Study of composite mixtures based on durum wheat semolina and white beans flour for pasta production as specialized food products

• Maxim S. Maradudin
• Inna V. Simakova
• Yury Yu. Eliseev
• Victoria N. Strizhevskaya

Abstract

Increasing the number of chronic non-communicable diseases around the world is a critical social problem in many countries. In this regard, the creation of specialized foods that correct dysfunctions of the human body is a priority direction in science and food industry. Legumes are characterized by a high content of protein, minerals and trace elements, which determines their possible use as the main raw materials for creating specialized foods.

The aim of this research was to present a medical, biological and technological justification for the possibility of producing pasta based on composite mixtures of durum wheat semolina and white bean flour as specialized foods with increased protein content and optimal mineral ratio.

Material and methods. The objects of the study were grains of durum wheat (grade Krasnokutka-13), whole meal flour from white beans, composite mixtures in various percentages, and pasta from them. The nutritional and biological value of durum wheat semolina and bean flour was determined experimentally, the nutrient profile of the developed composite mixtures – by calculation. The rheological properties of dough from composite mixtures and the cooking properties of pasta made from them were assessed.

Results. It has been established that increase in the proportion of white bean flour in composite mixes elevated calcium and protein content, optimized an amino acid profile, the ratio of calcium to phosphorus, significantly reduced the glycemic load. Bean flour introduction into composite mixtures positively affected the rheological properties of the dough and products from it, in particular, on the speed and energy intensity of dough kneading and aging processes of starched polysaccharides, however, lead to a decrease in dry pasta strength. The pasta made from composite mixtures meets the technological requirements for pasta in terms of a number of basic indicators, namely: the volume of dry pasta, the volume of pasta after cooking and the boilability coefficient.

Conclusion. The rheological and technological properties of composite mixtures and their nutrient profile make it possible to recommend them for the production of pasta, as specialized foods.

Keywords:wheat semolina; bean flour; composite mixture; nutrient profile; rheological properties; pasta

References

1. Simakova I.V., Strizhevskaya V.N., Rakhmanova G.Yu. Medical and biological aspects of nutrition and organization of prevention of alimony-dependent diseases. Saratov: Amirit, 2017: 132 p. ISBN 798-5-9500981-2-3. (in Russian)
2. Tutelyan V.A., Vyalkov A.I., Razumov A.N., Mikhailov V.I., Moskalenko K.A., Odinets A.G., et al. Scientific foundations of health nutrition. Moscow: Panorama, 2010: 816 p. ISBN 978-5-86472-224-4. (in Russian)
3. Tutelyan V.A., Nikityuk D.B. International and Russian mechanisms for integrating innovations and experience to optimize the nutrition of the population. Voprosy pitaniia [Problems of Nutrition]. 2023; 92 (3): 5-14. DOI: https://doi.org/10.33029/0042-8833-2023-92-3-5-14 (in Russian)
4. Sabença C., Ribeiro M., Sousa T., Poeta P., Bagulho A.S., Igrejas G. Wheat/gluten-related disorders and gluten-free diet misconceptions: a review. Foods. 2021; 10 (8): 1765. DOI: https://doi.org/10.3390/foods10081765
5. Joye I. Protein digestibility of cereal products. Foods. 2019; 8 (6): 199. DOI: https://doi.org/10.3390/foods8060199
6. Maradudin M.S., Simakova I.V., Bolotova N.V., Fedonnikov A.S. Nutritional value of beans in developing food products. Voprosy detskoy dietologii [Problems of Pediatric Nutrition]. 2022; 20 (3): 67-74. DOI: https://doi.org/10.20953/1727-5784-2022-3-67-74 (in Russian)

7. FAO, IFAD, UNICEF, WFP and WHO. The State of Food Security and Nutrition in the World 2023. Urbanization, agrifood systems transformation and healthy diets across the rural-urban continuum. Rome: FAO, 3023. DOI: https://doi.org/10.4060/cc3017en

8. Nosworthy M., Medina G., Lu Z., House J. Plant proteins: methods of quality assessment and the human health benefits of pulses. Foods. 2023; 12 (15): 2816. DOI: https://doi.org/10.3390/foods12152816

9. Winham D., Thompson S.V., Heer M.M., Davitt E.D., Hooper S.D., Cichy K.A., et al. Black bean pasta meals with varying protein concentrations reduce postprandial glycemia and insulinemia similarly compared to white bread control in adults. Foods. 2022; 11 (11): 1652. DOI: https://doi.org/10.3390/foods11111652

Sissons M. Development of novel pasta products with evidence-based impacts on health – a review. Foods. 2022; 11 (1): 123. DOI: https://doi.org/10.3390/foods11010123

10. Capistrán-Carabarin A., Aquino-Bolaños E.N., García-Díaz Y.D., Chávez-Servia J.L., Vera-Guzmán A.M., Carrillo-Rodríguez J.C. Complementarity in phenolic compounds and the antioxidant activities of Phaseolus coccineusL. and P. vulgaris L. Landraces. Foods. 2019; 8 (8): 295. DOI: https://doi.org/10.3390/foods8080295

11. Campos-Vega R., Oomah B.D., Loarca-Piña G., Vergara-Castañeda H.A. Common beans and their non-digestible fraction: cancer inhibitory activity – an overview. Foods. 2013; 2 (3): 374–92. DOI: https://doi.org/10.3390/foods2030374

12. Liu Y., Ragaee S., Marcone M.F., Abdel-Aal E.M. Composition of phenolic acids and antioxidant properties of selected pulses cooked with different heating conditions. Foods. 2020; 9 (7): 908. DOI: https://doi.org/10.3390/foods9070908

13. Drulyte D., Orlien V. The effect of processing on digestion of legume proteins. Foods. 2019; 8 (6): 224. DOI: https://doi.org/10.3390/foods8060224

14. Pedrosa M.M., Guillamón E., Arribas C. autoclaved and extruded legumes as a source of bioactive phytochemicals: a review. Foods. 2021; 10 (2): 379. DOI: https://doi.org/10.3390/foods10020379

15. Khrisanapant P., Leong S., Kebede B., Oey I. Effects of hydrothermal processing duration on the texture, starch and protein in vitro digestibility of cowpeas, chickpeas and kidney beans. Foods. 2021; 10 (6): 1415. DOI: https://doi.org/10.3390/foods10061415

16. Koryachkina S.Ya., Osipova G.A. Pasta: ways to improve quality and nutritional value. Orel: Trud, 2006: 275 p. ISBN 5-89436-134-6. (in Russian)

Smirnova S.O., Faziullina O.F. Non-traditional raw materials in pasta production of high nutrition value. Tekhnika i tekhnologiya pischevykh proizvodstv [Technique and Technology of Food Production]. 2019; 49 (3): 454–69. DOI: https://doi.org/10.21603/2074-9414-2019-3-454-469 (in Russian)

17. Skurikhin I.M., Tutelyan V.A. (eds). Chemical composition of Russian food products: Handbook. Moscow: DeLi print, 2002: 236 p. ISBN: 5-94343-028-8. (in Russian)

18. Dospekhov B.A. Field experience methodology (with the basics of statistical processing of research results). 5th ed., additional and revised. Moscow: Agropromizdat, 1985: 351 p. (in Russian)

19. Osipova G.A. Theoretical and experimental justification for the development of new species of macaroni products of increased nutritional value: Monograph. Orel: State University – UNPK., 2013: 299 p. ISBN 978-5-93932-569-1. (in Russian)

20. Popova A.Yu., Tutelyan V.A., Nikityuk D.B. On the new (2021) Norms of physiological requirements in energy and nutrients of various groups of the population of the Russian Federation. Voprosy pitaniia [Problems of Nutrition]. 2021; 90 (4): 6–19. DOI: https://doi.org/10.33029/0042-8833-2021-90-4-6-19 (in Russian)

21. Bojňanská T., Musilová J., Vollmannová A. Effects of adding legume flours on the rheological and breadmaking properties of dough. Foods. 2021; 10 (5): 1087. DOI: https://doi.org/10.3390/foods10051087

22. Maradudin M.S., Simakova I.V., Smolentseva A.A., Shelkova Ya.I. Influence of bean flour on rheological and baking properties of dough from a composite mixture based on wheat flour: Pishchevaya promyshlennost’ [Food Processing Industry]. 2020; (4): 17–21. DOI: https://doi.org/10.24411/0235-2486-2020-10039 (in Russian)

23. Maradudin M.S., Simakova I.V., Maradudin A.M. Influence of white bean flour on the rheological properties of composite mixtures based on wheat flour and triticale. Tekhnologii pishchevoy i pererabatyvayushchey promyshlennosti APK – produkty zdorovogo pitaniia [Technologies of the Food and Processing Industry of the Agro-Industrial Complex – Healthy Food Products]. 2021; (3): 35–42. DOI: https://doi.org/10.24412/2311-6447-2021-3-35-42 (in Russian)

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