Вестник МГТУ. 2017, том 20, № 3.

Куркотило В. Н. и др. Ресурсосберегающая технология переработки… 616 10. Christie W. W. Preparation of lipid extracts from tissues // Advances in Lipid Microbiology-II. 1993. V. 98 (2). P. 195–213. 11. Mbatia B., Adlercreutz D., Adlercreutz P. et al. Enzymatic oil extraction and positional analysis of ω-3 fatty acids in Nile perch and salmon heads // Process Biochemistry. 2010. V. 45, Iss. 5. P. 815–819. 12. Linder M., Fanni J., Parmentier M. Proteolytic extraction of salmon oil and PUFA concentration by lipases // Marine Biotechnology. 2005. V. 7, Iss. 1. P. 70–76. 13. Batista I., Ramos C., Mendonca R. et al. Enzymatic hydrolysis of sardine ( Sardina pilchardus ) by- products and lipid recovery // Journal of Aquatic Food Product Technology. 2009. V. 23, Iss. 1. P. 120–134. 14. Ramakrishnan V. V., Ghaly A. E., Brooks M. S. et al. Extraction of oil from mackerel fish processing waste using Alcalase enzyme // Enzyme Engineering. 2013. V. 2, Iss. 2. P. 1–10. 15. Slizyte R., Rustad T., Storro I. Enzymatic hydrolysis of cod (Gadus morhua) by-products: Optimization of yield and properties of lipid and protein fractions // Process Biochemistry. 2005. V. 40, Iss. 12. P. 3680–3692. 16. Gbogouri G. A., Linder M., Fanni J. et al. Analysis of lipids extracted from salmon ( Salmo salar ) head by commercial proteolytic enzymes // European Journal of Lipid Science and Technology. 2006. V. 108, Iss. 9. P. 766–775. 17. Routray W., Deepika D., Vegneshwaran V. et al. Production of high quality fish oil by enzymatic protein hydrolysis from cultured Atlantic salmon by-products: Investigation on effect of various extraction parameters using central composite rotatable design // Waste and Biomass Valorization. 2017. URL: https://link.springer.com/article/10.1007/s12649-017-9998-6. 18. Боева Н. П., Бредихина О. В. Бочкарев А. И. Технология рыбы и рыбных продуктов. Кормовые и технические продукты из водных биологических ресурсов. М. : Изд-во ВНИРО, 2008. 118 c. 19. Технология рыбы и рыбных продуктов / под ред. А. М. Ершова. СПб. : ГИОРД, 2006. 720 с. 20. Боева Н. П., Петрова М. С., Артемова А. Г. Новые подходы к технологии пищевого рыбного жира из голов лососевых рыб рода Oncoorhhynchus // Труды ВНИРО. 2015. T. 158. С. 162–166. 21. Адлер Ю. П., Маркова Е. В. Планирование эксперимента при поиске оптимальных условий. М. : Наука, 1976. С. 32–47. References 1. Khoddami A., Ariffin A. A., Bakar J. et al. Fatty acid profile of the oil extracted from fish waste (head, intestine and liver) (Sardinellalemuru) // World Applied Sciences Journal. 2009. V. 7 (1). P. 127–131. 2. Kumar A., Zuta C. P., Simpson B. K. et al. Concentrating PUFA from mackerel processing waste // Journal of the American Oil Chemists' Society. 2003. V. 80, Iss. 9. P. 933–936. 3. Kim J. S., Park J. W. Mince from seafood processing by-products and surimi as food ingredients // Maximising the Value of Marine By-Products / ed. by F. Shahidi. Cambridge : Woodhead Publishing, 2007. P. 196–228. 4. Dietary supplementation with omega-3 polyunsaturated fatty acids and vitamin E after myocardial infarction: results from the GISSI-Prevenzione trial / GISSI – Prevenzione Investigators // Lancet. 1999. V. 354, Iss. 9177. P. 447–455. 5. Iso H., Rexrode K. M., Stampfer M. J. Intake of fish and omega-3 fatty acids and risk of stroke in women // JAMA. 2001. V. 285 (3). P. 304–312. 6. Kalmijn S., Feskens E. J., Launer L. J. Polyunsaturated fatty acids, antioxidants, and cognitive function in very old men // American Journal of Epidemiology. 1997. V. 145, Iss. 1. P. 33–41. 7. Keli S. O., Feskens E. J., Kromhout D. Fish consumption and risk of stroke – The Zutphen Study // Stroke . 1994. V. 25, Iss. 2. P. 328–332. 8. Artyuhova S. A., Bogdanov V. D. Tehnologiya produktov iz gidrobiontov [Technology of products from hydrobionts]. M. : Kolos, 2001. 496 p. 9. Kumar A., Bhaskar N., Baskaran V. Bioefficacy of EPA-DHA from lipids recovered from fish processing wastes through biotechnological approaches // Food Chemistry. 2013. V. 136, Iss. 1. P. 80–86. 10. Christie W. W. Preparation of lipid extracts from tissues // Advances in Lipid Microbiology-II. 1993. V. 98 (2). P. 195–213. 11. Mbatia B., Adlercreutz D., Adlercreutz P. et al. Enzymatic oil extraction and positional analysis of ω-3 fatty acids in Nile perch and salmon heads // Process Biochemistry. 2010. V. 45, Iss. 5. P. 815–819. 12. Linder M., Fanni J., Parmentier M. Proteolytic extraction of salmon oil and PUFA concentration by lipases // Marine Biotechnology. 2005. V. 7, Iss. 1. P. 70–76. 13. Batista I., Ramos C., Mendonca R. et al. Enzymatic hydrolysis of sardine ( Sardina pilchardus ) by- products and lipid recovery // Journal of Aquatic Food Product Technology. 2009. V. 23, Iss. 1. P. 120–134. 14. Ramakrishnan V. V., Ghaly A. E., Brooks M. S. et al. Extraction of oil from mackerel fish processing waste using Alcalase enzyme // Enzyme Engineering. 2013. V. 2, Iss. 2. P. 1–10.