Affiliation:
1. Kemerovo State Medical University
2. Kuzbass State Agricultural Academy
Abstract
The intestinal microflora of the human body performs vital regulatory functions. In the course of the study, a biotechnological complex has been developed in the form of dietary supplements, the functional properties of which are aimed at regulating the intestinal biocenosis, inhibiting pathogenic and conditionally pathogenic microflora, as well as developing a useful part of the microbiota. The qualitative and quantitative composition of the specialized product includes, mg/5.5 g, floration (soluble dietary fiber) - 1,375 (1,238); metafiltrates Bifidobacterium bifidum - 620, Bifidobacterium breve - 600, Lactobacillus delbrueckii - 500, Hericium coralloides - 242.5, Propionibacterium freudenreichii - 100; lactulose (50 %) - 400; postbiotic metafiltrate Subtizym - 200; silicon dioxide - 30; endofulvin (Endofulvin, humic acids) - 9.62 (7.5); chitosan - 5; para-aminobenzoic acid - 2; nicotinamide (vitamin B) - 1.81 (1.8); cysteine - 1.25; calcium pantothenate (vitamin B) - 0.654 (0.6); riboflavin (vitamin B) - 0.16. An innovative feature of the production technology is a liquid concentrated form of dietary supplements, which ensures rapid passage through the stomach, the preservation of active principles and the effectiveness of the implementation of specified functional properties. The organoleptic, microbiological and physicochemical indicators of quality and safety have been studied, the results of which make it possible to determine the regulated characteristics and shelf life - 1 year at the temperature of 0-25 °C, relative humidity of not more than 60 %. The developed complex is recommended for use in the amount of 5.5 g of concentrate 3 times a day; course duration - 1 month. The product has passed production tests at ArtLife LLC (Tomsk).
Publisher
FSEI HPE Murmansk State Technical University
Subject
Materials Science (miscellaneous)
Reference12 articles.
1. Вековцев А. А., Никитюк Д. Б., Позняковский В. М. Новые масштабные биотехнологические проекты в метаболической коррекции дисфункциональных состояний и синдромов дезадаптации // Актуальные проблемы хранения и переработки сельскохозяйственного сырья : коллективная монография. СПб. : Лань, 2020. С. 18-26. EDN: VWBLVV.
2. Вековцев А. А., Серба Е. М., Бямбаа Б., Позняковский В. М. Микробиом и биохакинг: парадигма управления здоровьем // Индустрия питания. 2021. Т. 6, № 2. С. 16-22. DOI: https://doi.org/10.29141/2500-1922-2021-6-2-2. EDN: MMZHEE.
3. Шмид Р. Д. Наглядная биотехнология и генетическая инженерия. М. : Лаборатория знаний, 2019. 324 с.
4. Черешнев В. А., Позняковский В. М. Фактор питания и эволюционно-генетическое формирование кишечной микрофлоры: значение для сохранения иммунитета и здоровья // Индустрия питания. 2020. Т. 5, № 3. С. 5-16. DOI: https://doi.org/10.29141/2500-1922-2020-5-3-1. EDN: JJAAEO.
5. Ahern P. P., Maloy K. J. Understanding immune - microbiota interactions in the intestine // Immunology. 2020. Vol. 159, Iss. 1. Р. 4-14. DOI: https://doi.org/10.1111/imm.13150.
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