STUDY OF SAFETY INDICATORS OF THE CEREAL PRODUCT “CEREAL BAR”

The study of food products is the most important method for creating proves of their food safety based on generally accepted scientific ideas and current international and national legal norms of food safety. At the stage of laboratory research it is possible to objectively prove the efficiency and safety of new types of food products while their consumption according to certain health indications among the relevant group of people, including staff working in hazardous industrial environment. In the Russian Federation the procedure for assessing the safety and running the laboratory tests of food products are regulated by the Federal Laws on the Quality and Safety of Food Products, regulations on provision of public catering services, methodological recommendations for assessing the risk to public health in case of exposure to microbial factors contained in food products, as well as technical regulations of the Customs Union on food safety. The authors have developed regulatory and technical documentation for the cereal product “Cereal bar” and presented data on its safety when consumed. Conclusions about the product are made on the basis of a study of its chronic toxicity. It has been established that the ingredients composition of the cereal bar, included in the diet of laboratory animals, provided a positive effect on their body condition, weight gain and did not cause abnormal changes in the volume of internal organs and the development of pathologies that could indicate a side effect of the product. During study of the hematological and biochemical parameters, no significant differences were found between the data of the control group and experimental group of the animals. The conducted studies of the cereal product “Cereal bar” confirm the absence of a potential risk of developing chronic toxicity in case of introduction of the cereal bar to the animals’ diets and its consumption over a long period of time.

1. Valeeva, E.T., Galimova, R.R., Bakirov, A.B., Teregulova, Z.S., Distanova, A.A., Urmantseva, F.A. (2019). Medical and prophylactic nutrition in complex therapy of occupational diseases in the health resort conditions. Occupational health and human ecology, 1(17), 55–62. https://doi.org/10.24411/2411–3794–2019–10009 (In Russian)

2. Popova, A. Yu. (2018). Risk analysis as a strategic sphere in providing food products safety Health Risk Analysis. Health Risk Analysis, 4, 4–12. https://doi.org/10.21668/health.risk/2018.4.01

3. Zaitseva, N. V. (2018). Analysis of population health risks in the Russian Federation caused by food products contamination. Health Risk Analysis, 4, 13–23. https://doi.org/10.21668/health.risk/2018.4.02

4. Yuferova, A.A., Sakharova, O.V., Smol’yanikov, V.A., Zhivchikova, R.I. (2018). Investigation of the toxicity and relative nutrient bioavailability of lespedeza bicolor and products on its basis. Proceedings of Universities. Applied Chemistry and Biotechnology, 8(3(26)), 147–152. https://doi.org/10.21285/2227–2925–2018–8–3–147–152 (In Russian)

5. Titov, E. I., Krasnova, I. S., Ganina, V. I., Semenova, E. G. (2021). Freezedried food in the diet of temporary residents of the Far North. Food Processing: Techniques and Technology, 51(1), 170–178. https://doi.org/10.21603/2074–9414–2021–1–170–178

6. Kitaevskaya, S. V., Ponomarev, V. Y., Yunusov, E. Sh., Kamartdinova, D. R. (18–20 November 2020). Assessment of lactic acid bacteria new consortia proteolytic activity. IOP Conference Series: Earth and Environmental Science, IV International Scientific Conference: AGRITECH-IV‑2020: Agribusiness, Environmental Engineering and Biotechnologies, Krasnoyarsk, Russian Federation, 677, Article 52073. https://doi.org/10.1088/1755–1315/677/5/052073

7. Agapkin, A.M. (2016). High quality or food safety of foodstuffs. Vestnik of the Plekhanov Russian University of Economics, 6(90), 183–189. (In Russian)

8. Shur, P.Z., Zaitseva, N.V. (2018). Health risk assessment when giving grounds for hygienic criteria of food products safety. Health Risk Analysis, 4, 43–56. https://doi.org/10.21668/health.risk/2018.4.05.eng

9. Kiku, P.F., Anan’ev, V. Yu., Kislitsina, L.V., Moreva, V.G., Kondratyev, K.V., Sabirova, K.M. et al. (2017). The risk of impact on the health of the population of primorye territory contaminant chemical in food. Human Ecology, 11, 18–22. https://doi.org/10.33396/1728–0869–2017–11–18–22 (In Russian)

10. Samoilov, A.V., Suraeva, N.M., Zaitseva, M.V., Kurbanova, M.N., Stolbova, V.V. (2019). Comparative assessment of artificial sweeteners toxicity via express biotest. Health Risk Analysis, 2, 83–90. https://doi.org/10.21668/health.risk/2019.2.09.eng

11. Kunakova, R.V., Zaynullin, R.A., Khusnutdinova, E.K., Yalaev, B.I. (2016). Functional food and nutrigenomics as the basis of healthy food of the 21st century. Herald of the Academy of Sciences of the Republic of Bashkortostan, 3(83), 5–14. (In Russian)

12. Liu, C. -W., Chi, L., Tu, P., Xue, J., Ru, H., Lu, K. (2019). Quantitative proteomics reveals systematic dysregulations of liver protein metabolism in sucralose-treated mice. Journal of Proteomics, 196, 1–10. https://doi.org/10.1016/j.jprot.2019.01.011

13. Saghirzadeh, M., Gharaati, M.R., Mohammadi, Sh., Ghiassi-Nejad, M. (2018). Evaluation of DNA damage in the root cells of Allium cepa seeds growing in soil of high background radiation areas of Ramsar-Iran. Journal of Environmental Radioactivity, 99(10), 1698–1702. https://doi.org/10.1016/j.jenvrad.2008.03.013

14. Shalaby, A. M., Ibrahim, M.A.A.H., Aboregela, A. M. (2019). Effect of aspartame on the placenta of adult albino rat. A Histological and Immunohistochemical Study. Annals of Anatomy — Anatomischer Anzeiger, 224, 133–141. https://doi.org/10.1016/j.aanat.2019.04.007

15. Xue, Y., Yu, X., Zhang, X., Yu P., Li Y., Fu W. et al. (2021). Protective effects of ginsenoside Rc against acute cold exposure-induced myocardial injury in rats. Journal of Food Science, 86(7), 3252–3264. https://doi.org/10.1111/1750–3841.15757

16. Razhapova, N.R., Saidakhmedova, Z., Kurbanov, S.R. (2017). Assessment of medico-biological nutritional safety of powder to produce a new kind of fast dissolved milk. Current Scientific Research in the Modern World, 5–3(25), 93–97. (In Russian)

17. Roman, B., Brennan, R. A., Lambert, J. D. (2021). Duckweed protein supports the growth and organ development of mice: A feeding study comparison to conventional casein protein. Journal of Food Science, 86(3), 1097–1104. https://doi.org/10.1111/1750–3841.15635

18. Guo, F., Han, M., Lin, S., Ye H., Chen J., Zhu H. et al. (2021). Enteromorpha prolifera polysaccharide prevents high- fat diet-induced obesity in hamsters: A NMR‑based metabolomic evaluation. Journal of Food Science, 86(8), 3672–3685. https://doi.org/10.1111/1750–3841.15818

19. Batura N. G., Tipsina N. N. (2019). Study of the influence of cereal flakes on the quality of bakery products. Bulletin OF KSAU, 12(153), 169–175. https://doi.org/10.36718/1819–4036–2019–12–169–175 (In Russian)

20. Savelyeva, E.V., Zinurova, E.E., Mingaleeva, Z.S., Maslov, A.V., Starovoitova, O.V, Borisova, S.V. et al. (2019). The study of the possibility of using the additive of plant origin for improvement the quality of yeast and wheat bread. Journal of Environmental Treatment Techniques, 7(Special Issue), 1036–1040.

21. Zinurova, E.E., Bagaeva, T.V., Mingaleeva, Z.S., Starovoitova, O.V., Reshetnik, O.A. (2015). Influence of S. cerevisiae yeast as a part of the recipe component of flour confectionery on the quality of deep-fat frying. Research Journal of Pharmaceutical, Biological and Chemical Sciences, 6(6), 1751–1755.

22. Pereverzeva, E.R., Treschalin, M.I., Golibrodo, V.A., Tevyashova, A.N., Treschalin, I.D. (2018). Toxicological study of olivamide in chronic experiment on rabbits. Russian Journal of Biotherapy, 17(4), 91–97. https://doi.org/10.17650/1726–9784–2018–17–4–91–97 (In Russian)

23. Katsnelson, B.A., Varaksin, A.N., Panov, V.G., Privalova, L.I., Minigalieva, I.A., Kireyeva, E.P. (2015). Experimental modeling and mathematical description of the chronic combined toxicity as a basis of multi-factor chemical health risks analysis. Toxicological Review, 5(134), 37–45. (In Russian)

24. Kuzlyakina, Yu.A., Yurchak, Z.A., Kryuchenko, E.V. (2018). Analysis of the reasons for the implementation of a food safety management system in enterprises producing packaging for food products. Vsyo o myase, 6, 28–30. https://doi.org/10.21323/2071–2499–2018–6–28–30 (In Russian)

25. Yankovskaya, V.S., Dunchenko, N.I. (2020). Scientific concept of modeling and forecasting of food safety and quality indicators. Milk Industry, 11, 38–39. https://doi.org/10.31515/1019–8946–2020–11–38–39 (In Russian)

26. Amelin, V.G., Lavrukhina, O.I. (2017). Food safety assurance using methods of chemical analysis. Journal of Analytical Chemistry, 72(1), 3–49. https://doi.org/10.7868/S0044450217010030 (In Russian)

27. Prishchepova, T.S., Patieva, S.V. (2015). Nutritinoal, biological value of new types of meat-and-cereal preserves for dietary preventive human nutrition. Vestnik of the Kazan State Agrarian University, 10(3(37)), 140–143. https://doi.org/10.12737/14787 (In Russian)

28. Moliboga E. A. (2016). Expansion of variety line of functional food products by developing technologies of processed cheese product for specialized nutrition. Agrarian Bulletin OF THE Urals, 5(147), 74–77. (In Russian)

29. Arefyeva, E. V., Muravyeva, E. V., Maslennikova, N. N. (6–9 October 2020). Environmental risks caused by floods in built-up areas. IOP Conference Series: Earth and Environmental Science, Vladivostok, 666(5), Article 052032. https://doi.org/10.1088/1755–1315/666/5/052032

30. Romanovsky, V. L., Alekseeva, E. I., Gorina, L. N. (6–12 September 2020). Conducting a comparative analysis of the system state options under various external influences. IOP Conference Series: Materials Science and Engineering: International Conference on Construction, Architecture and Technosphere Safety, 962(4), Article 042035. https://doi.org/10.1088/1757–899X/962/4/042035

31. Arefyeva, E., Gorina, L., Alekseeva, E. (2022). Assessment of the Vulnerability of Architectural Monuments to Dangerous Natural Processes. Lecture Notes in Civil Engineering, 180, 159–170. https://doi.org/10.1007/978–3–030–83917–8_15

32. Shanina, E.P., Klyukina, E.M., Stafeeva, M.A., Belyaeva, N.V. (2021). Potential of potatoes as a source of nutritional value: Amino acid composition of protein in stubbies of potatoes of the Ural region, Russia. Research on Crops, 22(Special Issue), 108–112. https://doi.org/10.31830/2348–7542.2021.026