Вестник МГТУ, 2024, Т. 27, № 2.

Котова Т. И. и др. Получение сухих экстрактов из облепихового сырья: результаты исследования Ismailov, E. Sh., Daudova, T. N., Dzharullaev, D. S. 2005. A new method for intensifying the extraction process. Food Industry, 10, pp. 32-34. (In Russ.) Karanyan, I. K. 2001. Sea buckthorn fruits are the most valuable source of biologically active substances. Agrarian Russia, 6 , pp. 65-66. EDN: TUPVVN. (In Russ.) Karomatov, I. D., Bukaev, M. K. 2018. Sea buckthorn as an adaptogenic medicinal plant that increases physical strength. Biology and Integrative Medicine, 6(23), pp. 37-47. EDN: YMZKYP. (In Russ.) Kotova, T. I., Khanturgaeva, V. A., Tsitsykov, V. A., Lubsanov, E. Yu. et al. 2023. Investigation of the process o f obtaining thick extracts from sea buckthorn leaves. The Bulletin o f ESSTUM, 1(88), pp. 29-35. DOI: https://doi.org/10.53980/24131997_2023_1_29. EDN: GQVEMJ. (In Russ.) Kotova, T. I., Kharaev, G. I., Khanturgaeva, G. I., Shiretorova, V. G. 2008. Optimal drying methods for dehydrated sea buckthorn. Food Industry, 1, pp. 41. EDN: IJAMQJ. (In Russ.) Morozov, V. I. 2007. Culture o f sea buckthorn (Hippophae rhamnoides L.) as a source of raw materials for the production o f the drug "Giporamin". Pharmaceutical Chemistry Journal, 41(8), pp. 19-21. EDN: TBJGNV. (In Russ.) Murzakhmetova, M. K., Utegalieva, R. S., Aralbayeva, A. N., Lesova, Zh. T. 2015. Investigation of antioxidant and membrane protective properties of sea buckthorn extracts. Actualscience, 1(5-5), pp. 26-28. EDN: VLHZXR. (In Russ.) Semushkin, D. N., Ziganshin, B. G., Semushkin, N. I. 2022. Technology for obtaining plant extracts. Coll. o f articles Current state and prospects fo r the development o f the technical base o f the agro-industrial complex , Kazan, pp. 489-495. EDN: PCJEOK. (In Russ.) Skripnikiv, Yu. G., Mitrokhin, M. A., Rodionov Yu. V., Zorin, A. S. 2012. Innovative technologies for drying vegetable raw materials. Problems o f Contemporary Science and Practice. Vernadsky University, 3(41), pp. 371-376. EDN : PCWEGP. ( In Russ.) Stepanyan, V. P. 2000. Intensification o f the process of extraction of biologically active compounds from plant raw materials by electric pulse discharges. Ph.D. Thesis. Pyatigorsk. (In Russ.) Tarasov, A. V., Bukharinova, M. A., Khamzina, E. I. 2018. Determination of the antioxidant activity of aqueous extracts of some plants of the Ural region. Industriya Pitaniya, 3(2), pp. 31-38. DOI: https://doi.org/ 10.29141/2500-1922-2018-3-2-5. EDN: XSVNHN. (In Russ.) Trineeva, O. V., Kovaleva, N. A. 2023. Study o f the composition of biologically active substances of sea buckthorn (Hippophae rhamnoides L.) leaves using GC-MS. Chemistry o fPlant Raw Material, 4, pp. 219-229. DOI: https://doi.org/10.14258/jcprm.20230412467. EDN : YGSFXQ. ( In Russ.) Yakhin, S. M., Ziganshin, B. G., Valiev, A. R. et al. Kazan State Agrarian University. 2014. Installation for obtaining plant extract. Russian Federation, Pat. 2518605. (In Russ.) Khanturgaev, A. G., Kotova, T. I., Kharaev, G. I. 2016. Study of parameters affecting the extraction process of vegetable oils in the electromagnetic field o f ultrahigh frequencies. Vestnik Vostochno-Sibirskogo Gosudarstvennogo Universiteta Tekhnologiy i Upravleniya, 2(59), pp. 48-52. (In Russ.) Chapaksin, I. V., Torybaev, Zh. S., Yasko, E. T. 2021. Approbation of the technique o f vacuum-pulse extraction of flavonoids and tannins in pine bark with subsequent study o f their physicochemical structures. StudNet , 4(1), pp. 56. EDN: FHRQVW. (In Russ.) Shegelman, I. R., Vasiliev, A. S., Shchukin, P. O. 2017. New solutions in the field of using ultrasonic extraction for isolating biologically active substances from plant materials. Proceedings of the III Intern. scien.-pract. conf. Innovative Technologies in Education and Science. Cheboksary, 26 November, 2017. Cheboksary, pp. 182-183. EDN: YLMJFC. (In Russ.) Shorstky, I. A., Koshevoy, E. P. 2015. Extraction with the application o f a pulsed electric field. News o f Universities. Food Technology, 4(346), pp. 40-42. EDN: ULUOGX. (In Russ.) Shcheglova, I. V. 2011. The influence of vacuum pulse drying on the consumer properties of chanterelles of real and autumn honey mushrooms. Ph.D. Thesis. Kemerovo. (In Russ.) Kathiravan, T., Kumar, R., Lakshmana, J. H., Kumaraswamy, M. R. et al. 2014. Pulsed electric field processing of functional drink based on tender coconut water (Cococus nucifera L.) - nannari (Hemidesmus indicus) blended beverage. Croatian Journal o f Food Science and Technology, 6(2). DOI : 10.17508/CJFST.2014.6.2.04. Tanwar, H., Shweta, D. S., Singh, S. B., Ganju, L. 2018. Anti-inflammatory activity of the functional groups present in Hippophae rhamnoides (Seabuckthorn) leaf extract. Inflammopharmacology, 26, pp. 291-301. DOI: https://doi.org/10.1007/s10787-017-0345-0. Usha, T., Middha, S. K., Goyal, A. K., Karthik, M. et al. 2014. Molecular docking studies of anti-cancerous candidates in Hippophae rhamnoides and Hippophae salicifolia. The Journal o f Biomedical Research, 28(5), pp. 406-415. DOI: https://doi.org/10.7555/jbr.28.20130110. Verma, H., Sharma, M., Chahota, R., Palial, A. 2013. Assessment o f antimycotic activity of seabuckthorn (Hippophae rhamnoides) leaf exacts against common fungi associated with skin dermatitis. Veterinary World , 6(4), pp. 205-208. DOI: https://doi.org/10.5455/vetworld.2013.205-208. 212