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Омега-3 жирные кислоты: научный обзор

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*Allaire J., Couture P., Leclerc M. et al. Randomized, crossover, head-to-head comparison of EPA and DHA supplementation to reduce inflammation markers in men and women: the Comparing EPA to DHA Study. Am.J.Clin.Nutr., 2016, doi: 10.3945/ajcn.116.131896.*Bailes J.E., Patel, V. The Potential for DHA to Mitigate Mild Traumatic Brain Injury. Military Medicine, 2014, 179, 11:112. *Balvers M.G., Verhoeck K.C., Plastina P. et al. Docosahexaenoic acid and eicosapentaenoic acid are converted by 3T3-L1 adipocytes to N-acyl ethanolamines with anti-inflammatory properties. Biochimica et Biophysica Acta, 2010, 1801(10): 1107-1114.*Barrett E.C., McBurney M.I., Ciappio E.D. v-3 Fatty Acid Supplementation as a Potential Therapeutic Aid for the Recovery from Mild Traumatic Brain Injury/Concussion. American Society for Nutrition. Adv. Nutr., 2014, 5: 268–277.*Bloomer R.J., Larson D.E., Fisher-Wellman K.H. et al. Effect of eicosapentaenoic and docosahexaenoic acid on resting and exercise-induced inflammatory and oxidative stress biomarkers: a randomized, placebo controlled, cross-over study. Lipids in health and disease, 2009, 8, 36.*Bortolotti M., Tappy L., Schneiter P. Fish oil supplementation does not alter energy efficiency in healthy males. Clin.Nutr., 2007, 26(2):225-230.*Brilla L.R., Landerholm T.E. Effect of fish oil supplementation and exercise on serum lipids and aerobic fitness. J.Sport Med.Phys.Fitn., 1990, 30:173-180.*Buckley J.D., Burgess S., Murphy K.J., Howe P.R. DHA-rich fish oil lowers heart rate during submaximal exercise in elite Australian Rules footballers. J.Sci.Med.Sport, 2009, 12(4):503-507.*Calder Ph.C. Mechanisms of Action of (n-3) Fatty Acids. J.Nutrition, 2012,1S-8S, doi: 10.3945/jn.111.155259.*Carlsen K.H., Anderson S.D., Bjermer L. et al. Exercise-induced asthma, respiratory and allergic disorders in elite athletes: epidemiology, mechanisms and diagnosis: Part I of the report from the Joint Task Force of the European Respiratory Society (ERS) and the European Academy of Allergy and Clinical Immunology (EAACI) in cooperation with GA2LEN. Allergy, 2008: 63: 387–403.*Clayton P., Rowbotham J. How the mid-Victorians worked, ate and died. Intern.J.Environ. Research and Public Health, 2009, 6(3): 1235–1253.*Clayton P.R., Saga L., Eide O. Fish oil, polyphenols, and physical performance. Sporto mokslas / Sport Science, 2015, 4(82): 2–7.*Colin A., Reggers J., Castronovo V., Ansseau M. Lipids, depression and suicide. Encephale, 2003, 29(1): 49–58.*R.L.Comum. Summary Comments from Workshop Day 1: Nutritional Armor for the Warfighter—Can Omega-3 Fatty Acids Enhance Stress Resilience, Wellness, and Military Performance? Military Medcine, 2014, 179, 11:181-184.*Conklin S.M., Reddy R.D., Muldoon M.F. et al. Fatty acids and psychiatric disorders. In: Chow C.K., editor. Fatty Acids in Foods and Their Health Implications, 1229-1256. Third. CRC Press; Boca Raton, FL: 2007.*Cooper S. Sprint-based Exercise and Cognitive Function in Young People. Conf. of Sport Science Department, Nottingham Trent University, 2016, 12 pp.*Corder K.E., Newsham K.R., McDaniel et al. Effects of Short-Term Docosahexaenoic Acid Supplementation on Markers of Inflammation after Eccentric Strength Exercise in Women. J. Sports Sci.Med., 2016, 15: 176-183.*Da Boit M., Mastalurova I., Brazaite G. et al. The Effect of Krill Oil Supplementation on Exercise Performance and Markers of Immune Function. PLOS ONE | DOI:10.1371/journal.pone.0139174 September 25, 2015, 14 pp.*Da Boit M., Hunter A.M.,, Gray S.R. Fit with good fat? The role of n-3 polyunsaturated fatty acids on exercise performance. Metabolism Clinical and Experimental. 2017, 66: 45-54. *DiLorenzo F.M., Drager C.J., Rankin J.W. Docosahexaenoic Acid affects markers of inflammation and muscle damage after eccentric exercise. J.Strength Cond.Res., 2014, 28(10): 2768-2774.*Donnelly J.E., Ch.H.Hillman, Castelli D. Physical Activity, Fitness, Cognitive Function, and Academic Achievement in Children: A Systematic Review. Med.Sci.Sports Exer., 2016, American College of Sports Medicine, 1197-1222.*Dyerberg J., Madsen P., Møller J.M. et al. Bioavailability of marine n-3 fatty acid formulations. Prostaglandins Leukot. Essent. Fatty Acids, 2010, 83(3):137-141.*Forbes S.C. Omega-3 combined with exercise on cognitive function in older adults. Eld.Nutrition, 2016, 27(3):42-45.*Guilliams T. Choosing the Best Marine-derived Omega-3 Products for Therapeutic Use: An Evaluation of the Evidence. Technical Report. Choosing the Best Marine-derived Omega-3 Products for Therapeutic Use: An Evaluation of the Evidence. October 2013.*Guzman J.F., Esteve H., Pablos C. et al. DHA – rich fish oil improves complex reaction time in female elite soccer players. J.Sports Sci.Med., 2011, 10: 301-305.*Hasadsri L., Wang B.H., Lee J.V. Omega-3 Fatty Acids as a Putative Treatment for Traumatic Brain Injury. J.Neurotrauma, 2013, 30:897–906.*Hibbeln J.R., Gow R.V. The Potential for Military Diets to Reduce Depression, Suicide, and Impulsive Aggression: A Review of Current Evidence for Omega-3 and Omega-6 Fatty Acids. Military Medicine, 2014, 179, 11:117-128.*Hill A.M., Buckley J.D., Murphy K.J.,.Howe P.R.C. Combining fish-oil supplements with regular aerobic exercise improves body composition and cardiovascular disease risk factors. Am.J.Clin.Nutr., 2007, 85:1267-1274.*Huffman D.M., Michaelson J.L., Thomas T.R. Chronic supplementation with fish oil increases fat oxidation during exercise in young men. J.Exerc.Physiol., 2004, 7(1): 48–56.*Irish Sports Council. Institute of Sport. Fish Oils. Technical Document Developed by INDI/SNIG for the Irish Sports Council 2013.*Jonas W.B. et al. «Military Medicine», Intern.J. of AMSUS, 2014, 179, 11(1): Suppl. Nutritional Armor: Omega-3 for the Warfighter, pp.198. *Jouris K.B., McDaniel J.L., Weiss E.P. The Effect of Omega-3 Fatty Acid Supplementation on the Inflammatory Response to eccentric strength exercise. J.Sports Sci.Med., 2011, 10(3): 432-438.*Krafczyk M.A., Asplund C.A. Exercise-Induced Bronchoconstriction: Diagnosis and Management. Am.Fam.Physician., 2011, 84(4):427-434.*Kreider R.B., Wilborn C.D., Taylor L. et al. ISSN exercise & sport nutrition review: research and recommendations. J.Intern.Soc.Sports Nutr., 2010, 7:7-50. *Kris-Etherton P.M., Harris W.S., Appel L.J. et al. Fish consumption, fish oil, omega-3 fatty acids, and cardiovascular disease. Circulation, 2002, 19, 106(21):2747-2757.*Krzymińska-Siemaszko R., Czepulis N., Lewandowicz M. et al. The effect of a 12-week omega-3 supplementation on body composition, muscle strength and physical performance in elderly individuals with decreased muscle mass. Intern.J.Envir.Res.Public Health, 2015,28,12(9): 10558–10574.*Kumar A., Mastana S.S., Lindley M.R. EPA/DHA dietary supplementation attenuates exercise-induced bronchoconstriction in physically active asthmatic males. Cogent.Medicine, 2016, 3:1-15.*Lembke P, Capodice J, Hebert K, Swenson T. Influence of omega-3 (n3) index on performance and wellbeing in young adults after heavy eccentric exercise. J.Sports Sci.Med., 2014, 13(1): 151–156.*Lenn J., Uhl T., Mattacola C. et al. The effects of fish oil and isoflavones on delayed onset muscle soreness. Med.Sci.Sports Exer., 2002, 34(10): 1605-1613.*Lewis E. J., Radonic P. W., Wolever T. M., Wells G. D. 21 days of mammalian omega-3 fatty acid supplementation improves aspects of neuromuscular function and performance in male athletes compared to olive oil placebo. J.Intern.Soc.Sports Nutr., 2015, 12:28.*Martins C., Morgan L., Truby H. A review of the effects of exercise on appetite regulation: an obesity perspective. Int.J.Obes., 2008, 32:1337-1347.*McGlory C., Wardle S.L., Macnaughton L.S. et al. Fish oil supplementation suppresses resistance exercise and feeding-induced increases in anabolic signaling without affecting myofibrillar protein synthesis in young men. Physiol.Rep., 2016, 4(6).*McKee A. C., Cantu R. C., Nowinski C. J. et al. Chronic traumatic encephalopathy in athletes: progressive tauopathy after repetitive head injury. J.Neuropathol.Exper. Neurol., 2009, 68(7): 709–735.*Meydani S.N., Endres S., Woods M.M. et al. Oral (n-3) fatty acid supplementation suppresses cytokine production and lymphocyte proliferation: Comparison between young and older women. The J.Nutr., 1991, 121: 547-555.*Mickleborough T.D., Murray R.L., Ionescu A.A., Lindley, M.R. Fish oil supplementation reduces severity of exercise-induced bronchoconstriction in elite athletes. Amer.J.Respiratory and Critical Care Medicine, 2003, 168, 1181–1189.*Mickleborough T.D., Rundell K.W. Dietary polyunsaturated fatty acids in asthma-and exercise-induced bronchoconstriction. Eur.J.Clin.Nutr., 2005, 59(12):1335-1346.*Mickleborough T.D., Lindley M.R., Ionescu A.A., Fly A.D. Protective effect of fish oil supplementation on exercise-induced bronchoconstriction in asthma. Chest., 2006,129(1):39-49.*Mickleborough T.D., Head S.K., Lindley M.R. Exercise-Induced Asthma: Nutritional Management. Nutrition and Ergogenic Aids, 2011, 10(4):197-202.*Mickleborough T.D. Omega-3 Polyunsaturated Fatty Acids in Physical Performance Optimization. Intern.J.Sport Nutr.Exer.Metab., 2013, 23:83-96.*Mickleborough T.D., Lindley M.R. Omega-3 fatty acids: A potential future treatment for asthma? Expert Review of Respiratory Medicine, 2013, 7, 577–580.*Mickleborough T.D., Lindley M.R. The Effect of Combining Fish Oil and Vitamin C on Airway Inflammation and Hyperpnea-Induced Bronchoconstriction in Asthma. J.Allergy Ther., 2014, 5(4): 10 pp.*Mills J.D., Bailes J.E., Sedney C.L. et al. Omega-3 fatty acid supplementation and reduction of traumatic axonal injury in a rodent head injury model. J.Neurosurgery, 2012, 116(6):77-84.*Mori T.A., Beilin L.J. Long-chain omega 3 fatty acids, blood lipids and cardiovascular risk reduction. Curr.Opin.Lipidol., 2001, 12(1):11-17.*Muldoon M.F., Ryan Ch.M.,, Yao J.K. et al. Long-chain Omega-3 Fatty Acids and Optimization of Cognitive Performance. Mil.Med. 2014, 179(11 0): 95–105.*Nakamoto K., Nishinaka T., Ambo A. et al. Possible involvement of beta-endorphin in docosahexaenoic acid-induced antinociception. Eur.J.Pharmacol., 2011, 666(1-3): 100-104.*Ninio D.M., Hill A.M., Howe P.R. et al. Docosahexaenoic acid-rich fish oil improves heart rate variability and heart rate responses to exercise in overweight adults. Br.J.Nutr., 2008, 100(5):1097-1103.*Omalu B. I., DeKosky S. T., Minster R. L. et al. Chronic traumatic encephalopathy in a National Football League player. Neurosurgery, 2005, 57: 128–134.*Omalu B. I., DeKosky S. T., Hamilton R. L. et al. Chronic traumatic encephalopathy in a national football league player: part II. Neurosurgery, 2006, 59:1086–1092.*Oostenbrug G.S., Mensink R.P., Hardeman M.R. et al. Exercise performance, red blood cell deformability, and lipid peroxidation: effects of fish oil and vitamin E. J. Appl. Physiol., 1997, 83(3):746–752. *Ouattas A., Haddad М., Riahi M.A. et al. Aerobic or Resistance Exercise Training to Improve Cognitive Function? Short Review. ICPESK 2015: 5th International Congress of Physical Education, Sports and Kinetotherapy, Eur.Proc.Soc.Behav.Sci., 2016, 90-95.*Parra D., Ramel A., Bandarra N. et al. A diet rich in long chain omega-3 fatty acids modulates satiety in overweight and obese volunteers during weight loss. Appetite, 2008, 51:676-680.*Peoples G.E., McLennan P.L., Howe P.R., Groeller H. Fish oil reduces heart rate and oxygen consumption during exercise. J.Cardiovasc.Pharmacol., 2008, 52(6):540-547.*Philpott J.D., Donnelly Ch., Walshe I.H. et al. Adding fish oil to a whey protein and carbohydrate beverage improves eccentric-exercise recovery in soccer players. Poster session, Conf.Health and Exercise Science Research Group, University of Stirling, Scotland, 2016. *Polus A., Zapala B., Razny U. et al. Omega-3 fatty acid supplementation influences the whole blood transcriptome in women with obesity, associated with pro-resolving lipid mediator production. Biochimica et Biophysica Acta, 2016, 1861: 1746–1755.*Proudman S.M., Cleland L.G., James M.J. Dietary omega-3 fats for treatment of inflammatory joint disease: efficacy and utility. Rheumatic Diseases Clinics of North America, 2008, 34(2): 469-479.*Raastad T., Hostmark A.T., Stromme S.B. Omega-3 fatty acid supplementation does not improve maximal aerobic power, anaerobic threshold and running performance in well-trained soccer players. Scand.J.Med.Sci.Sports, 1997, 7(1):25-31.*Rodacki C.L., Rodacki A.L., Pereira G. et al.. Fish-oil supplementation enhances the effects of strength training in elderly women. Am.J.Clin.Nutr., 2012, 95(2):428–436.*Rontoyanni V.G., Hall W.L., Pombo-Rodrigues S. et al. A comparison of the changes in cardiac output and systemic vascular resistance during exercise following high-fat meals containing DHA or EPA. Br.J.Nutr., 2012, 3, 108: 492-499.*Ryan A.M., Reynolds J.V., Healy L. et al. Enteral nutrition enriched with eicosapentaenoic acid (EPA) preserves lean body mass following esophageal cancer surgery: Results of a double-blinded randomized controlled trial. Annals of Surgery, 2009, 249: 355-363.*Ryckebosch E., Bruneel Ch., Termote-Verhalle R. Nutritional evaluation of microalgae oils rich in omega-3 long chain polyunsaturated fatty acids as an alternative for fish oil. Food Chemistry, 2014, 160:393–400.*Schättin А., de Bruin E.D. Combining Exergame Training with Omega-3 Fatty Acid Supplementation: Protocol for a Randomized Controlled Study Assessing the Effect on Neuronal Structure/Function in the Elderly Brain. Frontiers in Aging Neuroscience, 2016, 8, 283, 2-11.*Shei R. J., Lindley M. R., Mickleborough T. D. (2014). Omega-3 polyunsaturated fatty acids in the optimization of physical performance. Military Medicine, 2014, 179(11), 144–156.*Simopoulos A. P. The importance of the ratio of omega-6/omega-3 essential fatty acids. Biomedicine and Pharmacotherapy, 2002, 56(8): 365–379.*Simopoulos A. P. Omega-3 Fatty Acids and Athletics. Current Sports Medicine Reports, 2007, 6:230–236.*Simopoulos A. P. The importance of the omega-6/omega-3 fatty acid ratio in cardiovascular disease and other chronic diseases. Experimental Biology and Medicine (Maywood), 2008, 233(6): 674–688.*Smith G.I., Atherton Ph., Reeds D.N. et al. Omega-3 polyunsaturated fatty acids augment the muscle protein anabolic response to hyperaminoacidemia-hyperinsulinemia in healthy young and middle aged men and women. Clin.Sci. (Lond), 2011, 121(6): 267–278.*Smith G. I., Julliand S., Reeds D. N. et al. Fish oil-derived n-3 PUFA therapy increases muscle mass and function in healthy older adults. Amer.J.Clin.Nutr., 2015, 102(1):115–122.
von Schacky C. The Omega-3 Index as a risk factor for cardiovascular diseases. Prostaglandins & other Lipid Mediators, 2011, 96: 94–98.
*Tartibian B., Maleki B.H., Abbasi A. The effect of omega-3 supplementation on pulmonary function of young wrestlers during intensive training. J.Sci.Med., 2010, 13, 281-286.*Tartibian B., Maleki B.H., Abbasi A. Omega-3 fatty acids supplementation attenuates inflammatory markers after eccentric exercise in untrained men. Clin.J.Sport Med., 2011, 21(2): 131-137.*Tinsley G.M., Gann J.J., Huber S.R. Effects of Fish Oil Supplementation on Postresistance Exercise Muscle Soreness. J.Diet.Suppl., 2016, 21:1-12.*Tiryaki-Sönmez G., Schoenfeld B., Vatansever-Ozen S. Omega-3 fatty acids and exercise: a review of their combined effects on body composition and physical performance. Biomedical Human Kinetics, 2011, 3, 23 – 29. *Tsuchiya Y., Yanagimoto K., Nakazato K. Eicosapentaenoic and docosahexaenoic acids‑rich fish oil supplementation attenuates strength loss and limited joint range of motion after eccentric contractions: a randomized, double‑blind, placebo‑controlled, parallel‑group trial. Eur.J.Appl. Physiol., 2016, 116:1179–1188.*Udani J.K., Ritz B.W. High potency fish oil supplement improves omega-3 fatty acid status in healthy adults: an open-label study using a web-based, virtual platform. Nutrition Journal, 2013, 12:112.*Walser B., Stebbins C.L. Omega-3 fatty acid supplementation enhances stroke volume and cardiac output during dynamic exercise. Eur.J.Appl.Physiol., 2008,104:455–461.*Wang T., Van K., Gavitt B. et al. Effect of fish oil supplementation in a rat model of multiple mild traumatic brain injuries. Restor.Neurol.Neurosci., 2013, 31:647–659.*Wani A.L., Bhat S.A., Ara A. Omega-3 fatty acids and the treatment of depression: a review of scientific evidence. Integrative Med.Res., 2015, 4(3):132–141.*Warner J.G., Ullrich I.H., Albrink M.J., Yeater R.A. Combined effects of aerobic exercise and omega-3 fatty acids in hyperlipidemic persons. Med.Sci.Sport Exerc., 1989, 21:498-505.*Weldon S.M., Mullen A.C., Loscher C.E. et al. Docosahexaenoic acid induces an anti-inflammatory profile in lipopolysaccharide-stimulated human THP-1 macrophages more effectively than eicosapentaenoic acid. The J.Nutr.Biochem., 2007, 18(4): 250-258.*Wilber R.L., Rundell K.W., Szmedra L. et al. Incidence of exercise-induced bronchospasm in Olympic winter sport athletes. Med.Sci.Sports Exerc., 2000, 32(4):732-737.*Wu A., Ying Z., Gomez-Pinilla F. The salutary effects of DHA dietary supplementation on cognition, neuroplasticity, and membrane homeostasis after brain trauma. J.Neurotrauma, 2011, 28:2113–2122.
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