Abstract

Peptides have high biological activity and are used in the composition of medicines. Peptides are not widely used in food technology as they are sensitive to the action of proteolytic enzymes of the gastrointestinal tract and are characterized by rapid decomposition reducing their effectiveness. Colostrum of cows is a promising source of peptides with different functional orientations. One of the ways contributing to the expansion of using peptides when administered orally is their microcapsulation. The aim of the research is to develop a technology and method for microcapsulating peptides extracted from cow colostrum after calving and to assess their subchronic toxicity. The development of an installation for microencapsulation of peptides was carried out taking into account the diameter of the wide part of the cone of the working chamber and the speed of soaring of small particles of peptide conglomerates. For the experiment on the comparative assessment of the subchronic toxicity of encapsulated and free peptides, 4 groups of nonlinear mice were formed, 10 in each. Group 1 of mice was a control, group 2 (experimental) received an extract of the fabricium bag of broiler chickens containing peptides of various molecular weights at a dose of 15,000 mg/kg, group 3 - free peptides extracted from cow colostrum serum in an amount of 1,500 mg/kg, group 4 - encapsulated peptides in an amount of 15,000 mg/kg. Hematological blood analysis was performed using the analyzer PCE-90Vet. The mice were weighed on the 7th, 9th, 14th, 21st and 28th days of the experiment. Biochemical analysis of animal blood sera was carried out using the analyzer StatFax 3300. During the study, it has been found that the treatment of peptides with maltodextrin solution for 1.0-1.5 minutes forms a protective coating with a thickness of more than 2 microns. The diameters of the wide and narrow parts of the cone of the device and the velocity of the gushing streams for the smallest and largest particles of the peptide conglomerate have been calculated. The absence of toxicity of microcapsulated peptides has been proven.

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