RU2734421C1 - Method for livestock premises air sanitation and hygiene treatment - Google Patents

Abstract

FIELD: hygiene.SUBSTANCE: invention relates to hygiene and sanitation and is intended for disinfection and sanitation of indoor air in presence of people and/or animals, as well as for cleaning air from unpleasant odors. Method of sanitary and hygienic treatment of air of cattle-breeding premises includes ultraviolet irradiation with mercury UV-lamp with radiation energy density of 0.5 J/cmduring 10 min heated to 40 °C a bactericidal preparation containing Peucedanum morisonii essence oil, a mixture of ionol with synthetic vitamin E, phenylethyl alcohol and nisin in ratio of 1:0.01:2:0.05.EFFECT: use of the invention increases efficiency of the decontamination of indoor air, as well as increases antimicrobial activity and stability of the active substance.1 cl, 2 tbl

Description

The invention relates to the field of hygiene and sanitation and can be used for disinfection and sanitation of indoor air in the presence of people and / or animals, as well as for cleaning the air from unpleasant odors.

Known composition for sterilization, which contains, wt.%: Citral 93-95, phenylethyl alcohol 3-4, essential oil of lemon wormwood 2-3 (RF patent No. 2628863) [1].

The disadvantages of the invention is that the essential oils of plants included in the composition for sterilization are easily oxidized.

There is a known method of stabilizing essential oils from coniferous plant materials to oxidation, in which a synergistic mixture of antioxidants from D, L-α-tocopheryl acetate (synthetic vitamin E) and ionol is used as a stabilizer of oils at a ratio of 50: 50 to 5: 95 with a total amount 0.5-1.0 wt.% (RF patent No. 2407547) [2]. The method allows to increase the shelf life of oils in the presence of air up to a temperature of 70 ° C in an iron container, however, the resulting mixture does not have high antibacterial properties.

Closest to the claimed solution is a method of phytodesinfection of indoor air, which includes ultraviolet irradiation of a bactericidal preparation. In this case, a composition heated to 40 ° C is used as a bactericidal preparation containing Morrison's mountaineer essential oil, a mixture of ionol with synthetic vitamin E and phenylethyl alcohol in a ratio of 1: 0.01: 2, and for ultraviolet irradiation, a mercury UV lamp with a density radiation energy 0.5 J / cm ³ for 10 min. (RF patent No. 2710932) [3].

The disadvantage of this method is the insufficient disinfection activity of the bactericidal preparation.

The objective of the proposed method is to improve the efficiency of the process of disinfection of indoor air.

The technical result of the proposed method is to increase the antimicrobial activity of the active substance.

The task and the specified technical result are achieved due to the fact that in the known method of sanitary and hygienic treatment of the air of livestock buildings, including ultraviolet irradiation with a mercury UV lamp with a radiation energy density of 0.5 J / cm ³ for 10 minutes. heated to 40 ° C bactericidal preparation containing essential oil of Morrison's rosemary, a mixture of ionol with synthetic vitamin E and phenylethyl alcohol, according to the invention, the bactericidal preparation additionally contains nisin, in a ratio of 1: 0.01: 2: 0.05.

Under the influence of Morisson's rosemary essential oil, the ability of E. coli to form biofilms disappears, but the essential oil does not have a bactericidal effect on spore-forming rods (B. subtilis) (Kartashova O.L., Utkina T.M., Popova L.P. Regulation of antilysozyme activity of microorganisms and their ability to form biofilms with essential oils of medicinal plants / Vestnik OSU, 2014, No. 13, pp. 45-49) [4]. It is also known that the most effective use of heated essential oil (RF Patent No. 165017) [5], and the use of ionol antioxidants and synthetic vitamin E allows you to maintain the physical and chemical properties of essential oils at elevated temperatures.

Plant furocoumarin obtained from Morrison's mountaineer has antibacterial activity (Shirokikh I.V., Burova L.G., Lipeeva A.V., Shultz E.E. Study of the antibacterial properties of peucedanin derivatives in relation to STAPHYLOCOCCUS AUREUS IN VITRO / Siberian medical bulletin, 2018, No. 2, pp. 8-12) [6]. In addition, furocoumarins have a photosensitizing effect under the action of ultraviolet irradiation (Vorontsov A.V., Kozlova E.A., Besov A.S., Kozlov D.V., Kiselev S.A., Safatov A.S. Photocatalysis: transformation light energy for oxidation, disinfection and decomposition of water / Siberian Medical Bulletin, 2018, No. 2, pp. 8-12) [7].

Phenylethyl alcohol (synthetic essential oil) has an inhibitory effect on fungal growth. The use of essential oil vapors for disinfection of materials infected with micromycetes is of practical interest as an alternative to chemical preparations (fungicides) used in the form of solutions. The vapor pressure of the oils allows them to be used in. as fumigants, they are not toxic (Belikova TD, Trepova ES Study of the fungicidal action of synthetic essential oils on micromycetes / Vestnik OSU, 2014, No. 13, pp. 45-49) [8].

Nisin (polypeptide antibiotic) has an unusually broad antimicrobial spectrum for bacteriocin, being active against most gram-positive bacteria (eg, Bacillus, Clostridium, Listeria species). In addition, nisin is able to maintain its distinctive antimicrobial characteristics even under the influence of high temperatures (Hurst A. Nisin / Advances in Applied Microbiology, 1981, No. 27; 85-123) [9].

The method was carried out as follows. In a closed room, a composition was heated to 40 ° C containing Morrison's mountaineer essential oil, a mixture of ionol with synthetic vitamin E, phenylethyl alcohol and nisin in a ratio of 1: 0.01: 2: 0.05. A mixture of ionol with synthetic vitamin E can be taken in any proportion. Heating the mixture can be carried out using any device that allows you to control the heating temperature of the proposed composition. Simultaneously with heating the composition, a mercury UV lamp with a radiation energy density of 0.5 J / cm ^{3 was} switched on for 10 minutes.

The total microbial contamination was determined by the aspiration method using the Krotov apparatus. Air samples were taken to determine its bacterial contamination before and after air treatment. To determine the content of yeast-like and mold fungi, inoculation was carried out on Sabouraud's medium, total microbial contamination on plain agar. The air flow rate was 25 l / min for 40 min. The inoculated media were kept in a thermostat at (37 ± 1) ° С for 24 h, then at room temperature for 24 h, and then the grown bacterial colonies were counted and the colony-forming units (hereinafter referred to as CFU) contained in 1 m ^{3 of} air were calculated. ...

In the process of processing, a decrease in the total microbial contamination and mold fungi was noted (tables 1, 2).

The total microbial contamination when using the method of sanitary and hygienic treatment of the air of livestock buildings is reduced on average by 1.08 times compared with the use of the known method, the content of molds - by 1.25 times.

As can be seen from the tables, after applying the proposed method, the total microbial contamination of the premises decreases by an average of 3.46 times, the content of molds - by 5.75 times.

Claims (1)

A method of sanitary and hygienic treatment of the air of livestock buildings, including ultraviolet irradiation with a mercury UV lamp with a radiation energy density of 0.5 J / cm ³ for 10 minutes a bactericidal preparation heated to 40 ° C containing Morrison's mountaineer essential oil, a mixture of ionol with synthetic vitamin E and phenylethyl alcohol, characterized in that the bactericidal preparation additionally contains nisin, in a ratio of 1: 0.01: 2: 0.05.