You are here

Головна » BTF №1 2022

Non-traditional types of milk powder in baby food technology

The need to develop products for infant nutrition is urgent. Cow’s milk is the basis for making porridge. The number of children suffering from allergies to cow’s milk protein is 2-7.5%. The aim of the work is to study the kinetics of extrudate swelling in different types of milk, their influence on the rheological properties of porridges and their ability to digest. The degree of swelling of the extrudate in mares’ milk is 12.5% higher than in cow’s milk, and in goat’s and sheep’s milk - 4% and 19% lower, respectively. The viscosity of mares’ milk porridge is 50% lower than the viscosity of «Malyshka» porridge. The viscosity of goat’s milk porridge is also 40% lower than the viscosity of «Malyshka» porridge. The lowest digestibility of proteins is observed in «Malyshka» porridge, in which 31% less amino acids accumulate in 3 hours of hydrolysis compared to goat milk porridge. In porridge based on mare and sheep milk, 51% and 78% more amino acids are released compared to the control. It is proved that the development of new milk-flour porridges for feeding children aged 6 months to 1 year is relevant. It is established that the degree of swelling of corn extrudate depends on the chemical composition of milk. It has been found that goat’s and sheep’s’ milk porridge retains a high viscosity, which is also explained by the chemical composition of milk, namely the high content of fat and protein. Studies of the digestion process indicate that the developed cereals are digested with a similar intensity, which is higher than the digestion of porridge «Malyshka».

Key words: baby food, extrudates, mares’ milk, milk powder, goat’s and sheep’s milk.

 

BELINSKA K. https://orcid.org/0000-0001-8765-5998


  1. Pro zatverdzhennja Gigijenichnyh vymog do produktiv dytjachogo harchuvannja, parametriv bezpechnosti ta okremyh pokaznykiv i'h jakosti: Nakaz vid 6 serpnja 2013 r. № 696. [On approval of Hygienic requirements for baby food, safety parameters and certain indicators of their quality: Order of August 6, 2013 № 696]. URL:http://zakon4.rada.gov.ua/laws/show/z1380-13/page (date of application: 16.03.2021).
  2. Vasil'eva, T. V. (2003). Jekstruzionnye produkty [Extrusion products]. Pishhevaja promyshlennost' [Food industry]. Issue 12, pp. 6–9.
  3. Mousan, G., Kamat, D. (2016). Cow’s milk protein allergy. Clinical Pediatrics. Vol. 55, pp. 1054– 1063. DOI:10.1177/0009922816664512
  4. Zeng, Y., Zhang, J. (2019). Assessment of Cow’s milk-related symptom scores in early identification of cow’s milk protein allergy in Chinese infants. BMC Pediatrics. Vol. 191, pp. 1–7. DOI:10.1186/s12887-019-1563-y
  5. Barreto, L., Marcell, I. (2019). Equinemilk and itspotential use in the human diet. Food science and technology. Vol. 39, pp. 1–7.
  6. Mazhitova, A., Kulmyrzaev, A. (2015). Amino Acid and Fatty Acid Profile of the Mare's Milk Produced on Suusamyr Pastures of the Kyrgyz Republic During Lactation Period. Procedia - Social and Behavioral Sciences. Vol. 195, pp. 2683–2688. DOI:10.1016/j.sbspro.2015.06.479
  7. Markevich-Kenshycka, M., Vujtovskii, J. (2013). Chemical composition and whey protein fraction of latelactationmares' milk. International Dairy Journal. Vol. 31, pp. 62–64. DOI:10.1016/j. idairyj.2013.02.006
  8. Romashko, O.V., Kobylins'ka, O.V., Lazarenko, M.V., Kovbasa, V.M. (2003). Zastosuvannja ul'trazvuku dlja doslidzhennja processu nabuhannja ekstrudativ [The use of ultrasound to study the swelling of extrudates]. Naukovi praci Nacional'nogo universytetu harchovyh tehnologij [Scientific works of the National University of Food Technologies]. Issue 14, pp. 57–58.
  9. Kaur, N., Singh, B., Sharma, S. (2019). Comparison of quality proteinmaize (QPM) and normalmaize with respect to properties of instant porridge. Lwt. 99, pp. 291–298. DOI:10.1016/j.lwt.2018.09.070
  10. Bravo-Núñez, Á., Gómez, M. (2019). Physicochemical properties of native and extrudedmaize flours in the presence of animal proteins. Journal of Food Engineering. 243, pp. 49–56. DOI:10.1016/j. jfoodeng.2018.09.005
  11. Zhao, Y., Zhao, C., Tang, X., Zhou, J., Li, H., Zhang, H., Liu, J. (2021). Physicochemical properties and microstructure of cornflour – cellulose fiber extrudates. Food Science & Nutrition. 9(5), pp. 2497– 2507. DOI:10.1002/fsn3.2195
  12. Onyeoziri, I. O., Torres‐Aguilar, P., Hamaker, B. R., Taylor, J. R., deKock, H. L. (2021). Descriptive sensory analysis of instant porridge from stored who legrain and decorticated pearlmillet flour cooked, stabilized and improved by using a low‐cost extruder. Journal of Food Science. 86(9), pp. 3824–3838. DOI:10.1111/1750-3841.15862
  13. Akande, O. A., Nakimbugwe, D., Mukisa, I. M. (2017). Optimization of extrusion conditions for the production of instant grain amaranth‐based porridge flour. Food science & nutrition. 5(6), pp. 1205–1214. DOI:10.1002/fsn3.513
  14. Emmaculate, S., Wandayi, O. M., Ooko, A. G., Kadenyeka, M. V. (2020). Consumers acceptability of extruded maize-sorghum composite flours fortified with grain amaranth, baobab and orange fleshed sweet potatoes. African Journal of Food Science. 14(9), pp. 274–284.
  15. Velásquez-Barreto, F., Ramirez-Tixe, E., Salazar-Irrazabal, M., Salazar-Silvestre, E. (2020). Physicochemical properties and acceptability of three formulations containing favabean, quinoa and cornflour extrudates. Revista De CienciasAgrícolas. 37(2), pp. 40–48. DOI:10.22267/rcia.203702.136
  16. Mandge, Harshad M., Sharma, S., Goswami, D. (2019). Effect of extrusion operating conditions on the functional and sensory properties of instant multigrain porridge. pp. 99–104. DOI:10.5958/2394- 4471.2019.00019.4
  17. Kaur, N., Singh, B., Sharma, S. (2018). Development of breakfast cereal based on quality protein maize by twin screw extrusion process for improved nutrition. Journal of Pharmacognosy and Phytochemistry. 7(4), pp. 38–48.
  18. Qi, M., Zhang, G., Ren, Z., He, Z., Peng, H., Zhang, D., Ma, C. (2021). Impact of Extrusion Temperature on In Vitro Digestibility and Pasting Properties of Pea Flour. Plant Foods for Human Nutrition. 76(1), pp. 26–30.
  19. Ordakova, A.I., Shherbinin, A.A., Zasypkin, D.V. (1997). Fizicheskie svojstva jekstrudirovannyh produktov s ispol'zovaniem molochnogo syr'ja [Physical properties of extruded products using dairy raw materials]. Hranenie i pererabotka sel'hozsyr'ja [Storage and processing of agricultural raw materials]. Issue 4, pp. 14–15.
  20. Ostrikov, A.N., Smirnyh, A.A., Dorohin, S.V. (2013). Issledovanie haraktera izmenenija dinamicheskoj vjazkosti molochno-fruktovyh produktov [Study of the nature of the change in the dynamic viscosity of dairy and fruit products]. Vestnik Voronezhskogo gosudarstvennogo universiteta inzhenernyh tehnologij [Bulletin of the Voronezh State University of Engineering Technologies]. Issue 2, pp. 47–52.
AttachmentSize
PDF icon belinska_1_2022.pdf773.77 KB
BTF №1 2022