Journal for Veterinary Medicine, Biotechnology and Biosafety

Volume 8, Issue 1–2, May 2022, Pages 30–33

ISSN 2411-3174 (print version) ISSN 2411-0388 (online version)


Nalyvaiko L. I. 1, Boiko V. S. 2, Zavgorodniy A. I. 3, Riabinina O. V. 1

1 State Poultry Research Station of the National Academy of Agrarian Sciences of Ukraine, Birky, Chuhuiv District, Kharkiv Region, Ukraine, e-mail:

2 Luhansk National Agrarian University, Sloviansk, Kramatorsk District, Donetsk Region, Ukraine

3 National Scientific Center ‘Institute of Experimental and Clinical Veterinary Medicine’, Kharkiv, Ukraine

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Citation for print version: Nalyvaiko, L. I., Boiko, V. S., Zavgorodniy, A. I. and Riabinina O. V. (2022) ‘Testing of domestic disinfectants in veterinary medicine’, Journal for Veterinary Medicine, Biotechnology and Biosafety, 8(1–2), pp. 30–33.

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Citation for online version: Nalyvaiko, L. I., Boiko, V. S., Zavgorodniy, A. I. and Riabinina O. V. (2022) ‘Testing of domestic disinfectants in veterinary medicine’, Journal for Veterinary Medicine, Biotechnology and Biosafety. [Online] 8(1–2), pp. 30–33. DOI: 10.36016/JVMBBS-2022-8-1-2-5.

Summary. In the system of veterinary and sanitary measures against the background of environmental changes , it remains relevant to search for new high effective means for disinfection to prevent infectious diseases. In a short time, drugs should eliminate pathogens, which requires the special approach to the choice of methods and means of disinfection. To carry out effective disinfection, the availability of appropriate drugs is required, but most of them do not meet one or another requirement, namely: some drugs have a high bactericidal effect, but are toxic, others have a high effect, low toxicity, but have a destructive effect on the treated surfaces. For practical veterinary medicine, drugs that provide a complex effect on viruses, bacteria and fungi are of particular interest. As effective disinfectants, including aerosols and electro aerosols, for many bacterial and viral diseases of animals and birds, preparations from the aldehyde group showed a positive result: a formaldehyde solution with an active substance content of 37%, an alkaline formaldehyde solution prepared from paraformaldehyde and 1% sodium hydroxide. However, despite their advantage, these preparations have a number of disadvantages, namely: high toxicity with a pronounced odor, instability of working solutions, selectivity against pathogenic microorganisms, corrosiveness and carcinogenicity. With the constant use of these agents, the microflora develops resistance. In this regard, it remains relevant to create new environmentally friendly disinfectants, taking into account the achievements of domestic and foreign practice, harmless to humans and animals, environmentally safe and available for consumers

Keywords: pathogens, infectious diseases


Chidambaranathan, A. S. and Balasubramanium, M. (2019) ‘Comprehensive review and comparison of the disinfection techniques currently available in the literature: Disinfection of dental impressions’, Journal of Prosthodontics, 28(2), pp. e849–e856. doi: 10.1111/jopr.12597.

Firsov, G. M., Rezyapkina, E. A. and Firsova, Yu. G. (2018) ‘Disinfection of poultry houses’ [Dezinfektsiya ptitsevodcheskikh pomeshcheniy], Modern Problems and Promising Directions of Innovative Development of Science: collection of articles on the results of the international scientific and practical conference, Novosibirsk, 12 March 2018 [Sovremennye problemy i perspektivnye napravleniya innovatsionnogo razvitiya nauki: sbornik statey po itogam mezhdunarodnoy nauchno-prakticheskoy konferentsii, Novosibirsk, 12 marta 2018 g.], 2, pp. 6–8. Sterlitamak: Agency for International Studies. ISBN 978-5-907034-62-4. Available at: [in Russian].

Ivanov, B. L., Rudakov, A. I., Zinnatullin, N. Kh. and Lushnov, M. A. (2017) ‘Disinfection of industrial premises and equipment’ [Dezinfektsiya proizvodstvennykh pomeshcheniy i oborudovaniya], Bulletin of the Technological University [Vestnik tekhnologicheskogo universiteta], 20(21), pp. 130–133. Available at: [in Russian].

Jiang, L., Li, M., Tang, J., Zhao, X., Zhang, J., Zhu, H., Yu, X., Li, Y., Feng, T. and Zhang, X. (2018) ‘Effect of different disinfectants on bacterial aerosol diversity in poultry houses’, Frontiers in Microbiology, 9, p. 2113. doi: 10.3389/fmicb.2018.02113.

Maertens, H., De Reu, K., Van Weyenberg, S., Van Coillie, E., Meyer, E., Van Meirhaeghe, H., Van Immerseel, F., Vandenbroucke, V., Vanrobaeys, M. and Dewulf, J. (2018) ‘Evaluation of the hygienogram scores and related data obtained after cleaning and disinfection of poultry houses in Flanders during the period 2007 to 2014’, Poultry Science, 97(2), pp. 620–627. doi: 10.3382/ps/pex327.

Palii, A. P., Pylypenko, S. H., Lukyanov, I. M., Zub, O. V., Dombrovska, A. V., Zagumenna, K. V., Kovalchuk, Y. O., Ihnatieva, T. M., Ishchenko, K. V., Paliy, A. P. and Orobchenko, O. L. (2019) ‘Research of techniques of microclimate improvement in poultry houses’, Ukrainian Journal of Ecology, 9(3), pp. 41–51. doi: 10.15421/2019_707.

Paliy, A. P., Palii, A. P. and Rodionova, E. A. (2017) ‘Disinfectants in the antiepizootic systems’ [Dezinfitsiruyushchie sredstva v sisteme protivoepizooticheskikh meropriyatiy], Proceedings of the State Agricultural Academy of Velikie Luki [Izvestiya Velikolukskoy gosudarstvennoy sel’skokhozyaystvennoy akademii], 2, pp. 24–33. Available at: [in Russian].

Popov, N. I. and Udavliev, D. I. (2002) ‘Yodez new generation disinfectant’ [Yodez dezinfektant novogo pokoleniya], ZooMedVet, 7, p. 29. [in Russian].

Simetskiy, M. A., Popov, N. I., Udavliev, D. I. and Chupakhin, V. I. (2000) ‘Foaming preparations’ [Penoobrazuyushchie preparaty], Proceedings of the All-Russian Research Institute of Veterinary Sanitation [Trudy Vserossiyskogo nauchno-issledovatel’skogo instituta veterinarnoy sanitarii], 108, pp. 19–24. [in Russian].

Yavnikov, N. V. (2020) ‘Effective disinfection’ [Effektivnaya dezinfektsiya], Agricultural Science [Agrarnaya nauka], 1, pp. 40–42. Available at: [in Russian].