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The use of bioactive components of plant raw materials from the far eastern region for flour confectionery production

Far Eastern State Agrarian University, Russia, Amur Region, Blagoveshchensk

The article describes the results of a study of flour confectionery products produced with the use of raw materials of plants and berries origin, growing on the territory of the Far Eastern Region of Russia, as well as dihydroquercetin to enrich the ready product with natural biologically active substances with functional properties. The production technology of «Medovaya» honey-cake with no filler has been improved. Chemical values of black chokeberry berries and flour confectionery products («Medovaya» honey-cake with no filler) produced according to standard formulation and enriched by adding black chokeberry powder have been identified. The use of black chokeberry berries processed products and dihydroquercetin in the production technology of flour confectionery products improves their quality and enriches them with the natural biologically active substances, meets the daily requirement for a number of physiologically functional ingredients, extends the storage life.
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1. Nagavekar N, Singhal RS (2018) Enhanced extraction of oleoresin from Piper nigrum by supercritical carbon dioxide using ethanol as a co‐solvent and its bioactivity profile. J Food Process Eng 41: e12670.    

2. Pereira GA, Arruda HS, De Morais DR, et al. (2018) Carbohydrates, volatile and phenolic compounds composition, and antioxidant activity of calabura (Muntingia calabura L.) fruit. Food Res Int 108: 264–273.    

3. Mollica A, Zengin G, Locatelli M, et al. (2017) An assessment of the nutraceutical potential of Juglans regia L. leaf powder in diabetic rats. Food Chem Toxicol 107: 554–564.

4. Mollica A, Zengin G, Stefanucci A, et al. (2018) Nutraceutical potential of Corylus avellana daily supplements for obesity and related dysmetabolism. J Funct Foods 47: 562–574.    

5. Koryachkina SY, Matveeva TV (2013) Functional food ingredients and supplements for bakery and confectionery products. St. Petersburg: GIORD, 528. Available from: http://oreluniver.ru/file/chair/thkimp/study/Matveeva_fiziolog_funktsosnovy.pdf.

6. Jimenez-Colmenero F, Cofrades S, Herrero AM, et al. (2017) Implications of domestic food practices for the presence of bioactive components in meats with special reference to meat-based functional foods. Crit Rev Food Sci Nutr 58: 2334–2345.

7. Bakin IA, Mustafina AS, Vechtomova EA, et al. (2017) The use of secondary resources of fruit raw material in technology of confectionery and bakery products. Food Process: Tech Technol 45: 5–11.

8. Stefanucci A, Zengin G, Locatelli M, et al. (2018) Impact of different geographical locations on varying profile of bioactives and associated functionalities of caper (Capparis spinosa L.). Food Chem Toxicol 118: 181–189.    

9. Mocan A, Zengin G, Simirgiotis M, et al.(2017) Functional constituents of wild and cultivated Goji (L. barbarum L.) leaves: phytochemical characterization, biological profile, and computational studies. J Enzyme Inhib Med Chem 32: 153–168.

10. Caleja C, Barros L, Antonio AL, et al. (2017) A comparative study between natural and synthetic antioxidants: Evaluation of their performance after incorporation into biscuits. Food Chem 216: 342–346.    

11. Eliseeva LG, Blinnikova OM (2013) Antioxidant effect of black chokeberry extracts extracted under supercritical conditions. Food Prod 4: 28–29.

12. Kurakina AN, Krasina IB, Tarasenko NA, et al. (2015) Functional ingredients in confectionery production. Tech Sci 6: 468–472.

13. Ajila CM, Leelavathi K, Rao Prasada UJS (2016) Improvement of dietary fiber content and antioxidant properties in soft dough biscuits with the incorporation of mango peel powder. J Cereal Sci 48: 319–326.

14. Pathak D, Majumdar J, Raychaudhuri U, et al. (2016) Characterization of physicochemical properties in whole wheat bread after incorporation of ripe mango peel. J Food Charact 10: 554–561.

15. Voronina MS (2016) Development of technology of flour confectionery products with the use of berries processed products. Res Methodol e-magazine Concept 11: 3226–3230.

16. Fedyulin AS (2010) Technology of comprehensive processing of Aronia melanocarpa berries: extended abstract of dissertation for Ph.D. in technical sciences. Krasnoyarsk State Agrarian University. Krasnoyarsk, 22. Available from: http://www.dissercat.com/content/tekhnologiya-kompleksnoi-pererabotki-plodov-aronia-melanocarpa.

17. Baturina NA, Vlasova MB (2014) Consumer properties of cupcakes with adding of non-traditional plant raw materials. Sci notes OrelSUET 1: 361–373. Available from: http://orelgiet.ru/docs/nauchstat/59-baturina-vlasova.pdf.

18. Tatarnikova EA, Kuprina OV, Ostroukhova LA (2013) Functional flour confectionery products with dihydroquercetin. Univ News: Appl Biochem Biotechnol 1: 46–50. Available from: https://cyberleninka.ru/article/v/funktsionalnye-muchnye-konditerskie-izdeliya-s-digidrokvertsetinom.

19. Lyucheva TY (2009) Development of production technology of semi-finished products with preventive properties. Technology and healthy foods: Materials of II International science and practice conference. FSBEI HPE Saratovsky SAU. Saratov. Available from: https://cyberleninka.ru/article/v/razrabotka-tehnologii-myasnyh-farshey-s-primeneniem-naturalnogo-antioksidanta.

20. Loosveld AM, Delcour JA (2000) The Significance of Arabinogalactan-Peptide for Wheat Flour Bread-Making. J Cereal Sci 32: 147–157.    

21. Kostyrya OV, Korneeva OS (2015) Use of dihydroquercetin in production of flour confectionery products. Papers of LIII report science conference of lecturers and research associates of VSUET 2014 year, dedicated to 85th anniversary of VSUET. Voronezh.

22. State Standard (GOST) (2015) 33504-2015 Food supplements. Dihydroquercetin. Technical conditions.

23. Yang B, Kallio HP (2001) Fatty acid composition of lipids in sea buckthorn (Hippophae rhamnoides L.) berries of different origins. J Agri Food Chem 49: 1939–1947.

24. Dulf FV, Andrei S, Bunea A, et al. (2012) Fatty acid and phytosterol contents of some Romanian wild and cultivated berry pomaces. Chem Pap 66: 925–934.

25. Oszmianski J, Wojdylo A (2005) Aronia melanocarpa phenolics and their antioxidant activity. Eur Food Res Technol 221: 809–813.    

26. Eremeeva NB, Makarova NV, Platonov IA (2016) Antioxidant activity of black chokeberry extracts extracted in above-critical conditions. Methods Technol Food Prod 3: 12–16.

27. Lozovskaya T, Brennerweiss G, Franzreb M, et al. (2012) Extraction of inthocyanins from grape peel extract (Pinot Noir) using magnetic particles based on poly (vinyl alcohol). Celluslose Chem Technol 46: 427–433.

28. Pasqualone A, Bianco AM, Paradiso VM (2013) Production trials to improve the nutritional quality of biscuits and to enrich them with natural anthocyanins. SyTA–J F 11: 301–308.

29. Negro C, Tommasi L, Miceli A (2003) Phenolic compounds and antioxidant activity from red grape mars extracts. Bioresour Technol 87: 41–44.    

30. Hoffman RM, Gaweral HS (1995) Antioxidants and the prevention of coronary heart disease. Arch Intern Med 155: 241–246.    

31. Protonotariou S, Batzaki C, Yanniotis S, et al. (2016) Effect of jet milled whole wheat flour in biscuits properties. LWT–Food Sci Technol 74: 106–113.

32. Klunklin W, Savage G (2018) Biscuits: A Substitution of Wheat Flour with Purple Rice Flour. Adv Food Sci Eng 2: 81–97.

33. Ungure E, Straumite E, Muizniece-Brasava S, et al. (2013) Consumer attitude and sensory evaluation of marshmallow. Proc Latv Acad Sci, Sect B 67: 442–447.

34. Shreenithee CR, Prabhasankar P (2013) Effect of different shapes on the quality, microstructure, sensory and nutritional characteristics of yellow pea flour incorporated pasta. J Food Meas Charact 7: 166–176.    

35. Gbenga-Fabusiwa FJ, Oladele EP, Oboh G, et al. (2018) Nutritional properties, sensory qualities and glycemic response of biscuits produced from pigeon pea-wheat composite flour. J Food Biochem 2018: e12505.

36. Hassan AA, Rasmy NM, Foda MI, et al. (2012) Production of functional biscuits for lowering blood lipids. World J Dairy Food Sci 7: 1–20.

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