Journal for Veterinary Medicine, Biotechnology and Biosafety
Volume
6, Issue 2, February 2020, Pages 32–36
ISSN 2411-3174 (print version) ISSN 2411-0388
(online version)
STUDY OF DISINVASIVE
PROPERTIES OF INNOVATIVE ALDEHYDE DISINFECTANT
Paliy A. P. 1, Sumakova N. V. 1, Mashkey A. M. 1, Gontar V. V. 1, Palii A. P. 2, Yurchenko D. A. 3
1 National
Scientific Center ‘Institute of Experimental and Clinical Veterinary
Medicine’, Kharkiv, Ukraine, е-mail: paliy.dok@gmail.com
2 Kharkiv Petro
Vasylenko National Technical University of
Agriculture, Kharkiv, Ukraine
3 Luhansk National Agrarian University, Starobilsk,
Luhansk Region, Ukraine
Download
PDF (print version)
Citation for print version: Paliy, A. P., Sumakova, N. V., Mashkey, A. M., Gontar, V. V., Palii, A. P. and Yurchenko, D. A. (2020) ‘Study of disinvasive
properties of innovative aldehyde disinfectant’, Journal for Veterinary Medicine, Biotechnology and
Biosafety, 6(2), pp. 32–36.
Download
PDF (online version)
Citation for online version: Paliy, A. P., Sumakova, N. V., Mashkey, A. M., Gontar, V. V., Palii, A. P. and Yurchenko, D. A. (2020) ‘Study of disinvasive
properties of innovative aldehyde disinfectant’, Journal for Veterinary Medicine, Biotechnology and
Biosafety. [Online] 6(2), pp. 32–36. DOI:
10.36016/JVMBBS-2020-6-2-6.
Summary. The
pollution rate of environment by pathogens of invasive diseases and
contamination of manure, soil, water, and other objects by them are constantly
changing depending on the prevalence and intensity of invasion among farm
animals. Prevention and control of invasive animal diseases are essential to
prevent their spread, as well as to obtain high-quality sanitary products for
livestock production. The preservation of pathogens in the environment depends
on the intensity of exposure to natural and artificial factors and their
resistance to chemicals that are used for
disinfection. A large number of disinfectants, both domestic and foreign, have been proposed for disinfection, but they are not always
effective under industrial conditions for conducting forced or preventive
disinfestation. The introduction of disinfectants into practice is impossible
without a preliminary laboratory assessment of their disinvasive
properties. The aim of our work was to study the disinvasive
properties of a new aldehyde disinfectant on the test models of Ascaris suum eggs.
The studies were carried out in the Laboratory of Veterinary Sanitation and
Parasitology of the National Scientific Center ‘Institute of Experimental
and Clinical Veterinary Medicine’ in accordance with the methodological
recommendations ‘Methods to Identify and Evaluate Safety Parameters and
Quality of Disinfectants, Detergent-Disinfectants Used During Production,
Storage, Transportation and Sale of Products of Animal Origin’ (2010). As a result of the studies, it was found that the aldehyde
disinfectant exhibits disinvasive properties to the
test culture of Ascaris suum
eggs when applied at a concentration of 4.0% at room temperature
(18–20 ± 0.5°C) and
exposure of 3 h. The disinfectant can be used for
preventive and forced disinvasions of animal holding
facilities and other veterinary control facilities
Keywords: disinfectant, disinvasive
properties, Ascaris suum, test
culture, concentration, exposure
References:
Akamatsu, T., Tabata, K., Hironaga, M.
and Uyeda, M. (1997) ‘Evaluation of the efficacy of a 3·2% glutaraldehyde product
for disinfection of fibreoptic endoscopes with an
automatic machine’, Journal of Hospital Infection, 35(1), pp. 47–57.
doi: https://doi.org/10.1016/S0195-6701(97)90167-5
Bessat, M. and Dewair, A. (2019) ‘Assessment of the inhibitory
effects of disinfectants on the embryonation of Ascaridia columbae
eggs’, PLoS ONE, 14(5), p. e0217551. doi:
https://doi.org/10.1371/journal.pone.0217551
Brownell, S. A. and Nelson, K. L.
(2006) ‘Inactivation of single-celled Ascaris suum eggs by low-pressure UV
radiation’, Applied and Environmental Microbiology, 72(3),
pp. 2178–2184. doi:
https://doi.org/10.1128/AEM.72.3.2178-2184.2006
Burgess, W., Margolis, A., Gibbs, S.,
Duarte, R. S. and Jackson, M. (2017) ‘Disinfectant
susceptibility profiling of glutaraldehyde-resistant nontuberculous mycobacteria’, Infection Control
and Hospital Epidemiology, 38(7), pp. 784–791. doi: https://doi.org/10.1017/ice.2017.75
Campbell, I., Tzipori, A.,
Hutchison, G. and Angus, K. (1982) ‘Effect of disinfectants on
survival of cryptosporidium oocysts’, Veterinary
Record, 111(18), pp. 414–415. doi: https://doi.org/10.1136/vr.111.18.414
Daugschies, A., Bangoura, B. and Lendner, M. (2013) ‘Inactivation of exogenous endoparasite stages by chemical disinfectants: Current
state and perspectives’, Parasitology Research, 112(3),
pp. 917–932. doi:
https://doi.org/10.1007/s00436-013-3324-4
Koski, P., Anttila, P. and Kuusela, J.
(2015) ‘Killing of Gyrodactylus salaris by
heat and chemical disinfection’, Acta
Veterinaria Scandinavica,
58, p. 21. doi: https://doi.org/10.1186/s13028-016-0202-y
Oh, K.-S., Kim, G.-T., Ahn, K.-S. and
Shin, S.-S. (2016) ‘Effects of disinfectants on larval development
of Ascaris suum
eggs’, The Korean Journal of Parasitology, 54(1),
pp. 103–107. doi:
https://doi.org/10.3347/kjp.2016.54.1.103
Paliy, A. P. (2018) ‘Antibacterial effect of
‘Ecocide C’ disinfectant against mycobacteria’ [Efektyvnist antybakterialnoi dii dezinfikuiuchoho zasobu «Ekotsyd S» shchodo mikobakterii], Ukrainian
Journal of Ecology, 8(1), pp. 141–147. doi: https://doi.org/10.15421/2018_198.
[in Ukrainian]
Paliy, A. P. and Paliy, A. P.
(2019) Technic and Technological
Innovations in Dairy Cattle [Tekhniko-tekhnolohichni innovatsii u molochnomu skotarstvi]. Kharkiv: Miskdruk.
ISBN 9786176192077. [in Ukrainian]
Paliy, A., Zavgorodniy, A., Stegniy, B. and Gerilovych, A.
(2015) ‘A study of the efficiency of modern domestic disinfectants in the
system of TB control activities’, Agricultural Science and Practice,
2(2), pp. 26–31. doi:
https://doi.org/10.15407/agrisp2.02.026
Paliy, A., Stegniy, B., Muzyka, D., Gerilovych, A.
and Korneykov, O. (2016) ‘The study of the
properties of the novel virucidal
disinfectant’, Agricultural Science and Practice, 3(3),
pp. 41–47. doi: https://doi.org/10.15407/agrisp3.03.041
Paliy, A. P., Sumakova, N. V.,
Mashkey, A. M., Stegniy, B. T.,
Guzhvynska, S. O. and Rodionova, K. O.
(2018a) A
Method for Disinvasion of Surfaces Contaminated with Ascaris Suum Eggs [Sposib dezinvazii poverkhon, kontaminovanykh yaitsiamy Ascaris suum]. Patent no. UA 130430. Available at: https://base.uipv.org/searchINV/search.php?action=viewdetails&IdClaim=253529.
[in Ukrainian]
Paliy, A. P., Sumakova, N. V.,
Mashkey, A. M., Petrov, R. V.,
Paliy, A. P. and Ishchenko, K. V.
(2018b) ‘Contamination of animal-keeping
premises with eggs of parasitic worms’, Biosystems
Diversity, 26(4), pp. 327–333. doi: https://doi.org/10.15421/011848
Paliy, A., Sumakova, N.,
Petrov, R., Shkromada, O.,
Ulko, L. and Palii, A.
(2019) ‘Contamination of urbanized territories with eggs of helmiths of animals’, Biosystems
Diversity, 27(2), pp. 118–124. doi: https://doi.org/10.15421/011916
Pecson, B. M.
and Nelson, K. L. (2005) ‘Inactivation of Ascaris
suum eggs by ammonia’, Environmental
Science and Technology, 39(20), pp. 7909–7914. doi: https://doi.org/10.1021/es050659a
Rajan, J. S.
and Ripple, S. D. (2009) ‘Efficacy and safety of glutaraldehyde-based high level disinfectant
products’, American Journal of Infection Control, 37(5), p. e22. doi:
https://doi.org/10.1016/j.ajic.2009.04.022
Shalaby, H. A.,
Abdel-Shafy, S., Ashry, H. M.
and El-Moghazy, F. M. (2011)
‘Efficacy of hydrogen peroxide and dihydroxy benzol mixture (disinfectant) on Toxocara canis eggs’, Research Journal
of Parasitology, 6(4), pp. 144–150. doi: https://doi.org/10.3923/jp.2011.144.150
Yu, Y.-M., Kim, J.-W., Na, W.-S.,
Youn, Y.-N., Choi, I.-W. and
Lee, Y.-H. (2014) ‘Effects of some pesticides on development of Ascaris suum
eggs’, The Korean Journal of Parasitology, 52(1),
pp. 111–115. doi:
https://doi.org/10.3347/kjp.2014.52.1.111
Zavgorodniy, A. I., Stegniy, B. T., Paliy, A. P., Gorzheiev, V. M.
and Smirnov, A. M. (2013) Scientific
and Practical Aspects of Disinfection in Veterinary Medicine [Naukovi ta praktychni aspekty dezinfektsii u veterynarii]. Kharkiv: FOP Brovin O. V.
ISBN 9789662445596. [in Ukrainian]
Zazharskyi, V. V., Davydenko, P., Kulishenko, O., Chumak, V.,
Kryvaya, A., Biben, I. A.,
Tishkina, N. M., Borovik, I.,
Boyko, O. O. and Brygadyrenko, V. V.
(2018) ‘Bactericidal, protistocidal and nematodicidal properties of mixtures of alkyldimethylbenzyl
ammonium chloride, didecyldimethyl ammonium chloride,
glutaraldehyde and formaldehyde’, Regulatory
Mechanisms in Biosystems, 9(4),
pp. 540–545. doi:
https://doi.org/10.15421/021881
