Нажмите на эту строку чтобы перейти к Новостям сайта "Русский врач"

Перейти
на сайт
журнала
"Врач"
Перейти на сайт журнала "Медицинская сестра"
Перейти на сайт журнала "Фармация"
Перейти на сайт журнала "Молекулярная медицина"
Перейти на сайт журнала "Вопросы биологической, медицинской и фармацевтической химии"
Журнал включен в российские и международные библиотечные и реферативные базы данных

ВАК (Россия)
РИНЦ (Россия)
Эко-Вектор (Россия)

TECHNOLOGICAL STUDIES OF A STANDARD SAMPLE OF RETINOL PALMITATE OBTAINED FROM NATURAL RAW MATERIALS

DOI: https://doi.org/10.29296/25877313-2023-09-03
Issue: 
9
Year: 
2023

E.B. Sysuev
Ph.D. (Pharm.), Leading Research Scientist,
Pyatigorsk Medical and Pharmaceutical Institute Research Center – Branch of the Volgograd State Medical University
of the Ministry of Health of Russia (Pyatigorsk, Russia),
E-mail: bes555@yandex.ru
E.F. Stepanova
Dr.Sc. (Pharm.), Professor, Professor of the Department of Pharmaceutical Technology with a course in Medical Biotechnology,
Pyatigorsk Medical and Pharmaceutical Institute – branch of the Volgograd State Medical University
of the Ministry of Health of Russia (Pyatigorsk, Russia)
E-mail: efstapanova@yandex.ru
V.D. Noskova
Post-graduate Student, Department of Pharmacy and Chemistry,
Ural State Medical University of the Ministry of Health of Russia (Yekaterinburg, Russia)
E-mail: v.d.noskova@mail.ru

Relevance. One of the most common and popular reference samples used as reliable standards is retinol palmitate – vitamin A, which is widely used both in the food industry and in veterinary medicine, but this sample is especially popular when analyzing pharmaceutical products. However, this val-uable object still needs to implement a number of technological solutions, primarily related to the technology of its production from domestic natural raw materials, taking into account the extremely significant resource-saving factor today. For the first time, a species of fish successfully grown and cultivated in Russia – the salmon family – trout, as well as a representative of the flounder and mackerel breeds that are not cultivated, but exist in Russia, are considered as raw materials. This article discusses a method for obtaining the substance of vitamin A, which is actively used in pharmaceutical production. There are several known ways to obtain fat-soluble vitamin A both from natural raw materials and by synthesis. The article examines technological approaches with the use of innovative measures that increase the production attractiveness of the developed technological approach (technological scheme). The originality of these studies is based on the use of resource-saving technologies in the production of fat-soluble vitamins, which reduce the consumption of materials (reagents), labor and energy costs, by reducing the time for the main technological stage, as well as the possibility of using the resources of domestic enterprises for processing cultivated and wild fish species as a raw material base. The purpose of the work. To propose an original technology for obtaining vitamin A substance (retinol palmitate) using the domestic fish raw mate-rial base, and to identify and standardize the result obtained. Material and methods. The main object of the study is the type of fish actively grown on the territory of the Russian Federation. The main factors determining the choice of the object were such characteristics as the availability of the raw material base, the high fat content in the object and the relatively low cost of raw materials. In the production process, innovative methods of obtaining and cleaning the final product were also used, such as oxygen-free technological operations using the microwave exposure method. The identification of vitamin A in the samples was carried out using UV spectrometry, which confirmed the validity of the selected raw material object. Results. The use of innovative methods for isolating the substance from fish products using the effect of microwave decomposition of biological ma-terial in an inert gas environment has reduced the time of the main stage of production from an average of 180 minutes to 30. The production of substances from natural materials makes it possible to obtain a cleaner and, as a result, a more physiological product that does not require complex purification steps and does not have toxic micro-impurities in its composition. The developed method of obtaining vitamin A substance will make it possible to replenish the material base, which should exist as a constantly replen-ished resource. Special attention should be paid that the vitamin A substance can be used not only as a pharmaceutical substance, but can also find its application in the veterinary and food industries as a biologically active additive (dietary supplement) and as a reference material - a standard sam-ple (CO) for use in analytical practice (conformity assessment) and scientific research. Conclusions. Thus, for the first time, an original technology was developed for the production of retinol palmitate from natural domestic raw material – fish belonging to breeds cultivated in Russia. The optimal technology has been developed taking into account the resource-saving factor. In the pro-cess of technology, such innovative technological techniques as the use of oxygen-free grinding of raw materials, microwave radiation during hydroly-sis, the implementation of all technological stages in an inert gas environment have been developed.
Keywords: 
standard sample
retinol palmitate
raw material base
cultivated fish varieties
natural material
technology in an inert gas environment
hydrolysis
mi-crowaves
extraction.
References: 
  1. Mironov A.N., Sakaeva I.V., Sakanjan E.I. Standartnye obrazcy v praktike zarubezhnogo i otechestvennogo farmacevticheskogo analiza. Vedomosti Nauchnogo centra jekspertizy sredstv medicinskogo primenenija. Reguljatornye issledovanija i jekspertiza lekarstvennyh sredstv. 2012; 3: 56–60.
  2. Stepanova Je.F., Sysuev E.B., Kadilaeva Z.A. i dr. Vozmozhnosti ispol'zovanija v veterinarnoj farmacii zhirorastvorimyh vitaminov, ih standartnyh obrazcov i fitoob’ektov. Sbornik nauchnyh trudov Krasnodarskogo nauchnogo centra po zootehnii i veterinarii. 2022; 11(1): 246–251. DOI: 10.48612/sbornik-2022-1-61.
  3. Sysuev E.B., Stepanova Je.F., Noskova V.D. Razrabotka otechestvennogo standartnogo obrazca vitamina D na osnovanii sravnitel'nyh issledovanij ego stabil'nosti. Farmacija. 2022; 71(7): 32–39. DOI: 10.29296/25419218-2022-07-05.
  4. Noskova V.D. Problemy i perspektivy razvitija otechestvennogo rynka standartnyh obrazcov. Molodye uchjonye Rossii: sbornik statej XIV Vserossijskoj nauchno-prakticheskoj konferencii (g. Penza, 23 avgusta 2022 g.). Penza: Izdatel'stvo Nauka i Prosveshhenie (IP Guljaev G.Ju.). 2022: 89–93.
  5. Noskova V.D. Farmacevticheskie pljonki kak perspektivnaja platforma dlja primenenija v medicinskoj praktike i kosmetologii nauchno-innovacionnye issledovanija i razrabotki: sbornik statej. VIII Mezhdunarodnoj nauchno-prakticheskoj konferencii. – Saratov: NOP «Cifrovaja nauka». 2021: 351–358.
  6. Petrov A.Ju., Sysuev E.B., Makarova I.S. Perspektivy ispol'zovanija gosudarstvennyh standartnyh obrazcov pri analize lekarstvennyh preparatov na primere triazavirina. Medicina, farmacija i obshhestvennoe zdorov'e: Sbornik statej Vtorogo Evrazijskogo kongressa s mezhdunarodnym uchastiem, posvjashhennogo 85-letiju Ural'skogo medicinskogo universiteta (g. Ekaterinburg 8-9 oktjabrja 2015 g.). Ekaterinburg: FGBOU VO «UGMU». 2015: 267–270.
  7. Petrov A.Ju., Sysuev E.B., Novikova N.Ju. Nekotorye osobennosti primenenija standartnyh obrazcov v farmacii. Rol' tehnicheskogo regulirovanija i standartizacii v jepohu cifrovoj jekonomiki: Sbornik statej II Mezhdunarodnoj nauchno-prakticheskoj konferencii molodyh uchenyh (g. Ekaterinburg, 21 aprelja 2020 g.). Ekaterin-burg: Izdatel'skij dom «Azhur». 2020: 21–32.
  8. Sysuev E.B., Petrov A.Ju., Thaj V.D. Razrabotka standartnyh obrazcov vitamina E i ocenka vozmozhnosti ispol'zovanija razlichnyh metodov analiza. HH Jubilejnaja mezhdunarodnaja konferencija po nauke i tehnologijam Rossija-Koreja-SNG (g. Moskva, 19-21 oktjabrja 2020 g.). Novosibirsk: Izdatel'stvo NGTU. 2020; 262 s.
  9. Sysuev E.B. Izuchenie metrologicheskih harakteristik substancij zhirorastvorimyh vitaminov putem mezhlaboratornyh slichitel'nyh ispytanij. Voprosy biologicheskoj, medicinskoj i farmacevticheskoj himii. 2023; 26(5): 25–31. DOI: 10.29296/25877313-2023-05-04.
  10. Steinsholm S., Oterhals Å., Underhaug J., Aspevik T. Emulsion and Surface-Active Properties of Fish Solubles Based on Direct Extraction and after Hydrolysis of At-lantic Cod and Atlantic Salmon Backbones. Foods. 2020; 10(1): 38. DOI: 10.3390/foods10010038.
  11. Venkatesan J., Lowe B., Manivasagan P., Kang K.H., Chalisserry E.P., Anil S., Kim D.G., Kim S.K. Isolation and Characterization of Nano-Hydroxyapatite from Salmon Fish Bone. Materials (Basel). 2015; 8(8). DOI: 10.3390/ma8085253.
  12. Vorob'eva S.I., Krasil'nikova D.E., Noskova V.D. Puti poiska perspektivnyh istochnikov syr'ja dlja poluchenija vitamina D, sfera vozmozhnogo primenenija otech-estvennoj substancii v farmacevticheskoj promyshlennosti i standartizacii. Sbornik statej po itogam Mezhdunarodnoj nauchno-prakticheskoj konferencii, Saratov, 27 avgusta 2022 goda. Sterlitamak: Obshhestvo s ogranichennoj otvetstvennost'ju «Agentstvo mezhdunarodnyh issledovanij». 2022: 37–42.
  13. Jakobsen J., Smith C., Bysted A., Cashman K.D. Vitamin D in Wild and Farmed Atlantic Salmon (Salmo Salar)-What Do We Know? Nutrients. 2019 Apr 29;11(5): 982. DOI: 10.3390/nu11050982.
  14. Sysuev E.B., Noskova V.D., Stepanova Je.F., Petrov A.Ju. Tehnologija poluchenija standartnogo obrazca retinola pal'mitata, vydelennogo iz prirodnogo syr'ja, opredelenie osnovnyh pokazatelej, harakterizujushhih ego kachestvo. Mediko-farmacevticheskij zhurnal Pul's. 2022; 24(10): 72–78. DOI 10.26787/nydha-2686-6838-2022-24-10-72-78.
  15. Sysuev E.B., Stepanova Je.F., Kuregjan A.G., Noskova V.D. Farmacevticheskaja razrabotka: tehnologija i analiz standartnyh obrazcov vitaminov na modeli vitamina A. Hranenie i pererabotka sel'hozsyr'ja. 2022; 2, https://doi.org/10.36107/spfp.2022.289.
  16. Brusko E.A., Noskova V.D. Tehnologicheskie osobennosti zhirorastvorimyh vitaminov A i E: metody poluchenija i primenenie v razlichnyh oblastjah. Aktual'nye vo-prosy nauchnyh issledovanij: sbornik statej II Mezhdunarodnoj nauchno-prakticheskoj konferencii. Saratov: NOP «Cifrovaja nauka». 2023: 507–515.
  17. Sysuev E.B., Stepanova Je.F., Noskova V.D. Sovershenstvovanie tehnologii proizvodstva zhirorastvorimyh vitaminov na baze shhelochnogo gidroliza. Farmacija i farmakologija. 2022; 10(3): 255–266. DOI 10.19163/2307-9266-2022-10-3-255-266.
  18. Sysuev E.B., Noskova V.D., Stepanova Je.F., Petrov A.Ju. Poisk putej poluchenija sovremennyh otechestvennyh standartnyh obrazcov dlja farmacii, proizvod-stvennye perspektivy, vozmozhnosti ispol'zovanija. Metrologija bez granic: Sbornik materialov III Vserossijskoj konferencii uchastnikov GSSO. M.: UNIIM – filial FGUP «VNIIM im. D.I. Mendeleeva». 2023: 18–21.