You are here

Головна » Scientific Journal of Veterinary Medicine 2'2022

Hygienic justification of use absorbent Polyphan-K when growing piglets

The introduction of intensive livestock production technologies involves a significant concentration of livestock in a limited area, which contributes to the spread of conditionally pathogenic and pathogenic microflora and, as a result, the occurrence of diseases of farm animals. Therefore, it is necessary to develop highly efficient disinfection means to ensure a stable veterinary well -being of livestock, the efficiency of which should be investigated at the stage of development and selection of substances, since a significant number of currently now proposed disinfectants are toxic, immunosuppressive and have a distant impact on the body. The search for new, more effective and harmless disinfectants, especially complex disinfectants, has been and remains a topical problem of modern veterinary medicine. The materials of this article highlights the issues of substantiating the use of polyfhan absorbent in the process of growing pigs of large white breed of different sexual groups. For the first time, the normalizing effect of polyfhan absorbent on the microclimate indoors for growing pigs, their natural resistance, the intensity of body weight gain and the development of piglets and the development of erythropoiesis and metabolic processes in tissues, which have a positive effect on the conservation and intensity At a certain optimal dose of use- 50 g/m² of area, once a day for 7 days of the postnatal period. The use of the polyfan-K absorbent at a dose of 20-100 g/m² does not cause any side effects, but instead the conservation of pigs increases to 95-98 %, and weight gain increases by 18.8 %.The positive effect of the absorbent of Polyfan-K in production conditions on natural resistance of piglets gives reason to recommend its use in the process of growing pigs. The material of the presented studies is presented in «Recommendations for the use of the absorbent of Polyfan-K for growing pigs».

Key words: pig farming, piglets, hygienic justification, conditions of keeping, disinfectant, natural resistance, metabolic processes, preservation, growth intensity.

 

LYASOTA V. https://orcid.org/0000-0002-2442-2174


BUKALOVA N. https://orcid.org/0000-0003-4856-3040


BOGATKO N. https://orcid.org/0000-0002-1566-1026


MAZUR T. https://orcid.org/0000-0002-9295-7787


KHITSKA O. https://orcid.org/0000-0002-6937-230X


DZHMIL V. https://orcid.org/0000-0003-3590-0167


TKACHUK S. https://orcid.org/0000-0002-6923-1793


PRYLIPKO T. https://orcid.org/0000-0002-8178-20X


  1. Herzog, B., Hüglin, D., Luther, H. (2017). J Liposomogenic U.V. Absorbers are Water-Resistant on Pig Skin-A Model Study With Relevance for Sunscreens. Pharm Sci. 106(2), pp. 495–501. DOI:10.1016/j.xphs.2016.09.031.
  2. Verkholyuk, М., Peleno, R., Turko. I. (2020). Resistance of S. Aureus Atcc 25923, E. Coli 055k59 No. 3912/41 and P. аeruginosa 27/99 to the Wash-disinfectant «Milkodez». EUREKA: Health Sciences, no. 1, рр. 55-60. (in Ukraine). DOI:10.21303/2504- 5679.2020.001100.
  3. Basargin, V.A., Lavryniuk, O.O., Mamchenko, V.Yu. (2018). Biologichna cinnist' m’jasa svynej pry vykorystanni sorbentiv pryrodnogo pohodzhennja [Biological value of pig meat when using sorbents of natural origin]. Naukovi goryzonty [Scientific horizons]. no. 3, pp. 27–32. (in Ukraine).
  4. Vasylchuk, D.O. (2020). Biobezpeka svynars'kyh pidpryjemstv [Biosecurity of pig enterprises]. Stan ta perspektyvy vyrobnyctva, pererobky i vykorystannja produkcii' tvarynnyctva [State and prospects of production, processing and use of livestock products]. pp. 175-177. (in Ukraine).
  5. Kovalenko, V.L., Kovalenko, P.L., Ponomarenko, G.V., Kukhtyn, M.D., Midyk, S.V., Horiuk, Yu.V., Garkavenko, V.M. (2018). Changes in lipid composition of Escherichia coli and Staphylococcus areus cells under the influence of disinfectants Barez, Biochlor and Geocide. Ukrainian Journal of Ecology. no. 8 (1), pp. 547–550. (in Ukraine). DOI:10.15421/2018_248.
  6. Tytareva, O., Kryukova, L. (2020). Sorbenty mikotoksyniv: pravyl'nyj vybir [Mycotoxin sorbents: the right choice]. Tvarynnyctvo Veterynarija [Animal husbandry Veterinary]. no. 1, pp. 52-54. (in Ukraine).
  7. Kovalenko, V. L., Lyasota, V. P., Sinitsyn, V. A. (2017). Zagal'ni metody profilaktyky shljahom zastosuvannja kompleksnyh dezinfikujuchyh zasobiv: naukovyj posibnyk [General methods of prevention through the use of complex disinfectants: a scientific manual]. Nizhin: Publisher PP Lysenko M.M., 408 p. (in Ukraine).
  8. Harkavenko, T.O., Kovalenko, V.L., Harkavenko, V.M. (2017). Metodychni rekomendacii' shhodo kontrolju sanitarnogo stanu vyrobnyctva, realizacii' ta jakosti dezinfekcii', jaki pidljagajut' veterynarnomu nagljadu [Methodological recommendations for controlling the sanitary state of production, implementation and quality of disinfection, which are subject to veterinary supervision]. Kyiv: DNDILDVSE, 38 p. (in Ukraine).
  9. Ksion, I.M. (2014). Stan ta perspektyvy veterynarnogo zabezpechennja galuzi svynarstva [The state and prospects of veterinary support in the pig industry]. Swine breeding. Issue 65, pp. 273-277. (in Ukraine).
  10. Malyna, V.V., Balatskyi, Yu.O., Hryshko, V.A. (2019). Metody doslidzhennja povitrjanogo seredovyshha: metodychni vkazivky do provedennja laboratorno-praktychnyh zanjat' z gigijeny sil's'kogospodars'kyh tvaryn [Methods of air environment research Methodical instructions for conducting laboratory-practical classes on the hygiene of farm animals. For students of biological-technological and veterinary faculties of full-time and part-time forms of education]. Bila Tserkva, 64 p. (in Ukraine).
  11. Nikitenko, A.M., Lyasota, V.P., Malyna, V.V. (2016). Metody doslidzhennja pryrodnoi' rezystentnosti svynej: metodychni rekomendacii' [Methods of studying the natural resistance of pigs: methodical manual]. Bila Tserkva-Kyiv-Lviv, 75 p. (in Ukraine).
  12. Palii, A.P., Kovalenko, V.L., Ponomarenko, G.V., Kukhtyn, M.D., Paliy, A.P., Bodnar, O.O., Rebenko, H.I., Kozytska, T.G., Makarevich, T.V., Ponomarenko, O.V. (2020). Evaluation of acute toxicity of the "Orgasept" disinfectant. Ukrainian Journal of Ecology. no. 10(4), pp. 273-278. DOI:10.15421/2020_199. (in Ukraine).
  13. Begma, N.A. (2017). Vplyv sorbentu na pokaznyky rostu i rozvytku molodnjaku svynej na vidgodivli [The influence of the sorbent on growth and development indicators of young fattening pigs]. Agrarna nauka ta harchovi tehnologii' [Agrarian science and food technology]. no. 3, pp. 11-18.
  14. Vlizlo, V.V. (2012). Laboratorni metody doslidzhen' u biologii', tvarynnyctvi ta veterynarnij medycyni [Laboratory research methods in biology, animal husbandry and veterinary medicine: a guide]. Lviv: SPOLOM, 764 p. \
  15. Lyasota, V.P., Sokolova, L.M. (2018). Dezinfekcijni zasoby, suchasna harakterystyka ta bezpechnist' pry zastosuvanni u tvarynnyctvi [Disinfectants, modern characteristics and safety when used in animal husbandry]. Naukovyj visnyk veterynarnoi' medycyny [Scientific Bulletin of Veterinary Medicine]. no. 2, pp. 87-99. (in Ukraine).
  16. Jeong, W., Know, S.Y., Kim, Y., Choi, K., Kim, H.T., Son, D. (2019). Fabrication of a Novel Absorbable Vascular Anastomosis Device and Testing in a Pig Liver Transplantation Model. Park UJ, Ann Biomed Eng. 47(4), pp. 1063–1077. DOI:10.1007/ s10439-019-02212-5.
  17. Lauridsen, C. J. (2020). Effects of dietary fatty acids on gut health and function of pigs pre and post-weaning. Anim Sci. 98(4):skaa086. DOI: 10.1093/jas/skaa086.
  18. Huang, S.Y., Damasko, J., Tian, L., Lu, L., Perez J., Dixon, K. (2020). In vivo performance of gold nanoparticle-loaded absorbable inferior vena cava filters in a swine model. Biomater Sci. 8(14), pp. 3966– 3978. DOI:10.1039/d0bm00414f.
  19. Ossowski, M., Wlazło, Ł., Nowakowicz-Dębek, B., Florek, M. (2021). Animals (Basel). Effect of Natural Sorbents in the Diet of Fattening Pigs on Meat Quality and Suitability for Processing. 11(10), 2930 p. DOI:10.3390/ani11102930.
  20. Lauridsen, C. J. (2020). Effects of dietary fatty acids on gut health and function of pigs pre- and post-weaning. Anim Sci. 98(4):skaa086. DOI:10.1093/ jas/skaa086.
  21. Lenart-Boroń, A., Darab, D., Chrobak, J. (2021). Microbiological Aerosol, Particulate Matter Concentrations and Antibiotic Resistant Staphylococcus spp. in the Premises of Poland’s Oldest Agricultural School. Atmosphere. Vol. 12, no. 8, pp. 934-947. DOI:10.3390/atmos12080934.
  22. Davin-Regli, A., Pagès, J.M. (2019). Cross-resistance between biocides and antimicrobials: an emerging question. Revue Scientifiqueet Technique. Vol. 31, no. 1, рр. 89–104. DOI:10.20506/ RST.31.1.2099.
  23. Kovalenko, V. L., Kovalenko, P. L., Ponomarenko, G. V., Kukhtyn, M. D., Midyk, S. V., Horiuk, Yu. V., Garkavenko, V. M. (2018). Changes in lipid composition of Escherichia coli and Staphylococcus areus cells under the influence of disinfectants Barez, Biochlor and Geocide. Ukrainian Journal of Ecology. Vol. 8, no. 1, рр. 547–550. DOI:10.15421/2018_248. (in Ukraine).
  24. Paly, A.P., Kovalenko, V.L., Ponomarenko, G.V., Kukhtyn, M.D., Paly, A.P., Bodnar, O.O., Rebenko, H.I., Kozytska, T.G., Makarevich, T.V., Ponomarenko, O.V. (2020). Evaluation of acutetoxicity of the "Orgasept" disinfectant. Ukrainian Journal of Ecology. Vol. 10, no. 4, pp. 273–278. DOI:10.15421/2020_199. (in Ukraine).
  25. Stojanovs'kyj, V.G., Macjuk, O.I., Kolotnic'kyj, V.A. (2017). Dynamika lejkocytiv porosjat u rizni stresorni periody ontogenezu pry zgoduvanni dobavok «V-gljukan» ta «Biovir» [The dynamics of leukocytes of piglets in different stressful periods of ontogenesis when feeding "B-glucan" and "Biovir" supplements]. Nauk. vísnik LNUVMBT ím. S.Z. Gzhyc'kogo [Scientific messenger of Lviv National University of veterinary medicine and biotechnologies named after S.Z. Gzhytskyj]. 19(73), pp. 193–197. DOI:10.15421/ nvlvet7340 (in Ukrainian).
  26. Stabel, J.R., Walker, T.M. (2020). An eco-friendly decontaminant tokill Mycobacterium aviumsu bsp. Paratuberculosis. Journal of Microbiological Methods. Vol. 176, 106001 р. DOI:10.1016/j. mimet.2020.106001. (in Ukraine).
  27. Rybachuk, Zh.V. (2016). Farmakologichna dija preparatu «Ekosorb 25» ta vplyv na riven' napruzhenosti imunitetu svynej, shho znahodjat'sja na vidgodivli [Pharmacological action of the drug "Ekosorb 25" and its effect on the level of immune tension of fattening pigs]. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Veterinary Sciences. Vol. 18, no. 3 (71), pp. 75-78.
  28. Dean, C.J., Slizovskiy, I.B., Crone, K.K., Pfennig, A.X., Heins, B.J., Caixeta, L.S., Noyes, N.R. (2021). Investi gating the cowskinand teat canal microbiome sof the bovineud derusing differents amplingand sequen cingap proaches. Journal of Dairy Science. Vol. 104, no. 1, рр. 644–661. DOI:10.3168/ jds.2020-18277G.
  29. Kornienko, L.M. (2016). Methodological recommendations for determining the economic efficiency of veterinary measures, Bilotserkiv National University of Science and Technology. 43 p.
AttachmentSize
PDF icon lyasota_2_2022.pdf548.51 KB
Scientific Journal of Veterinary Medicine 2'2022