Development of technology for producing essential fatty acids from hydrolysates of high-fat fish
Elena E. Kuprina , Evgeniya S. Grishina , Anastasia N. Yakkola , Andrey N. Manuilov , Pavel I. Demidov , Yulia G. Ivnenko
Bulletin of the Russian Military Medical Academy ›› 2021, Vol. 23 ›› Issue (2) : 119 -130.
Development of technology for producing essential fatty acids from hydrolysates of high-fat fish
The technology for obtaining biologically active substances of a lipoid nature, enriched with omega-3 acids, from waste from the processing of hydrobionts by means of electrochemical hydrolysis and cryoconcentration has been developed. A comparative analysis of the composition of wastes from cutting herring and trout is carried out, and the expediency of their use for obtaining biologically active substances of a lipoid nature is shown. A technological scheme has been developed and fat yields have been determined when it is obtained from fish waste by an electrochemical method. The fatty acid composition of the fat obtained by the electrochemical method has been determined. It was found that cryoconcentrated fat obtained from wastes from trout and herring cutting by the electrochemical method has a significantly increased content of omega-3 acids and, accordingly, biological value compared to edible and medical fish oil from the liver of the cod family. It was found that during cryoconcentration, the concentration of polyunsaturated fatty acids increases, reaching values close to 90%, which allows the resulting product to be classified as biologically active additives. It was shown by calculation that to create functional fish-based food products from fish of the salmon family, it is sufficient to introduce 4 g of the obtained biologically active additive per 100 g of the product. There is also an improvement in the organoleptic properties of foods from lean fish species. It has been shown that in order to meet 30% of the recommended daily intake of omega-3 acids in the development of functional food products based on rainbow trout and Atlantic herring, it is necessary to introduce 1.98 g and 1.8 g of cryoconcentrated fish oil. After encapsulation in nanocapsules, the drug will be suitable for enrichment with omega-3 acids in any food products, which is the subject of further research.
biologically active food additives / hydrolyzate / fish oil / cryoconcentration / omega-3-fatty acids / omega-6-fatty acids / fish waste / functional food / extraction
| [1] |
Ryckebosch E, Bruneel C, Muylaert K, & Foubert I. Microalgae as an alternative source of omega-3 long chain polyunsaturated fatty acids. Lipid Technology. 2012;24(6):128–130. DOI: 10.1002/lite.20120019 |
| [2] |
Ryckebosch E., Bruneel C., Muylaert K., & Foubert I. Microalgae as an alternative source of omega-3 long chain polyunsaturated fatty acids // Lipid Technology. 2012. Vol. 24. No. 6. P. 128–130. DOI: 10.1002/lite.20120019 |
| [3] |
De Caterina R., Zampolli A., Del Turco, et al. Nutritional mechanisms that influence cardiovascular disease. The American Journal of Clinical Nutrition. 2006;83(2):421–426. DOI: 10.1093/ajcn/83.2.421s |
| [4] |
De Caterina R., Zampolli A., Del Turco, et al. Nutritional mechanisms that influence cardiovascular disease // The American Journal of Clinical Nutrition. 2006. Vol. 83. No. 2. P. 421–426. DOI: 10.1093/ajcn/83.2.421s |
| [5] |
Weylandt KH, Kang JX. Rethinking lipid mediators. The Lancet. 2005;366(9486):618-620. DOI: 10.1016/s0140-6736(05)67119-x |
| [6] |
Weylandt K.H., Kang J.X. Rethinking lipid mediators // The Lancet. 2005. Vol. 366. No. 9486. P. 618–620. DOI: 10.1016/s0140-6736(05)67119-x |
| [7] |
Hurst S, Zainal Z, Caterson B, et al. Dietary fatty acids and arthritis. Prostaglandins, Leukotrienes and Essential Fatty Acids (PLEFA). 2010;82(4-6):315–318. DOI: 10.1016/j.plefa.2010.02.008 |
| [8] |
Hurst S., Zainal Z., Caterson B., et al. Dietary fatty acids and arthritis // Prostaglandins, Leukotrienes and Essential Fatty Acids (PLEFA). 2010. Vol. 82. No. 4-6. P. 315–318. DOI: 10.1016/j.plefa.2010.02.008 |
| [9] |
Chowdhury R, Steur M. Invited commentary: dietary polyunsaturated Fatty acids and chronic systemic inflammation – a potentially intriguing link. American Journal of Epidemiology. 2015;181(11):857–860. DOI: 10.1093/aje/kwv023 |
| [10] |
Chowdhury R., Steur M. Invited commentary: dietary polyunsaturated Fatty acids and chronic systemic inflammation – a potentially intriguing link // American Journal of Epidemiology. 2015. Vol. 181. No. 11. P. 857–860. DOI: 10.1093/aje/kwv023 |
| [11] |
Nogueira MS, Scolaro B, Milne GL, Castro IA. Oxidation products from omega-3 and omega-6 fatty acids during a simulated shelf life of edible oils. LWT. 2019;101:113–122. DOI: 10.1016/j.lwt.2018.11.044 |
| [12] |
Nogueira M.S., Scolaro B., Milne G.L., Castro I.A. Oxidation products from omega-3 and omega-6 fatty acids during a simulated shelf life of edible oils // LWT. 2019. Vol. 101. P. 113–122. DOI: 10.1016/j.lwt.2018.11.044 |
| [13] |
Lee JH, O’Keefe JH, Lavie CJ, Harris WS. Omega-3 fatty acids: cardiovascular benefits, sources and sustainability. Nature Reviews Cardiology. 2009;6(12):753–758. DOI: 10.1038/nrcardio.2009.188 |
| [14] |
Lee J.H., O’Keefe J.H., Lavie C.J., Harris W.S. Omega-3 fatty acids: cardiovascular benefits, sources and sustainability // Nature Reviews Cardiology. 2009. Vol. 6. No. 12. P. 753–758. DOI: 10.1038/nrcardio.2009.188 |
| [15] |
Liu J, Abdelmagid SA, Pinelli CJ, et al. Marine fish oil is more potent than plant-based n-3 polyunsaturated fatty acids in the prevention of mammary tumors. The Journal of Nutritional Biochemistry. 2018;55:41–52. DOI: 10.1016/j.jnutbio.2017.12.011 |
| [16] |
Liu J., Abdelmagid S.A., Pinelli C.J., et al. Marine fish oil is more potent than plant-based n-3 polyunsaturated fatty acids in the prevention of mammary tumors // The Journal of Nutritional Biochemistry. 2018. Vol. 55. P. 41–52. DOI: 10.1016/j. jnutbio.2017.12.011 |
| [17] |
García-Moreno PJ, Pérez-Gálvez R, Espejo-Carpio FJ, et al. Lipid characterization and properties of protein hydrolysates obtained from discarded Mediterranean fish species. Journal of the Science of Food and Agriculture. 2013;93(15):3777–3784. DOI: 10.1002/jsfa.6266 |
| [18] |
García-Moreno P.J., Pérez-Gálvez R., Espejo-Carpio F.J., et al. Lipid characterization and properties of protein hydrolysates obtained from discarded Mediterranean fish species // Journal of the Science of Food and Agriculture. 2013. Vol. 93. No. 15. P. 3777–3784. DOI: 10.1002/jsfa.6266 |
| [19] |
Gajanan PG, Elavarasan K, Shamasundar BA. Bioactive and functional properties of protein hydrolysates from fish frame processing waste using plant proteases. Environmental Science and Pollution Research. 2016;23(24):24901–24911. DOI: 10.1007/s11356-016-7618-9 |
| [20] |
Gajanan P.G., Elavarasan K., Shamasundar B.A. Bioactive and functional properties of protein hydrolysates from fish frame processing waste using plant proteases // Environmental Science and Pollution Research. 2016. Vol. 23. No. 24. P. 24901–24911. DOI: 10.1007/s11356-016-7618-9 |
| [21] |
Hleap Zapata JI, Gutiérrez Castañeda CA. Hidrolizados de pescado – producción, beneficios y nuevos avances en la industria. Una revisión Acta Agronómica. 2017;66(3):311–322. DOI: 10.15446/acag.v66n3.52595 |
| [22] |
Hleap Zapata J.I., Gutiérrez Castañeda C.A. Hidrolizados de pescado — producción, beneficios y nuevos avances en la industria // Una revisión Acta Agronómica. 2017. Vol. 66. No. 3. P. 311–322. DOI: 10.15446/acag.v66n3.52595 |
| [23] |
Kuprina EE, Kirillov AI, Ishevski AL, Murashev SV. Food supplement based on chitin with enhanced lipid-lowering and sorption properties. Progress on Chemistry and Application of Chitin and its Derivatives. 2015;(20):156–161. DOI: 10.15259/pcacd.20.14 |
| [24] |
Kuprina E.E., Kirillov A.I., Ishevski A.L., Murashev S.V. Food supplement based on chitin with enhanced lipid-lowering and sorption properties // Progress on Chemistry and Application of Chitin and its Derivatives. 2015. No. 20. P. 156–161. DOI: 10.15259/pcacd.20.14 |
| [25] |
Kuprina EE, Brosalina AА, Bobylev VS, Kirillov AI. Development of food improving calcium-enriched bioactive agents produced from chitinous wastes generated in the process of aquatic animal processing. Progress on Chemistry and Application of Chitin and its Derivatives. 2014;(19):53–64. DOI: 10.15259/pcacd.19.06 |
| [26] |
Kuprina E.E., Brosalina A.А., Bobylev V.S., Kirillov AI. Development of food improving calcium-enriched bioactive agents produced from chitinous wastes generated in the process of aquatic animal processing // Progress on Chemistry and Application of Chitin and its Derivatives. 2014. No. 19. P. 53–64. DOI: 10.15259/pcacd.19.06 |
| [27] |
Najm S, Löfqvist C, Hellgren G, et al. Effects of a lipid emulsion containing fish oil on polyunsaturated fatty acid profiles, growth and morbidities in extremely premature infants: a randomized controlled trial. Clinical Nutrition ESPEN. 2017;20:17–23. DOI: 10.1016/j.clnesp.2017.04.004 |
| [28] |
Najm S., Löfqvist C., Hellgren G., et al. Effects of a lipid emulsion containing fish oil on polyunsaturated fatty acid profiles, growth and morbidities in extremely premature infants: a randomized controlled trial // Clinical Nutrition ESPEN. 2017. Vol. 20. P. 17–23. DOI: 10.1016/j.clnesp.2017.04.004 |
| [29] |
Jacobsen C, Sørensen AD, Nielsen NS. Stabilization of omega-3 oils and enriched foods using antioxidants. Food enrichment with omega-3 fatty acids. Woodhead Publishing. 2013:130–149. DOI: 10.1533/9780857098863.2.130 |
| [30] |
Jacobsen C., Sørensen A.D., Nielsen N.S. Stabilization of omega-3 oils and enriched foods using antioxidants. Food enrichment with omega-3 fatty acids // Woodhead Publishing. 2013. P. 130–149. DOI: 10.1533/9780857098863.2.130 |
| [31] |
Ghelichi S, Sørensen AD, García-Moreno PJ, et al. Physical and oxidative stability of fish oil-in-water emulsions fortified with enzymatic hydrolysates from common carp (Cyprinus carpio) roe. Food chemistry. 2017;237:1048–1057. DOI: 10.1016/j.foodchem.2017.06.048 |
| [32] |
Ghelichi S., Sørensen A.D., García-Moreno P.J., et al. Physical and oxidative stability of fish oil-in-water emulsions fortified with enzymatic hydrolysates from common carp (Cyprinus carpio) roe // Food chemistry. 2017. Vol. 237. P. 1048–1057. DOI: 10.1016/j.foodchem.2017.06.048 |
| [33] |
Patent RUS №2031923/27.03.95. Byul. №9. Zaharchuk AV, Lobova EI, Dubnickaja GM, Munin AA, Levachev MM. Sposob poluchenija ryb’ego zhira. (In Russ.). |
| [34] |
Патент РФ на изобретение № 2031923/ 27.03.1995. Бюл. № 9. Захарчук А.В., Лобова Е.И., Дубницкая Г.М., Мунин А.А., Левачев М.М. Способ получения рыбьего жира. Доступно по: https://www.fips.ru/registers-doc-view/fips_servlet?DB=RUPAT &rn=783&DocNumber=2031923&TypeFile=html. Ссылка активна на 06.01.2021. |
| [35] |
Honold PJ, Nouard ML, Jacobsen C. Fish oil extracted from fish-fillet by‐products is weakly linked to the extraction temperatures but strongly linked to the omega-3 content of the raw material. European Journal of Lipid Science and Technology. 2016;118(6):874–884. DOI: 10.1002/ejlt.201500343 |
| [36] |
Honold P.J., Nouard M.L., Jacobsen C. Fish oil extracted from fish-fillet by‐products is weakly linked to the extraction temperatures but strongly linked to the omega-3 content of the raw material // European Journal of Lipid Science and Technology. 2016. Vol. 118. No. 6. P. 874–884. doi: 10.1002/ejlt.201500343 |
| [37] |
GOST 7636-85. Ryba, morskie mlekopitajushhie, bespozvonochnye i produkty ih pererabotki. Metody analiza. Mezhgosudarstvennyj standart dlja countries of the Eurasian Economic Community. Sb. GOSTov. Moscow: Standartinform; 2010. (In Russ.). |
| [38] |
ГОСТ 7636-85. Рыба, морские млекопитающие, беспозвоночные и продукты их переработки. Методы анализа. Межгосударственный стандарт для стран Евразийского экономического союза: сб. ГОСТов. М.: Стандартинформ, 2010. |
| [39] |
Godoy HT, Rodriguez-Amaya D. Avaliacao De Metodologias Para A Determinacao De Pro-vitaminas A. Evaluation Of Methodologies For The Determination Of Provitamins A. Revista de Farmácia e Bioquímica da Universidade de São Paulo; 1993. |
| [40] |
Godoy HT, Rodriguez-Amaya D. Avaliacao De Metodologias Para A Determinacao De Pro-vitaminas A. Evaluation Of Methodologies For The Determination Of Provitamins A. Revista de Farmácia e Bioquímica da Universidade de São Paulo. 1993. |
| [41] |
Rospotrebnadzor. Normy fiziologicheskih potrebnostej v jenergii i pishhevyh veshhestvah dlja razlichnyh grupp naselenija Rossijskoj Federacii. Metodicheskie rekomendacii. Moscow: Federal’nyj centr gigieny i jepidemiologii Rospotrebnadzora; 2009. (In Russ.). |
| [42] |
Роспотребнадзор. Нормы физиологических потребностей в энергии и пищевых веществах для различных групп населения Российской Федерации. Методические рекомендации. М.: Федеральный центр гигиены и эпидемиологии Роспотребнадзора, 2009. |
| [43] |
Drusch S. An industry perspective on the advantages and disadvantages of different fish oil delivery systems. Encapsulation technologies and delivery systems for food ingredients and nutraceuticals. Woodhead Publishing; 2012:488–504. DOI: 10.1533/9780857095909.4.488 |
| [44] |
Drusch S. An industry perspective on the advantages and disadvantages of different fish oil delivery systems. Encapsulation technologies and delivery systems for food ingredients and nutraceuticals // Woodhead Publishing. 2012. P. 488–504. DOI: 10.1533/9780857095909.4.488 |
| [45] |
Adeyemi WJ, Olayaki LA. Diclofenac–induced hepatotoxicity: low dose of omega-3 fatty acids have more protective effects. Toxicology Reports. 2018;5:90–95. DOI: 10.1016/j.toxrep.2017.12.002 |
| [46] |
Adeyemi W.J., Olayaki L.A. Diclofenac-induced hepatotoxicity: low dose of omega-3 fatty acids have more protective effects // Toxicology Reports. 2018. Vol. 5. P. 90–95. DOI: 10.1016/j.toxrep.2017.12.002 |
| [47] |
Fao. Codex Alimentarius: Organically Produced Foods. FAO/WHO; 2001. |
| [48] |
Fao. Codex Alimentarius: Organically Produced Foods. FAO/WHO, 2001. |
Kuprina E.E., Grishina E.S., Yakkola A.N., Manuilov A.N., Demidov P.I., Ivnenko Y.G.
/
| 〈 |
|
〉 |
PDF
