Microbiological factors for ensuring the safety of confectionery products of a foamy structure

Marshmallows are a popular confectionery among consumers. There is a high interest in the need to develop and change production technologies. One of the ways to expand the range of marshmallows is the use of glaze, which gives the products a special taste and aroma, protects the products from harmful effects that cause damage to the product. During storage, products coated with glaze made using lauric-type cocoa butter substitutes are prone to lipolytic spoilage with the appearance of an unpleasant soapy taste. The conducted studies have confirmed that the layer at the phase boundary between the glaze and the marshmallow mass is a source of contamination by mold fungi due to favorable conditions for the growth of microorganisms. It is shown that as the temperature increases, the amount of CMAFAnM in glazed marshmallows decreases from 2.1 × 10² CFU/g to 80 CFU/g, and the amount of mold increases from 130 to 170 CFU/g. Therefore, in order to ensure the safety of glazed whipped products, it is necessary to increase the requirements for the initial microbiological contamination of raw materials, storage conditions, and transportation. In addition, it is necessary to consider the possibility of introducing moisture-retaining components into the formulation to reduce the growth rate of microbiota in products. 

1. Belova I.A., Rudenko O.S., Kondratiev N.B., Osipov M.V., Lavrukhin M.A. Developing a set of standards to preserve the traditional recipe of zephyr. Standards and Quality. 2021; (11): 100–103 (In Russian). https://doi.org/10.35400/0038-9692-2021-11-100-103

2. Polyakova T.A., Zaikina M.A. Marshmallows are simple, lean and diabetic: composition, benefits and harms. Problems of competitiveness of consumer goods and food. Collection of scientific articles of the 4th International Scientific and Practical Conference. Kursk: Southwest State University. 2022; 203–208 (In Russian). https://www.elibrary.ru/raiblv

3. Bakina A.P., Kamoza T.L. The research on the prospects of using pumpkin pulp puree and red currant jam in marshmallow production. Bulletin of KrasGAU. 2020; (6): 207–214 (In Russian). https://doi.org/10.36718/1819-4036-2020-6-207-214

4. Popova D.G., Reznichenko I.Yu., Tabatorovich A.N. Studying the influence of shelf life on the quality indicators of pastilles. AGRO-industrial complex of Russia. 2020; 27(5): 853–859 (In Russian). https://www.elibrary.ru/bvxxyu

5. Ivanova N.G., Nikitin I.A., Velina D.A., Ponomarev E.E., Khayrullin M.F., Moskvina Yu.V. Development of technology for production of marshmallow with enhanced nutritional value. Proceedings of the Voronezh State University of Engineering Technologies. 2022; 84(3): 40–46 (In Russian). https://doi.org/10.20914/2310-1202-2022-3-40-46

6. Kusova I.U., Bondarenko Yu.V., Dyshekova M.M., Nikitenko A.Yu. Use of natural sugar substitute in the production of marsh mash. Agro-industrial Technologies of Central Russia. 2023; (1): 39–44 (In Russian). https://www.elibrary.ru/vevblg

7. Dolmatova I.A., Zaitseva T.N., Kuznetsova E.A., Issayeva K.S. The results of studies of the influence of temperature and density on the stability of marshmallow. Agrarian science. 2023; (5): 98–102. https://doi.org/10.32634/0869-8155-2023-370-5-98-102

8. Kazantsev E.V., Kondratev N.B., Rudenko O.S., Petrova N.A., Belova I.A. Formation of a foamy structure of confectionery pastille products. Food systems. 2022; 5(1): 64–69 (In Russian). https://doi.org/10.21323/2618-9771-2022-5-1-64-69

9. Isrigova T.A. et al. Development of pastila production technology from fruits and berries. Daghestan GAU Proceedings. 2022; (1): 25–30 (In Russian). https://www.elibrary.ru/gndybo

10. Kondratev N.B., Bazhenova A.E., Kazantsev E.V., Osipov M.V., Petrova N.A. Improving the preservation of glazed confectionery products of a foamy structure. Izvestia of Higher Educational Institutions. Food technology. 2022; (4): 47–50 (In Russian). http://doi.org/10.26297/0579-3009.2022.4.8

11. Mazukabzova E.V. Scientifically substantiated application of rasp-berry powder to increase the nutritional value of glaze. Polzunovskiy Vestnik. 2022; 1(4): 68–77 (In Russian). https://doi.org/10.25712/ASTU.2072-8921.2022.04.008

12. Shakhova A.O. Advantages of using cocoa butter substitutes. Food innovations in biotechnology. Collection of abstracts of the VI International Scientific Conference of Students, Postgraduates and Young Scientists. Kemerovo: Kemerovo State University. 2018; 2: 154–156 (In Russian). https://www.elibrary.ru/xpmqsl

13. Bazhenova A.E., Rudenko O.S., Pesterev M.A., Linovskaya N.V., Kondratev N.B. Prediction of the safety of glazed confectionery products by the content of lipolytic microorganisms. Izvestia of Higher Educational Institutions. Food technology. 2021; (5–6): 85–91 (In Russian). https://doi.org/10.26297/0579-3009.2021.5-6.16

14. Rudenko O.S., Kondratiev N.B., Osipov M.V., Bazhenova A.E., Pesterev M.A. Assessment of factors influencing the risk of microbiological spoilage of gingerbread with filling. Food Processing Industry. 2019; (12): 21–26 (In Russian). https://doi.org/10.24411/0235-2486-2019-10201

15. Kumar A., Mukhia S., Kumar N., Acharya V., Kumar S., Kumar R. A Broad Temperature Active Lipase Purified From a Psychrotrophic Bacterium of Sikkim Himalaya With Potential Application in Detergent Formulation. Frontiers in Bioengineering and Biotechnology. 2020; 8: 642. https://doi.org/10.3389/fbioe.2020.00642

16. Hasan F., Shah A.A., Hameed A. Methods for detection and characterization of lipases: A comprehensive review. Biotechnology Advances. 2009; 27(6): 782–798. https://doi.org/10.1016/j.biotechadv.2009.06.001

17. Rudenko O.S., Kondratiev N.B., Pesterev M.A., Bazhenova A.E., Linovskaya N.V. Correlation of lipase activity and moisture transfer rate in gingerbread glazed with confectionery glaze based on lauric type fats. Proceedings of the Voronezh State University of Engineering Technologies. 2019; 81(4): 62–70 (In Russian). https://doi.org/10.20914/2310-1202-2019-4-62-70

18. Nelson D.L., Cox M.M. Lehninger Principles of Biochemistry. 4th ed. New York: W.H. Freeman and Company. 2004; 1100. ISBN ‎978-0716743392

19. Shchetinina E.M., Gavrilova N.B., Shchetinin M.P., Chernopolskaya N.L., Maiorov A.A. The influence of the type of packaging on the quality and shelf life of semi-hard goat cheese. Cheesemaking and Buttermaking. 2022; (6): 24–27 (In Russian). https://doi.org/10.31515/2073-4018-2022-6-24-27

20. Druzhechkova E.N., Velichko N.A. The influence of the type of packaging on the consumer properties of meat products. Bulletin of KrasGAU. 2020; (12): 215–221 (In Russian). https://doi.org/10.36718/1819-4036-2020-12-215-221

21. Fedotova O.B., Pryanichnikova N.S. Investigation of changes in the structure of the polyethylene layer of packaging in contact with food when exposed to ultraviolet radiation. Food systems. 2021; 4(1): 56–61 (In Russian). https://doi.org/10.21323/2618-9771-2021-4-1-56-61

22. Kondratev N.B., Kazantsev E.V., Osipov M.V., Rudenko O.S., Belova I.A. Forecasting the shelf life of marshmallows glazed with chocolate and confectionery glaze. Izvestia of Higher Educational Institutions. Food technology. 2022; (6): 68–72 (In Russian). http://doi.org/10.26297/0579-3009.2022.6.15

23. Kondratiev N.B. Improving the safety of confectionery products. Moscow: Pero. 2015; 249 (In Russian). ISBN 978-5-906847-62-1

24. Kondratiev N.B. et al. Processes of moisture and fat migration in confectionery. Moscow: DeLi. 2023; 167 (In Russian).