meat and Milk. Lipid Technology 2012, 24(9), 199–2003. DOI: 10.1002/lite.201200220.
  • U.S. Department of Health and Human Services and U.S. Department of Agriculture. 2015-2020 Dietary Guidelines for Americans. 8th Edition. December 2015. Retrieved from https://health.gov/dietaryguidelines/2015/guidelines/.
  • Wood, J.D.; Richardson, R.I.; Nute, G.R.; Fisher, A.V.; Campo, M.M.; Kasapidou, E.; Sheard, P.R.; Enser, M. Effects of Fatty Acids on Meat Quality: A Review. Meat Science 2004, 66(1), 21–32. DOI: 10.1016/S0309-1740(03)00022-6.
  • Szostak-Węgierek, D.; Kłosiewicz-Latoszek, L.; Szostak, W.B.; Cybulska, B. The Role of Dietary Fats for Preventing Cardiovascular Disease. A Review. Roczniki Państwowego Zakładu Higieny Państwowy Zakład Higieny 2013, 64(4), 263–269.
  • Valencak, T.G.; Gamsjäger, L.; Ohrnberger, S.; Culbert, N.J.; Ruf, T., Healthy N-6/N-3 Fatty Acid Composition from Five European Game Meat Species Remains after Cooking. BMC Research Notes 2015, 8, 273–278. DOI: 10.1186/s13104-015-1254-1.
  • Simopoulos, A.P.;. The Mediterranean Diets. What Is so Special about the Diet of Greece? the Scientific Evidence. The Journal of Nutrition 2001, 131(11Suppl.), 3065S–3073S. DOI: 10.1093/jn/131.11.3065S.
  • Cordain, L.; Eaton, S.B.; Sebastian, A.; Mann, N.; Lindeberg, S.; Watkins, B.A.; O’Keefe, J.H.; Brand-Miller, J. Origins and Evolution of the Western Diet: Health Implications for the 21st Century. The American Journal of Clinical Nutrition 2005, 81(2), 341–354. DOI: 10.1093/ajcn.81.2.341.
  • Givens, D.I.;. Milk and Meat in Our Diet: Good or Bad for Health?. Animal 2010, 4(12), 1941–1952. DOI: 10.1017/S1751731110001503.
  • McAfee, A.J.; McSorley, E.M.; Cuskelly, G.J.; Moss, B.W.; Wallace, J.M.W.; Bonham, M.P.; Fearon, A.M. Red Meat Consumption: An Overview of the Risks and Benefits. Meat Science 2010, 84(1), 1–13. DOI: 10.1016/j.meatsci.2009.08.029.
  • McNeill, S.H.;. Inclusion of Red Meat in Healthful Dietary Patterns. Meat Science 2014, 98(3), 452–460. DOI: 10.1016/j.meatsci.2014.06.028.
  • Florek, M.; Drozd, L. Bioactive Compounds in Deer Meat. Medycyna Weterynaryjna 2013, 69(9), 535–539.
  • Nuernberg, K.; Nuernberg, G.; Dannenberger, D. Nutrient and Lipid Composition of Muscle in Wild Animals. Fleischwirtschaft 2009, 89, 99–102.
  • Hoffman, L.C.; Wiklund, E. Game and Venison - Meat for the Modern Consumer. Meat Science 2006, 74(1), 197–208. DOI: 10.1016/j.meatsci.2006.04.005.
  • Strazdina, V.; Jemeljanovs, A.; Sterna, V. Fatty Acids Composition of Elk, Deer, Roe Deer and Wild Boar Meat Hunted in Latvia. World Academy of Science, Engineering and Technology. International Journal of Animal and Veterinary Sciences 2012, 6(9), 765–768.
  • AOAC. Official Methods of Analysis, 18th ed.; Association of Official Analytical Chemists: Arlington, VA, USA, 2010.
  • Żegarska, Z.; Jaworski, Z.; Borejszo, Z. Evaluation of the Peisker Modified Method for Extracting Methyl Esters from Fatty Acids. Acta Academiae Agriculturae Ac Technicae Olstenensis. Technologia Alimentarum 1991, 24, 25–33.
  • StatSoft, Inc. STATISTICA (Data Analysis Software System), Version 12; Tulsa, OK, USA, 2014. www.statsoft.com.
  • Wyness, L.; Weichselbaum, E.; O’Connor, A.; Williams, E.B.; Benelam, B.; Riley, H.; Stanner, S. Red Meat in the Diet: An Update. Nutrition Bulletin 2011, 36, 34–77. DOI: 10.1111/j.1467-3010.2010.01871.x.
  • Luz Fernandez, M.; West, K.L. Mechanisms by Which Dietary Fatty Acids Modulate Plasma Lipids. The Journal of Nutrition 2005, 135(9), 2075–2078. DOI: 10.1093/jn/135.9.2075.
  • Mustad, V.A.; Ellsworth, J.L.; Cooper, A.D.; Etherton, T.D. Dietary Linoleic Acid Increases and Palmitic Acid Decreases Hepatic LDL Receptor Protein and mRNA Abundance in Young Pigs. Journal of Lipid Research 1996, 37(11), 2310–2323.
  • Mensink, R.P.; Katan, M.B. Effect of Dietary Faty Acids on Serum Lipids and Lipoproteins: A Meta-Analysis of 27 Trials. Arteriosclerosis Thrombosis and Vascular Biology 1992, 12(8), 911–919. DOI: 10.1161/01.ATV.12.8.911.
  • Siri-Tarino, P.W.; Sun, Q.; Hu, F.B. Saturated Fat, Carbohydrate, and Cardiovascular Disease. The American Journal of Clinical Nutrition 2010, 91(3), 502–509. DOI: 10.3945/ajcn.2008.26285.
  • Emken, E.A.;. Metabolism of Dietary Stearic Acid Relative to Other Fatty Acids in Human Subjects. The American Journal of Clinical Nutrition 1994, 60(6Suppl.), 1023S–1028S. DOI: 10.1093/ajcn/60.6.1023S.
  • Purchas, R.W.; Triumf, E.C.; Egelandsdal, B. Quality Characteristics and Composition of the Longissimus Muscle in the Short-Loin from Male and Female Farmed Red Deer in New Zealand. Meat Science 2010, 86(2), 505–510. DOI: 10.1016/j.meatsci.2010.05.043.
  • Polak, T.; Rajar, A.; Gašperlin, L.; Žlender, B. Cholesterol Concentration and Fatty Acid Profile of Red Deer (Cervus Elaphus) Meat. Meat Science 2008, 80(3), 864–869. DOI: 10.1016/j.meatsci.2008.04.005.
  • Cygan-Szczegielniak, D.; Janicki, B. Influence of Age and Sex on the CLA and Other Fatty Acids Content in Roe Deer Meat (Capreolus Capreolus L.). Folia Biologica (Krakow) 2011, 59(1–2), 19–24. DOI: 10.3409/fb59_1-2.19-24.
  • Razmaitė, V.; Šiukščius, A.; Pileckas, V.; Švirmickas, G.J. Effect of Different Roe Deer Muscles on Fatty Acid Composition in Intramuscular Fat. Annals of Animal Science 2015, 15(3), 775–784. DOI: 10.1515/aoas-2015-0012.
  • Jenkins, T.C.; Wallace, R.J.; Moate, P.J.; Mosley, E.E. Board-Invited Review: Recent Advances in Biohydrogenation of Unsaturated Fatty Acids within the Rumen Microbial Ecosystem. Journal of Animal Science 2008, 86(2), 397–412. DOI: 10.2527/jas.2007-0588.
  • Scollan, N.D.; Dannenberger, D.; Nuernberg, K.; Richardson, I.; MacKintosh, S.; Hocquette, J.F.; Moloney, A.P. Enhancing the Nutritional and Health Value of Beef Lipids and Their Relationship with Meat Quality. Meat Science 2014, 97(3), 384–394. DOI: 10.1016/j.meatsci.2014.02.015.
  • Obidziński, A.; Kiełtyk, P.; Borkowski, J.; Bolibok, L.; Remuszko, K. Autumn-Winter Diet Overlap of Fallow, Red, and Roe Deer in Forest Ecosystems, Southern Poland. Central European Journal of Biology 2013, 8(1), 8–17. DOI: 10.2478/s11535-012-0108-2.
  • Storms, D.; Aubry, P.; Hamann, J.-L.; Saïd, S.; Fritz, H.; Saint-Andrieux, C.; Klein, F. Seasonal Variation in Diet Composition and Similarity of Sympatric Red Deer Cervus Elaphus and Roe Deer Capreolus Capreolus. Wildlife Biology 2008, 14(2), 237–250. DOI: 10.2981/0909-6396(2008)14[237SVIDCA]2.0.CO;2:.
  • De Smet, S.; Raes, K.; Demeyer, D. Meat Fatty Acid Composition as Affected by Fatness and Genetic Factors: A Review. Animal Research 2004, 53(2), 81–98. DOI: 10.1051/animres:2004003.
  • Dinh, T.T.N.; Blanton, J.R., Jr; Riley, D.G.; Chase, C.C., Jr; Coleman, S.W.; Phillips, W.A.; Brooks, J.C.; Miller, M.F.; Thornpson, L.D. Intramuscular Fat and Fatty Acid Composition of Longissimus Muscle from Divergent Pure Breeds of Cattle. Journal of Animal Science 2010, 88(2), 756–766. DOI: 10.2527/jas.2009-1951.
  • Jacyno, E.; Pietruszka, A.; Kawęcka, M.; Biel, W.; Kołodziej-Skalska, A. Phenotypic Correlations of Backfat Thickness with Meatiness Traits, Intramuscular Fat, Longissimus Muscle Cholesterol and Fatty Acid Composition in Pigs. South African Journal of Animal Science 2015, 45(2), 122–128. DOI: 10.4314/sajas.v45i2.2.
  • Yousefi, A.R.; Kohram, H.; Shahneh, A.Z.; Nik-Khah, A.; Campbell, A.W. Comparison of the Meat Quality and Fatty Acid Composition of Traditional Fat-Tailed (Chall) and Tailed (Zel) Iranian Sheep Breeds. Meat Science 2012, 92(4), 417–422. DOI: 10.1016/j.meatsci.2012.05.004.
  • Scollan, N.; Hocquette, J.; Nuernberg, K.; Dannenberger, D.; Richardson, I.; Moloney, A. Innovations in Beef Production Systems that Enhance the Nutritional and Health Value of Beef Lipids and Their Relationship with Meat Quality. Meat Science 2006, 74(1), 17–33. DOI: 10.1016/j.meatsci.2006.05.002.
  • Papuc, C.; Goran, G.V.; Predescu, C.N.; Nicorescu, V. Mechanisms of Oxidative Processes in Meat and Toxicity Induced by Postprandial Degradation Products: A Review. Comprehensive Reviews in Food Science and Food Safety 2017, 16(6), 96–123. DOI: 10.1111/1541-4337.12298.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.