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Published December 31, 2020 | Version v1
Journal article Open

CONDUCTING COMMODITY ASSESSMENT OF LACTOSE FREE AND ORDINARY (LACTOSE) YOGHURTS ON THE EXAMPLE OF UKRAINIAN PRODUCERS

  • 1. National Technical University Dnipro Polytechnic

Description

The objects of research were 5 lactose-free and 5 ordinary (lactose) yoghurts presented on the market in Kharkiv (Ukraine). When carrying out research work, a complex of generally accepted chemical, physicochemical, mathematical methods was used, corrected for the merchandising evaluation of yoghurts.

The first stage of the study was to conduct a comparative organoleptic assessment of selected samples, paying attention to the uniformity of consistency, the presence of inclusions, the presence of foreign odors and flavors, as well as the uniformity of color.

According to the results of a comparative organoleptic quality assessment, it was found that all the studied samples of yoghurts had the same pure, sour milk taste, without extraneous odors unusual for the product, with a well-expressed sour taste. The results of the consistency assessment indicate that on the surface of sample No. 3 there was a separation of whey and a curd, with an undisturbed clot, which occurred due to the fact that lactose-free yoghurt was produced by the thermostatic method.

The second stage of the comparative merchandising assessment of selected yoghurt samples was to determine their main physical and chemical parameters in accordance with the requirements of DSTU 4343:2004 «Yoghurts. General technical requirements».

The analysis of the physicochemical indicators of the studied samples showed that only sample 1 had deviations from the requirements of the normative and technical documentation, namely, the content of the mass fraction of dry substances was lower by 0.3 %, which indicates non-compliance with the product manufacturing technology. The content of the mass fraction of dry substances of other samples was within acceptable limits.

When determining the content of titratable and active acidity, the mass fraction of fat in yoghurts, it was found that all the samples under study did not deviate from the requirements of the regulatory and technical documentation.

It was found that carrying out a commodity assessment (determination of organoleptic and physicochemical indicators) makes it possible to obtain a set of results on the freshness of the studied samples of lactose-free and ordinary (lactose) yoghurts.

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References

  • Hovorushko, T. A., Duda, V. P. (2013). Prodovolchyi rynok moloka Ukrainy, yoho rozvytok ta perspektyvy. Visnyk Odeskoho natsionalnoho universytetu, (18 (1/1)), 102–106.
  • Rozenberg, S., Body, J.-J., Bruyère, O., Bergmann, P., Brandi, M. L., Cooper, C. et. al. (2015). Effects of Dairy Products Consumption on Health: Benefits and Beliefs – A Commentary from the Belgian Bone Club and the European Society for Clinical and Economic Aspects of Osteoporosis, Osteoarthritis and Musculoskeletal Diseases. Calcified Tissue International, 98 (1), 1–17. doi: http://doi.org/10.1007/s00223-015-0062-x
  • Dabija, A., Ropciuc, S. (2016). Aspects concerning obtaining innovative fermented dairy products. 16th International Multidisciplinary Scientific GeoConference SGEM 2016. Conference Proceedings, 185–192.
  • Ignatova, G. L., Blinova, E. V., Zakharova, I. A., Kochetkova, S. A., Revel-Muroz, N. P. (2018). Clinical efficacy of anti‐ige therapy in adult patients with atopic severe uncontrolled asthma in real practice. Allergy: European Journal of Allergy and Clinical Immunology, Supplement, 73 (105), 671.
  • Ponomarev, A. N., Melnikova, E. I., Bogdanova, E. V., Kharitonov, D. V. (2017). Impact of betalactoglobulin hydrolysate on structural and mechanical properties of allergenic potency-restricted yogurt. Foods and Raw Materials, 5 (1), 41–50. doi: http://doi.org/10.21179/2308-4057-2017-1-41-50
  • Anuarbekova, S., Dusenova, G., Sabyrkhan, A., Ermakhanova, A., Atabaeva, B. (2019). Bases for the development of lactose free dairy products. Journal of Agriculture and Environment, 1 (9), 12. doi: http://doi.org/10.23649/jae.2019.1.9.12
  • Jafarpour, D., Amirzadeh, A., Maleki, M., Mahmoudi, M. R. (2017). Comparison of physicochemical properties and general acceptance of flavored drinking yogurt containing date and fig syrups. Foods and Raw Materials, 5 (2), 36–43. doi: http://doi.org/10.21603/2308-4057-2017-2-36-43
  • Delacour, H., Leduc, A., Louçano-Perdriat, A., Plantamura, J., Ceppa, F. (2017). Diagnosis of genetic predisposition for lactose intolerance by high resolution melting analysis. Annales de Biologie Clinique, 75 (1), 67–74. doi: http://doi.org/10.1684/abc.2016.1210
  • Corgneau, M., Scher, J., Ritie-Pertusa, L., Le, D. t. l., Petit, J., Nikolova, Y. et. al. (2017). Recent advances on lactose intolerance: Tolerance thresholds and currently available answers. Critical Reviews in Food Science and Nutrition, 57 (15), 3344–3356. doi: http://doi.org/10.1080/10408398.2015.1123671
  • Evdokimov, I., Bannikova, A. (2015). The scientific and practical principles of creating products with increased protein content. Foods and Raw Materials, 3 (2), 3–12. doi: http://doi.org/10.12737/13114
  • Sukhikh, S., Astakhova, L., Golubcova, Y., Lukin, A., Prosekova, E., Milent`eva, I. et. al. (2019). Functional dairy products enriched with plant ingredients. Foods and Raw Materials, 7 (2), 428–438. doi: http://doi.org/10.21603/2308-4057-2019-2-428-438
  • Kondrasheva, N. N. (2020). Development of an innovative project for the new product launch. Components of Scientific and Technological Progress, 2 (44), 26–29.