• Lyudmila V. Peshuk Oles Honchar Dnipro National University, Ukraine
  • Oleg O. Galenko National University of Food Technologies, , Ukraine
  • Svitlana M. Shuler DPTNZ "Kryvyorizh Educational and Production Center", Ukraine



mechanically deboned poultry meat; washing fluids; surimi-like material; restructured hams.


The technology of mechanically deboned washed minced poultry meat (PMMD) is an alternative source of high-quality protein in the technology of new meat products from surimi-like material. Theoretically justified and experimentally confirmed the effectiveness of the use of surimi-like material from washed deboning poultry meat with high adhesive properties in the production of meat restructured hams to improve quality indicators, inhibit destructive transformations and extend the shelf life. The effectiveness of PMD washing with different detergents (lactic and succinic acids, deionized water, sodium chloride, sodium bicarbonate solution, potassium phosphate buffer solution pH 6.8) with obtaining a complete "denatured protein" with high adhesive properties (surimi-like material) and its use in technology of restructured poultry meat hams has been experimentally proved. The process of MPMO washing with establishment of basic modes (temperature, time, hydromodulus) and washing cycles according to the content of soluble proteins and recovery of total protein has been substantiated. Regulation of washing cycles (1, 2, 3) for release and restoration of surimi-like material protein, centrifugation modes (τ = 10–20 min, hydromodule 1 : 2, 1 : 4), temperature of washing liquids (t = 6–15 °С), optimal introduction of surimi-like material into a product with prolonged storage time were determined experimentally. Chemical composition, physico-chemical and technological characteristics of restructured hams, which formulation includes surimi-like material, have been studied according to the set of technological indicators, biological value, dynamics of changes during storage - the stability of the product has been confirmed. The developed product can be recommended to a wide range of consumers.


Cortez‐Vega, W. R., Pizato, S., Prentice, C. (2014). Nutritional quality evaluation of surimi and kamaboko obtained from mechanically separated chicken meat. Nutrition and Food Science, 44(6), 483–491.

Ramadhan, K., Huda, N., Ahmad, R. (2014). Effect of number and washing solutions on functional properties of surimi‐like material from duck meat. Journal of Food Science and Technology, 51(2), 256–266.

Stangierski, J., Zabielski, J., Grześ, B. (2013). Modification of functional quality of raw myofibril preparation obtained from waterwashed mechanically recovered chicken meat. European Food Research and Technology, 236(3), 449–458.

Tina, N., Nurul, H., Ruzita, A. (2010). Surimi‐like material: Challenges and prospects. International Food Research Journal, 17(3), 509–517.

Cortez‐Vega, W. R., Fonseca, G. G., Prantice, C. (2012). Comparisons of the properties of white mouth croaker Micropogonias furnieri) surimi and mechanically deboned chicken meat surimi‐like material. Food and Nutrition Sciences, 3(11), 1480–1483.

Antonomanolaki, R. E., Vareltzis, K. P., Georgakis, S. A. Kaldrymidou, E. (1999). Thermal gelation properties of surimi‐like material made from sheep meat. Meat Science, 52(4), 429–435.

Stangierski, J., Kijowski, J. (2000). Optimization of conditions for myofibril preparation from mechanically recovered chicken meat. Nahrung. Food., 44(5), 333–338.

Ramadhan, K., Nurul, N., Ruzita, A. (2012). Physicochemical and sensory characteristics of burger made from duck surimi‐like material. Poultry Science, 91, 2316–2323.

Peshuk, L. V., Halenko, O. O., Shuler, S. M., Bezpalko, V. A. (2019). [Influence of wash solutions on chemical composition and physicochemical properties of surimic-like indicated meat material]. Prodovolchi resursy, 13, 139–146. (In Ukrainiаn).

Surimi seafood. What have you done with surimi lately.

Peshuk, L. Zabolotna, O., Ivanova, T. (2017). Physical and chemical characteristics of poultry meat mechanically washed with various organic acids. Naukovi praci NUHT, 5, 44–57.

Bonifer, L. B., Froning, G. W. (1996). Chicken skin composition asaffected by aqueous washing. Journal of Food Science, 61(5), 895–898.

Yang, T. S., Froning, G. W. (1992). Selected washing processes affect thermal gelation properties and microstructure of mechanically deboned chicken meat. Journal of Food Science, 57(2), 325–329.

Ramadhan, K., Huda, N., Ahmad, R. (2014). Effect of number and washing solutions on functional properties of surimi‐like material from duck meat. Journal of Food Science and Technology, 51(2), 256–266.

Ismail, I., Huda, N., Ariffin, F. (2014). Quality characteristics of spent duck sausages containing surimi like material substitution during refrigerated storage. International Journal of Poultry Science, 13(4), 228–239.

Ng, X. Y., Huda, N. (2011). Thermal gelation properties and quality characteristics of duck surimi‐like material (duckrimi) as affected by the selected washing processes. International Food Research Journal, 18(2), 731–740.

Park, J. W. (2005). Surimi and surimi seafood (2nd ed.). Boca Raton,FL: CRC Press.

Massingue A.A., Filho R.A.T., Fontes P.R., Asaam S., Gomes M.E.S., Ramos A.L.S., Ramos E.M. (2019). Effect of washing cycles and solutions on chemical composition and physicochemical properties of the surimi-like material from mechanically deboned turkey meat. Journal of Food Processing and Preservation, 43(2), 1–11.

Galenko, О., Schuler, S., Bezpalko, V., Gasyuk, O. (2020). Impact of washing solutions on chemical composition and physicochemical properties of surimi-like mechanically deboned turkey meat. Food and Environment Safety, XIX(2–2020), 170–175.

Pavlotska, L. F., Dudenko, N. V., Tsikhanovska, I. V., Lazareva, T. A., Aleksandrov, O. V., Kovalenko, V. O., Skurikhina, L. A., Yevlash, V. V. (2012). Nutritionology. Part 1. General nutrition. Education manual., Kh: UІPА.

Peshuk L.V., Simonova I.I. (2020). The influence of various heat treatment methods on the technology of special purpose meat delicacies. Modern engineering research: Topical problems, challenges and modernity. Prague. Czech, 351–369.

Peshuk L. Processing technologies of secondary products of the meat industry (2021). K.: "Center for educational literature". 400.

[Scientific bases of the technology of frozen meat semi-finished products using functional systems of cryoprotective action]. (In Ukrainian).

[Scientific bases of restructured products technology obtained by ionotropic gelation]. (In Ukrainian).

Sidorenko, O., Apache, M., Burkatska, G. (2016). [Biologic value of bilk]. Tovary i rynky, 1, 159–168. (In Ukrainian).

[Actual problems of the development of food production, hospitality, restaurant industry and trade]. (In Ukrainian).

Sychevskyi, М., Voitsekhivska, L., Kopylova, К., Verbytskyi, S., Okhrimenko, Y. (2021). Критеріальні особливості структурних характеристик тонкотекстурованого м’яса птиці. Food Science and Technology, 15(1).

[Water activity]. (In Ukrainian).