Yekaterinburg, Russian Federation
Yekaterinburg, Russian Federation
Udmurt Republic, Russian Federation
People do not consume raw mare’s colostrum. However, colostrum powder can be used as a biologically active additive to fortify functional foods. Mare’s colostrum is a unique natural multicomponent and multifunctional product with valuable immunomodulatory and regenerating properties that can be used therapeutically. This research featured optimal technological parameters of freeze-drying in the production of mare’s colostrum powder at a field-to-spoon full-cycle farm that breeds Vyatka horses. Low-pressure freeze-drying affects the quality of colostrum powder and its nutritional profile. No State Standard has been developed for mare’s colostrums so far. In fact, the only currently standardized colostrum in Russia is that of cows. In the absence of normative documents, the research had to rely on Technical Regulations of Customs Union TR CU 033/2013, State Standard GOST R 52975-2008, and Technical Specifications TS 10.51.56-001-0133214532-2021. Domestic sublimators with automatic control proved quite efficient in sublimation and drying of mare’s colostrum. The new technology requires no additional purification stage because mare’s colostrum possesses antimicrobial properties. The resulting colostrum powder appeared to have a remarkably long shelf-life. A further in-depth study is needed to reveal the nutrient composition of mare’s colostrum powder in connection with its immunomodulatory protein complex.
mare’s colostrum, dry colostrum, freeze drying, sensory profile, physico-chemical indicators, functional product
1. McGrath, B. A. Composition and properties of bovine colostrum: a review / B. A. McGrath [et al.] // Dairy Science & Technology. 2015. Vol. 96, № 2. P. 133-158. https://www.doi.org/10.1007/s13594-015-0258-x
2. Mohanty, D. P. Milk derived bioactive peptides and their impact on human health / D. P. Mohanty [et al.] // Saudi Journal of Biological Sciences. 2016. № 5. P. 577-583. https://www.doi.org/10.1016/j.sjbs.2015.06.005
3. Borad, S. G. Colostrum immunoglobulins: Processing, preservation and application aspects / S. G. Borad, A. K. Singh // International Dairy Journal. 2018. Vol. 85. P. 201-210. https://www.doi.org/10.1016/j.idairyj.2018.05.016
4. Menchetti, L. Potential benefits of colostrum in gastrointestinal diseases / L. Menchetti [et al.] // Front Biosci (Schol Ed). 2016. Vol. 8, № 2. P. 331-351. https://www.doi.org/10.2741/s467
5. Vollmer, D. Enhancing Skin Health: By Oral Administration of Natural Compounds and Minerals with Implications to the Dermal Microbiome / D. Vollmer, V. West, E. Lephart // J. Mol. Sci. 2018. № 19. R. 3059. https://www.doi.org/10.3390/ijms19103059
6. Mehra, R. Nutritional Attributes of Bovine Colostrum Components in Human Health and Disease / R. Mehra [et al.] // Comprehensive Review. Food Biosci. 2021. № 40. R. 100907. https://www.doi.org/10.3389/fnut.2021.651721
7. Nurushev, M. Zh. Biologicheskie osobennosti rosta zherebenka v postembrional'nom razvitii / M. Zh. Nurushev [i dr.] // Biologicheskie nauki. 2008. № 9. S. 249-252.
8. Reabilitaciya pacientov, perenesshih COVID-19, al'veolitom i pnevmoniey: uch. posobie / T. E. Chernyshova [i dr.] - Izhevsk: IGMA, 2022. - 40 s.
9. Coombes, J. S. Dose effects of oral bovine colostrum on physical work capacity in cyclists / J. S. Coombes [et al.] // Med. Sci. Sports Exerc. 2002. Vol. 34, № 7. P. 1184-1188. https://www.doi.org/10.1097/00005768-200207000-00020
10. Bakaeva, L. N. Zavisimost' soderzhaniya immunoglobulinov v molozive korov ot rezhima ego hraneniya i podgotovki k skarmlivaniyu / L. N. Bakaeva, A. S. Karamaeva, S. V. Karamaev // Izvestiya Samarskoy gosudarstvennoy sel'skohozyaystvennoy akademii . 2019. № 4. S. 54-60.
11. Razmorazhivatel' dlya moloziva: pat. № RU166037U1, Rossiyskaya Federaciya. MPK A471J 39/00 / Hromov S. M. (RU), Korotkov D. A. (RU), Belov N. G. (RU) // zayavitel' i patentoobladatel' OOO «IGLUS» (RU); zayavl. 13.04.2016 - № 2016114195/12; opubl. 10.11.2016.
12. Mnogorezonatornaya SVCh-ustanovka dlya razmorazhivaniya korov'ego moloziva v nepreryvnom rezhime: pat. № RU 2759018 S2, Rossiyskaya Federaciya. MPK A471J 39/00, N05V 6/64, N05V 6/80, A01K 29/00 / Tihonov A. A. (RU), Kazakov A. V. (RU), Novikova G. V. (RU), Belova M. V. (RU), Mihaylova O. V. (RU) // zayavitel' i patentoobladatel' OOO «IGLUS» (RU), zayavl. 25.02.2020 - № 2020108141;, opubl. 08.11.2021, byul. № 31.
13. Golovach, T. N. Nativnoe i fermentirovannoe korov'e molozivo kak komponent produktov funkcional'nogo naznacheniya / T. N. Golovach [i dr.] // Trudy BGU. 2014. T. 9, ch. 2. S. 224-235.
14. Kazimierska, K. Milk Proteins - Their Biological Activities and Use in Cosmetics and Dermatology / K. Kazimierska, U. Kalinowska-Lis // Molecules. 2021. № 26 (11). R. 3253. https://www.doi.org/10.3390/molecules26113253
15. Rogers, S. Characteristics of milk powders produced by spray freeze drying / S. Rogers [et al.] // Drying Technology. 2008. № 26. P. 404-412. https://www.doi. org/10.1080/07373930801929003
16. Asafov, V. A. Nekotorye aspekty regulirovaniya mikrobiologicheskogo sostava moloziva / V. A. Asafov [i dr.] // Pischevaya industriya. 2019. № 4(42). S. 20-25. https://www.doi.org/10.24411/9999-008A-2019-10015
17. Sposob polucheniya suhogo moloziva: pat. № RU 274739 S1, Rossiyskaya Federaciya. MPK A23S1/08, A23S9/20, A23K10/28 / Gazin M. Yu. (RU), Feodoridi E. S. (RU) // zayaviteli i patentoobladateli M. Yu. Gazin (RU), E. S. Feodoridi (RU), zayavl. 19.02.2020 -№ 2020107379; opubl. 25.02.2021.
18. Timakova, R. T. Sublimacionnaya sushka kobyl'ego moloka / R. T. Timakova, Yu. V. Il'yuhina, V. G. Starcev // Molochnaya promyshlennost'. 2022. № 12. S. 42-44. https://www.doi.org/10.31515/1019-8946-2022-12-42-44
19. Potapova, A. Yu. Belkovyy sostav moloziva kobyl pervyh chasov laktacii / A. Yu. Potapova, N. B. Bazhenova, K. V. Plemyashov // Mezhdunarodnyy vestnik veterinarii. 2014. № 1. S. 33-36.
