RU2165267C1 - Method of combating aspergillosis when disinfecting cattle-breading rooms - Google Patents

Abstract

FIELD: veterinary medicine. SUBSTANCE: surfaces of rooms are treated for 2-3 h with electrically activated catholyte solution with pH 10-12 and redox potential form Ц800 to -900 mV and then, for at least 7 h, with electrically activated anolyte solution with pH 2-3 and redox potential +1100 mV. The latter solution contains 0.04-0.05% of active chlorine and its consumption is 150-299 ml per 1 sq.m of surface being treated. EFFECT: enhanced aspergillosis-combating activity. 1 tbl

Description

 The invention relates to veterinary medicine and is intended for the disinfection of animal husbandry in order to combat aspergillosis.

 It is known to use disinfectants such as formalin and iodine-containing preparations for disinfection of livestock buildings [1].

 The disadvantage of using these disinfectants is the short duration of the sporostatic effect, as well as the need to use them at high concentrations and a large exposure. The effective effect of these drugs is manifested only on the vegetative forms of fungi of the genus Aspergilus.

 The invention solves the problem of increasing the effectiveness of the fight against aspergillosis in the disinfection of livestock buildings.

This is achieved by the fact that in the method of controlling aspergillosis during disinfection of livestock buildings, including treating with a disinfectant according to the invention, the surfaces are first treated with a catholytic electroactivated solution with a pH of 10-12, redox potential (ORP) of -800-900 mV with an exposure of 2- 3 hours, and then with an anolyte electroactivated solution with pH 2 - 3, ORP + 1000 mV, active chlorine content (S.A.H.) of 0.04 - 0.05% and a solution flow rate of 150 - 200 ml per 1 m ² the treated surface, while the exposure is not less than e 7 hours.

 Thus, in the beginning, in addition to improving the quality of washing (due to the good washing properties of catholyte), the growth of all pathogenic microflora, especially spore-forming microorganisms, is provoked (due to the unique biostimulating properties of catholyte). Subsequent treatment with anolyte solution completely destroys the spore forms of these fungi, even in the presence of environmental protection of their crops in the form of various pollution of livestock and poultry facilities.

The method is carried out in two stages: the first is the provocation of microflora growth, the second is the disinfection (destruction) of spore-forming fungi. To do this, first wipe or rinse the surface of the room and technological equipment with a catholytic solution. For heavily soiled surfaces, the catholytic solution is treated repeatedly. Then, by small-droplet spraying, the anolyte solution is treated in a dose of 150-200 ml per 1 m ^{2 of the} treated surface. Then the room is closed (ventilation is eliminated) to maintain the necessary level of moisture. Used for the implementation of the method, the catholytic and anolyte solutions are produced in electroactivators STEL-10 AK.

 The table below summarizes the effects of electroactivated aqueous solutions on spore-forming parasitic fungi of the genus Aspergilus (Aspergilus flavus, A. fumigatus, A. nidulans, A. nigra, A. parasiticus, etc.) and species of the genus Tusarium.

 From the data of the table it follows that treatment with an acid anolyte solution has a sporostatic effect for 3-6 hours, the sporocidal effect is manifested during this treatment only after 24 hours. A treatment option with a provoking effect (catholyte + anolyte) gives a sporocidal effect, starting from 6 hours exposure.

Sources of information
1. Kirpichenok V.A. Veterinary disinfection guide. - Minsk: Urajay, 1991, p. 12-28.

Claims (1)

A method of controlling aspergillosis during disinfection of livestock buildings, including disinfectant treatment, characterized in that the surfaces are first treated with a catholytic electroactivated solution with a pH of 10-12, redox potential (ORP) of 800-900 mV with an exposure of 2 to 3 hours, and then - an anolyte electroactivated solution with pH 2 - 3, ORP + 1100 mV, containing 0.04 - 0.05% active chlorine with an exposure of at least 7 hours and a solution flow rate of 150 - 200 ml per 1 m ^{2 of the} treated surface.

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