Substantiation of rational dosage of "Evitalia" sourdough culture for gluten-free bread from amaranth flour
https://doi.org/10.20914/2310-1202-2021-3-174-181
Abstract
The development of recipes and technologies for the production of flour products, which are intended for preventive dietary nutrition, including for people suffering from various forms of gluten intolerance, is urgent. To date, scientists from different countries and technologists of industrial enterprises have developed a fairly large range of gluten-free flour products, in particular, bread. However, the "weak" points of such developments are the low consumer properties of the product, its low nutritional value, short shelf life or high price. Therefore, it is necessary to select raw materials that can improve the organoleptic and physicochemical indicators of the quality of this category of bread, enrich it with essential micronutrients, extend the shelf life of freshness and slow down microbiological spoilage. The aim of the study is to establish a rational dosage of the lactic acid sourdough "Evitalia" in dough based on amaranth flour when making gluten-free bread. The leaven "Evitalia" has a high biological value due to the combination of lactic acid bacteria – probiotics. It was found that bread samples containing lactic acid sourdough "Evitalia" were distinguished by a more pleasant taste and smell with a less pronounced amaranth hue; light and elastic crumb, finer and more uniform crumb porosity. The use of this sourdough in dosages of 35–55% by weight of the flour mixture allowed to increase the shelf life of products without microbiological spoilage up to four days, which is twice as much as compared to gluten-free bread made from amaranth flour, but without sourdough.
About the Authors
I. M. ZharkovaRussian Federation
Dr. Sci. (Engin.), professor, bakery technology, confectionery, pasta and grain processing industries department, Revolution Av., 19 Voronezh, 394036, Russia
J. A. Safonova
Cand. Sci. (Engin.), associate professor, higher mathematics and information technologies department, Revolution Av., 19 Voronezh, 394036, Russia
References
1. World Health Organization. Regional Office for Europe. Europe health report 2018: More than numbers: evidence for all. Available at: https://www.euro.who.int/ru/data-and-evidence/european-health-report/european-health-report 2018/european-health-report 2018.-more-than-numbers-evidence -for-all 2018 (in Russian).
2. Bavykina I.A., Zvyagin A.A., Miroshnichenko L.A. et al. The effectiveness of amaranth products in gluten-free nutrition of children with gluten intolerance. Nutrition issues. 2017. vol. 86. no. 2. pp. 91–99. (in Russian).
3. G?ady? K., Dardzi?ska J., Guzek M., Adrych K. et al. Expanded Role of a Dietitian in Monitoring a Gluten-Free Diet in Patients with Celiac Disease: Implications for Clinical Practice. Nutrients. 2021. vol. 13. no. 6. pp. 1859. doi: 10.3390/nu13061859
4. El Khoury D., Balfour-Ducharme S., Joye IJ. A Review on the Gluten-Free Diet: Technological and Nutritional Challenges. Nutrients. 2018. vol. 10. no. 10. pp. 1410. doi: 10.3390/nu10101410
5. Bascu??n K.A., Vespa M.C., Araya М. Celiac disease: understanding the gluten-free diet. European Journal of Nutrition. 2017. vol. 56. no. 2. pp. 449–459. doi: 10.1007/s00394–016–1238–5
6. Zharkova I.M., Zvyagin A.A., Miroshnichenko L.A. and other Optimization of a gluten-free diet with new products. Questions of children's dietology. 2017. no. 6. pp. 59–65. (in Russian).
7. Gorgitano M.T., Sodano V. Gluten-Free Products: From Dietary Necessity to Premium Price Extraction Tool. Nutrients. 2019. vol. 11. no. 9. pp. 1997. doi: 10.3390/nu11091997
8. Salehi F. Improvement of gluten?free bread and cake properties using natural hydrocolloids: A review. Food science & nutrition. 2019. vol. 7. no. 11. pp. 3391-3402. doi: 10.1002/fsn3.1245
9. Biesiekierski J.R. What is gluten? J. Gastroenterol Hepatol. 2017. vol. 32. no. 1. pp. 78–81. doi: 10.1111/jgh.13703
10. Silva H.A., Paiva E.G., Lisboa H.M., Duarte E. et al. Role of chitosan and transglutaminase on the elaboration of gluten-free bread. J. Food Sci Technol. 2020. vol. 57. no. 5. pp. 1877–1886. doi: 10.1007/s13197–019–04223–5
11. Allen B., Orfila C. The Availability and Nutritional Adequacy of Gluten-Free Bread and Pasta. Nutrients. 2018. vol. 10. no. 10. pp. 1370. doi: 10.3390/nu10101370
12. Haghighat-Kharazi S., Reza Kasaai M., Milani J.M., Khajeh K. Antistaling properties of encapsulated maltogenic amylase in gluten-free bread. Food Science & Nutrition. 2020. vol. 8. no. 11. pp. 5888–5897. doi: 10.1002/fsn3.1865
13. Azizi S., Azizi M.H., Moogouei R., Rajaei P. The effect of Quinoa flour and enzymes on the quality of gluten-free bread. Food Science & Nutrition. 2020. vol. 8. no. 5. pp. 2373–2382. doi: 10.1002/fsn3.1527
14. Sue A., Dehlsen K., Ooi C. Y. Paediatric patients with coeliac disease on a gluten-free diet: nutritional adequacy and macro-and micronutrient imbalances. Current gastroenterology reports. 2018. vol. 20. no. 1. pp. 1-12. doi:10.1007/s11894–018–0606–0
15. Fry L., Madden A.M., Fallaize R. An investigation into the nutritional composition and cost of gluten-freeversus regular food products in the UK. J. Hum. Nutr. Diet. 2018. no. 31. pp. 108–120.
16. Rom?o B., Botelho R.B.A., Alencar E.R., da Silva V.S.N. et al. Chemical Composition and Glycemic Index of Gluten-Free Bread Commercialized in Brazil. Nutrients. 2020. vol. 12. no. 8. pp. 2234. doi: 10.3390/nu12082234.
17. Urubkov S.A., Khovanskaya S.S., Smirnov S.O. Selenium content in gluten-free food products. Nutrition issues. 2021. vol. 90. no. 1 (533). pp. 102-107. (in Russian).
18. Beltr?o Martins R., Gouvinhas I., Nunes M.C., Alcides Peres J. et al. Acorn Flour as a Source of Bioactive Compounds in Gluten-Free Bread. Molecules. 2020. vol. 25. no. 16. pp. 3568. doi: 10.3390/molecules25163568
19. Gra?a C., Mota J., Lima A., Boavida Ferreira R. et al. Glycemic Response and Bioactive Properties of Gluten-Free Bread with Yoghurt or Curd-Cheese Addition. Foods. 2020. vol. 9. no. 10. pp. 1410. doi: 10.3390/foods9101410
20. Skendi A., Papageorgiou M., Varzakas T. High Protein Substitutes for Gluten in Gluten-Free Bread. Foods. 2021. vol. 10. no. 9. pp. 1997. doi: 10.3390/foods10091997
21. Zaytseva L.V., Yudina T.A., Ruban N.V., Bessonov V.V. et al. Modern approaches to the development of gluten-free bakery formulations. Voprosy pitaniia. 2020. vol. 89. no. 1. pp. 77-85. doi: 10.24411/0042–8833–2020–10009
22. Dubrovskaya N.O., Kuznetsova L.I., Parakhina O.I. A method for increasing the microbiological stability of gluten-free bread. Khlebopechenie Rossii. 2017. no. 4. pp. 22-24. (in Russian).
23. Tsyganova T.B., Nevskaya E.V., Tolmacheva I.P., Golovacheva O.V. Development of a starter culture based on the lactobacillusacidophilus a 146 strain using nutritional mixtures of different types of flour. Sustainable development, environmentally friendly technologies and equipment for processing food agricultural raw materials; import operezhdenie: mat. international scientific-practical Conf., Krasnodar, June 21–22, 2016. pp. 314–320. (in Russian).
24. Nevskaya E.V., Tsyganova T.B., Golovacheva O.V. Antimicrobial properties of lactic acid bacteria used in baking for the preparation of starter cultures. Confectionery and bakery production. 2016. no. 7-8 (166). pp. 46–47. (in Russian).
25. Shmalko N.A. Modern technologies of rye-wheat bread using amaranth flour. News of higher educational institutions. Food technology. 2021. no. 2-3 (380-381). pp. 6-9. (in Russian).
26. Ren Y., Linter B.R., Linforth R., Foster T.J. A comprehensive investigation of gluten free bread dough rheology, proving and baking performance and bread qualities by response surface design and principal component analysis. Food & function. 2020. vol. 11. no. 6. pp. 5333-5345. doi: 10.1039/d0fo00115e
27. Lynch K.M., Coffey A., Arendt E.K. Exopolysaccharide producing lactic acid bacteria: Their techno-functional role and potential application in gluten-free bread products. Food research international. 2018. vol. 110. pp. 52-61. doi: 10.1016/j.foodres.2017.03.012
28. Bio-complex. Available at: http://www.bio-complex.ru/evitaliya/kompleks-sukhikh-mikroorganizmov-probiotikov-zakvaska (in Russian).
29. Zharkova I.M., Gustinovich V.G., Samokhvalov A.A., Koleva T.N., Tikhonova M.Yu., Slepokurova Yu.I. Method for the production of gluten-free bread. Patent RF, no. 2718517, 2020.
Review
For citations:
Zharkova I.M., Safonova J.A. Substantiation of rational dosage of "Evitalia" sourdough culture for gluten-free bread from amaranth flour. Proceedings of the Voronezh State University of Engineering Technologies. 2021;83(3):174-181. (In Russ.) https://doi.org/10.20914/2310-1202-2021-3-174-181