Formulation development on the basis of the effect of temperature treatment of semi-finished high-protein flour products on the glycemic index

   Introduction. Nationally oriented food products for Russia and Belarus – pancakes and fluffy pancakes, when enriched with protein – are promising for sports and dietary nutrition.

   The goal of the research was to study the effect of temperature treatment regimes of semi-finished high-protein flour products on the glycemic index (GI) and to develop recipes for them.

   The objects and methods. Optimization of the quantitative ratio of raw materials in the recipes was performed using linear programming using MatLab version R2022b (August 24, 2022) – developed by The MathWorks and Clive B. Mohler, USA. Organoleptic and physicochemical parameters were determined using standardized methods. The GI was calculated based on the blood glucose levels of volunteers.

   The results and discussion. Model recipes were developed and laboratory samples of high-protein pancakes and fluffy pancakes were produced using whey, milk, egg, wheat, and pea proteins, as well as their combinations. The effect of temperature treatment (chilling and freezing) on the organoleptic, physicochemical, and GI properties was studied. Blast freezing of semi-finished high-protein flour products to –18 °C resulted in a 7.7-12.3 % increase in resistant starch compared to products chilled to 4 °C. Flash freezing reduces the GI of high-protein pancakes by 27.5 % (from 73 to 53), and of fluffy pancakes by 30.9 % (from 73 to 50). The composition of semi-finished products and the method of heat treatment had a significant impact on the GI of finished products.

   Conclusion. The food products obtained in the research can be recommended not only as sports nutrition but also for consumers who prefer dietary products, which will contribute to the preventive protection of the population from the development of diseases caused by increased nervous and physical stress, as well as adverse environmental factors.

1. Development of low glycemic index pancakes formulated with canary seed (Phalaris Canariensis) Flour / F. Escalante-Figueroa [et al.] // Plant Foods Human Nutrition. 2024. Vol. 79. P. 120-126. doi: 10.1007/s11130-023-01138-7.

2. Oat-Based Foods: Chemical Constituents, Glycemic Index, and the Effect of Processing / K. Zhang [et al.] // Foods. 2021. Vol. 10. P. 1304. doi: 10.3390/foods10061304.

3. Specialized product for sports nutrition / Yu.A. Sinyavsky [et al.] // Bulletin of Almaty Technological University. 2024. Issue 1. P. 161–172. doi: 10.48184/2304-568X-2024-1-161-172. [In Russ.]

4. Novokshanova, A.L. Development of scientific principles for the creation of sports nutrition products based on dairy raw materials : specialty 05.18.15 “Technology and commodity science of food products for functional and specialized purposes and public catering” : dis. … for the degree of Dr Sci. (Eng). Moscow, 2019. 487 p. [In Russ.]

5. Development of a product for sports nutrition / T.A. Yarkova [et al.] // Food Industry. 2021. Vol. 6, Issue 2. P. 75–83. doi: 10.29141/2500-1922-2021-6-2-9. [In Russ.]

6. Nikolaeva, M.A., Khudyakov, M.S., Khudyakova, O.D. Classification of sport nutrition products in Russia and abroad // Food industry. 2019. Vol. 40, Issue 2. P. 48-51. doi: 10.24411/9999-008A-2019-10006. [In Russ.]

7. Doronina, O.K., Kulaga, E.N. Modern strategies of sport nutrition (review article) // Man. Sport. Medicine. 2022. 22 (S2). P. 131-138. doi: 10.14529/hsm22s217. [In Russ.]

8. Choob, O.P. Development of an optimal recipe for sports nutrition dishes using mathematical modeling // Technologies of the food and processing industry of the agro-industrial complex - healthy food products. 2020. Issue 4. P. 15-21. doi: 10.24411/2311-6447-2020-10077. [In Russ.]

9. Evsyukova, A.O. Analysis of scientific developments in the field of functional drinks for sports nutrition based on patent databases // News of higher educational institutions. Food technology. 2020. Issue 5/6 (377/378). P. 20-24. doi: 10.26297/0579-3009.2020.5-6.4. [In Russ.]

10. Gavrilova, N.B., Shchetinin, M.P., Moliboga, E.A. Current status and development prospects for the production of specialized products for athletes' nutrition // Nutrition Issues. 2017. Vol. 86, Issue 2. P. 23-31. [In Russ.]

11. Coleman, E. Nutrition for Endurance. Murmansk: Tuloma, 2005. 192 p. [In Russ.]

12. McGregor, R. Sports nutrition: what to eat before, during, and after training. Moscow: Alpina Publisher, 2016. 304 p. [In Russ.]

13. WHO (31. 08. 2018). Healthy nutrition [Electronic resource]. URL: https://www.who.int/ru/news-room/fact-sheets/detail/healthy-diet.). [In Russ.]

14. Roslyakov, Yu.F., Vershinina, O.L., Gonchar, V.V. Promising research of functional bakery products // News of Universities. Food Technology. 2010. Issue 1. P. 123-124. [In Russ.]

15. Review of the development of flour products for gluten-free and gluten-free nutrition / I.M. Zharkova [et al.] // Bulletin of Voronezh State University of Engineering Technologies. 2019. Vol. 81, Issue 1 (79). P. 213-217. [In Russ.]

16. Roslyakov, Yu.F., Vershinina, O.L., Gonchar, V.V. New generation bakery, pasta, and confectionery products : a study guide. 2^nd rev. and add. Krasnodar: KubSTU, 2014. 188 p. [In Russ.]

17. Gonchar, V.V., Vershinina, O.L., Roslyakov, Yu.F. Use of Jerusalem artichoke tuber powder in bakery and flour confectionery technology // Khleboprodukty. 2013. Issue 10. P. 46–47. [In Russ.]

18. Hattie H.N. Wright The glycaemic index and sports nutrition // South African Journal of Clinical Nutrition. 2005. Vol. 18 (3). pp. 22–228. doi: 10.1080/16070658.2005.11734071.

19. Pokhlebkin, V.V. Pancakes (Russian cuisine). National cuisines of our peoples. Moscow: Light and food industry, 1983. 304 p. [In Russ.]

20. Pokhlebkin, V.V. Pancakes. Culinary Dictionary. Moscow: E, 2015. 456 p. [In Russ.]

21. Kovalev, N.I. Pancakes, Blinchiki, Olad'i. Dishes of the Russian Table / N.I. Kovalev. St. Petersburg: Lenizdat, 1995. 317 p. [In Russ.]

22. Lutovinova, I.S. Pancake. A Word about Russian Food. St. Petersburg: Avalon, 2005. 288 p. [In Russ.]

23. Sokolsky, I. They had russian pancakes at Maslenitsa // Science and Life. 2014. Issue 2. P. 108-113.

24. Dyakonov, V.P. MATLAB R2006/2007/2008 + Simulink 5/6/7. Basics of Application. 2^nd ed., revised and supplemented (professional library). Moscow: SOLON-Press, 2008. 800 p. [In Russ.]

25. A glycaemic index compendium of non-Western foods / J.H. Christiani [et al.] // Nutrition & Diabetes. 2021. Vol. 11, No. 2. P. 1021-1023. doi: 10.1038/s41387-020-00145-w.

26. American Diabetes Association. Glycemic Targets: Standards of Medical Care in Diabetes – 2021 // Diabetes Care. 2021. Vol. 44, No. 1. P. S73-S84. doi: 10.2337/dc21-S006.

27. Accu-Chek® Active. Internet information. – 2024 [Electronic resource]. URL: https://www.accuchekcac.com/en/meter-systems/active.

28. Andlauer W., Furst P. Antioxidative power of phytochemicals with special reference to cereals // Cereal Foods World. 1998. Vol. 43, No. 5. P. 356-360.

29. Brennan C.S., Cleary L.J. The potential use of cereal (1→3,1→4)-β-d-glucans as functional food ingredients // Journal of Cereal Science. 2005. Vol. 42, No. 1, pp. 1–13. doi: 10.1016/j.jcs.2005.01.002.

30. Effect of rye bread breakfasts on subjective hunger and satiety: a randomized controlled trial / H. Isaksson [et al.] // Journal of Nutrition. 2009. Vol. 26, pp. 8–39. doi: 10.1186/1475-2891-8-39.

31. Gavrilova, O. M. Freshness preservation of bread made from a mixture of wheat and buckwheat flour / O. M. Gavrilova [et al.] // Bread Baking of Russia. 2008. Issue 3. P. 18–20. [In Russ.]

32. Gavrilova, O.M., Matveeva, I.V., Vakulenchik, P.I. Bread production using buckwheat flour // Bread Baking of Russia. 2007. Issue 3. P. 14-16. [In Russ.]

33. Beneficial phytochemicals in potato – a review / R. Ezekiel [et al.] // Food Research International. 2013. Vol. 50. Issue 2. P. 487-496. doi: 10.1016/J.FOODRES.2011.04.025.

34. Sharma A., Yadav B.S. Resistant Starch: Physiological Roles and Food Applications // Food Reviews International. Ritika. 2008. Vol. 24, No. 2. pp. 193-234. doi: 10.1080/87559120801926237.

35. Effect of freeze-thaw treatment and pullulanase debranching on the structural properties and digestibility of starch-glycerol-monostearin complexes of lotus seeds / Dongkun Tu [et al.] // International Journal of Biological Macromolecules. 2021. Vol. 177. P. 447-454. doi: 10.1016/j.ijbiomac.2021.02.168.

36. Litvyak V.V. Starch and starch products : a monograph / V.V. Litvyak [et al.]. Krasnodar: KubSTU, 2013. 204 p. [In Russ.]

37. Atlas: hierarchical structure of protein substances / V.V. Litvyak [et al.]. M.: FLINTA, 2023. 297 p. ISBN 978-5-9765-5238-8. [In Russ.]

38. Bread: technologies and recipes of the peoples of the world : a monograph / Yu.F. Roslyakov [et al.]. Krasnodar: KubSTU, 2022. 375 p. [In Russ.]