ХАРАКТЕРИСТИКА І СКЛАД ФРАКЦІЙНИХ ПРОДУКТІВ З НАСІННЯ ГАРБУЗА

Viktoriia  S. Kalyna; Nataliia  V. Kondratiuk; Nataliia  V. Uvarova; Oleksandr  G. Rozghon; Viktor  V. Bohuslavskyi; Maryna  V. Lytsenko

doi:10.15421/jchemtech.v29i4.243302

Authors

Viktoriia S. Kalyna Dnipro State Agrarian and Economic University, Ukraine
Nataliia V. Kondratiuk Oles Honchar Dnipro National University, Ukraine
Nataliia V. Uvarova Dnipropetrovsk State University of Internal Affairs, Ukraine
Oleksandr G. Rozghon Dnipropetrovsk State University of Internal Affairs, Ukraine
Viktor V. Bohuslavskyi Dnipropetrovsk State University of Internal Affairs, Ukraine
Maryna V. Lytsenko Limited Liability Company «DESNALAND», Ukraine

DOI:

https://doi.org/10.15421/jchemtech.v29i4.243302

Keywords:

pumpkin seed fractions; pumpkin oil; pumpkin seed flour; pumpkin seed protein powder; cellulose; functional products.

Abstract

The analysis of scientific and technical information on the determination of the chemical composition of fractional products from pumpkin seeds is carried out. Recommendations for the use of fractional products from pumpkin seeds in food products are given. A set of methods for determining the quality of pumpkin seeds and its fractional products is substantiated. The technological scheme of complex processing of pumpkin seeds is developed, the main elements of which are pressing of seeds and fractionation of crushed cake. Target products were obtained in the amount of: oil – 34 %, flour – 5 %, protein powder – 15 %, fiber – 46 %. The energy and biological value of the obtained fractions is calculated. Determined: fatty acid composition of pumpkin oil, the ratio of fatty acids in which is SFA : PUFA : MUFA = 10:38:42, which indicates the feasibility of recommending pumpkin oil as a source of mono- and polyunsaturated fatty acids. The amino acid composition of protein powder is established, the content of all essential amino acids is proved, which characterizes its high biological value. According to the results of toxicological and microbiological tests of laboratory samples of fractional products from pumpkin seeds, a high level of safety of these products has been established. Organoleptic and physicochemical indicators of quality of the received samples which correspond to the established norms for analog production and also testify to high quality of foodstuff which is made by the offered way are defined. It is recommended to use the obtained products as independent products in the human or animal diet of farms or private farms or as supplements of traditional dishes or food products to enrich the nutrients and essential substances of human diets and feed for poultry, fish and pets.

References

Loyer, J. (2016). The social lives of superfoods. Doct. diss., 198.

Top pumpkin producing countries. https://www.atlasbig.com/ru/%D1%81%D1%82%D1%80%D0%B0%D0%BD%D1%8B-%D0%BF%D0%BE-%D0%BF%D1%80%D0%BE%D0%B8%D0%B7%D0%B2%D0%BE%D0%B4%D1%81%D1%82%D0%B2%D1%83-%D1%82%D1%8B%D0%BA%D0%B2%D1%8B.

Dotto, J. M., Chachab, J. S. (2020). The potential of pumpkin seeds as a functional food ingredient: A review. Scientific African, 10, e00575.

Gedi, A. M., Gedi, M. A. (2022). Pumpkin seed oil components and biological activities. Multiple Biological Activities of Unconventional Seed Oils, 171–184. https://doi.org/10.1016/B978-0-12-824135-6.00030-1.

Vinayashre, S., Prasanna, V. (2021). Biochemical, nutritional and functional properties of protein isolate and fractions from pumpkin (Cucurbita moschata var. Kashi Harit) seeds. Food Chemistry, 340, 128177.

https://doi.org/10.1016/j.foodchem.2020.128177.

Syam, A., Sari, N. P., Thaha, A. R., Jafar, N., Salam, A., Mallongi, A. (2020). The effect of pumpkin seed flour (Cucurbita moschata Durch) on zinc serum levels in malnourished Wistar rats. Enfermería Clinica, 30, 337–340. https://doi.org/10.1016/j.enfcli.2019.10.095.

Valdez-Arjona, L.P., Ramirez-Mella, M. (2019). Pumpkin waste as livestock feed: Impact on nutrition and animal health and on quality of meat, milk, and egg. Animals, 9(10), 769. https://doi.org/10.3390/ani9100769.

Sheshnitsan, I. N. (2019). Development of recipes for bakery and flour confectionery products for functional purposes. dis. for a job. uch. degree of Cand. s-g. Sciences: spec. 05.18.01 – Technology of processing, storage and processing of cereals, legumes, cereals, fruits and vegetables and viticulture, 186.

Vasilyeva, A. G., Kruglova, I. A. (2007). Chemical composition and potential biological value of pumpkin seeds of various varieties. News of higher educational institutions. Food technology. 5–6, 30–33.

Spassov, A. A., Iozhitsa, I. N., Gurova, N. A., Ivakhnenko, I. V. (2002). Biologically active food additives in gastroenterology: current state of the problem. New drugs and pharmacotherapy news, 1, 27, 40.

Yadav, M., Jain, S., Tomar, R., Prasad, G.B.K.S., Yadav, H. (2010). Medicinal and biological potential of pumpkin: an updated re¬view. Nutrition Re¬search Reviews, 23, 184–190. https://doi:10.1017/S0954422410000107.

Purwandari, U. (2014). Textural, cooking quality, and sensory evaluation of gluten-free noodle made from breadfruit, konjac, or pumpkin flour. International Food Research Journal, 21(4), 1623–1627.

Dhiman, А.К., Sharma, K. D., Attri, S. (2009). Functional constituents and processing of pumpkin: A re¬view. Food Sci Technol, 46(5), 411–417.

Kaplina, T. V., Stolyarchuk, V. M., Dudnyk, S.O. (2016). Influence of a method of introduction of pumpkin seeds on organoleptic properties of cakes. Scientific Bulletin of Poltava University of Economics and Trade, 1 (78), 84–91.

Korshenko, L.O. (2014). Stabilization of the quality of bread from wheat flour with low baking properties. Bulletin of Eurasian Science, 6 (25), 1–11.

Bachynska, Ya. (2018). Formation of consumer properties of sugar cookies due to the use of pumpkin seed meal. Traektoriâ Nauki = Path of Science, 4(6), 1001–1008.

Sirohman, I. V., Phil, M. I. (2008). Consumer properties of pumpkin powders from different botanical varieties. Scientific Bulletin of Lviv National University of Veterinary Medicine and Biotechnology named after S.Z. Gzhytsky, 10 (2 (37)), 171–174.

Wojciechowska, L.U. (2014). Influence of fat oil from pumpkin seeds on the quality of cooked sausages. Food resources. Series: Technical Sciences, 3, 107–110.

Kovtun, A. V., Sausage, V. M., Pichkur, V. Ya. (2016). Influence of dietary fibers on organoleptic parameters of molded potato chips. Food resources, 7, 163–169.

Babich, O. V. Dorokhovych, A. M. (2005). Gluten-free flour should be used in the production of flour confectionery. Food and processing industry, 4, 20–22.

Denisova, N. M., Zinyuk, М. О., Buyalska, N. P. (2019). The use of gluten-free flour additives in the technology of production of bakery products. Technical sciences and technologies, 3(17), 234–240.

Biloborodko, L. R. (2013). Celiac disease in children at the present stage: clinical manifestations, diagnostic criteria. Transport Medicine of Ukraine, 69–74.

Babich, O. V., Shane, I. O. (2017). Substantiation of the use of gluten-free oatmeal in the preparation of shortbread cookies for people with celiac disease. Young scientist, 711–713.

Oseyko, M. I. (2006). Technology of vegetable oils. Textbook, 280.

Peshuk, L. V., Radzievska, I. G., Shtuk, I. I. (2011). Biological role of fatty acids of animal origin. Food industry. 10–11, 42–45.

Recommended daily intake of vitamins has been changed in the USA.

https://www.apteka.ua/article/10649.

Alfawaz, M. A. (2004). Chemical Composition and Oil Characteristics of Pump¬kin (Cucurbita maxima) Seed Kernel. Research Bulletin №. 129. Agricultural Re¬search Center. King Saud University, 5–18.

Cerniauskiene, Ju. (2014). Pumpkin fruit flour as a source for food enrichment in dietary fiber. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 42.1, 19–23.

Saeleaw, M., Schleining, G. (2011). Composition, physicochemical and morphological characterization of pumpkin flour. Proceedings of the ICEF11-11th International Congress on Engineering and Food" Food Process Engineering in a Changing World". Athens, Greece: National Technical University, 869–870.

Dabash, V., Buresova, I., Tokar, M., Zacharova, M., Gal, R. (2017). The effect of added pumpkin flour on sensory and textural quality of rice bread. Journal of Microbiology, Biotechnology and Food Sciences, 6, 1269–1271.

Lakiza, O. V., Maslikova, K. P., Ishchenko, M. V. (2018). Efficiency of application of high-protein functional products in the production of rolls. Grain Products and Mixed Fodder’s, 18 (2), 25–29.

CHARACTERISTICS AND COMPOSITION OF FRACTIONAL PRODUCTS FROM PUMPKIN SEEDS

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

Issue

Section

License

Information

Make a Submission