RU2580759C1 - Biocidal agent - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to biocidal agents and is intended for protection of materials and articles from biodeterioration microorganisms. Biocidal agent contains imbricin, water, alcohol and chlorhexidine bigluconate. Components are used in claimed amounts.

EFFECT: using the invention increases efficiency of biocide agent at relatively low concentrations of imbricin and chlorhexidine bigluconate.

1 cl, 1 tbl, 4 ex

Description

The invention relates to biocidal agents designed to protect materials and products from biodeterioration by microorganisms, mainly to protect against damage by fungi, and can be used to process products made of paper, cardboard, wood, leather, textiles and other materials, including for processing documents of museum, archival, library collections.

Currently known biocidal agents based on fungicidal antibiotics of natural origin, which are very promising in terms of the effectiveness of the protective effect against fungal infections.

Thus, fungicidal preparations based on macrolide polyene antibiotics, such as natamycin, lucensomycin, nystatin, and others, used in combination with organic acids or with salts of these acids are known [see, for example, DE 2529532, US 5597598].

However, the fungicidal preparations under consideration are effective with a relatively high content of polyene antibiotic (up to 1%) and the above active substances (up to 5%), which exacerbates the problem of environmental pollution. Significant disadvantages of these drugs include the fact that they include medical polyene antibiotics, the use of which for non-medical purposes is not desirable.

A special group consists of antifungal macrolide non-polyene antibiotics of natural origin, which, in particular, include the non-medical antibiotic prescription imbritsin, whose properties are described, for example, in [Sukharevich M.E. Abstract of the dissertation on the topic: “Regulation of the biosynthesis of the antifungal antibiotic imbritsin and its mechanism of action on fungi. HAC 03.00.07, St. Petersburg, 1997].

Imbricin has a high fungicidal activity, a wide spectrum of action, low toxicity, as well as high stability and low volatility. These properties make it possible to attribute imbritsin to the number of antifungal agents that are promising for use as part of biocidal agents.

So, it is known the use of imbricin in the composition of a biocidal agent used for processing paper pulp in the process of manufacturing bioresistant paper [see RU 2048007]. The considered biocidal agent is a water-alcohol solution of imbritsin with a concentration of 0.50-0.75%.

The specified biocidal agent is selected by the authors as the closest analogue.

In the biocidal agent in question, imbricin is used in relatively high concentrations.

Meanwhile, the use of biocidal products with a high content of biocidal agents in them is undesirable from the point of view of ensuring environmental cleanliness, safety for humans and for protected material.

The task of the invention is to reduce the content of biocides in the product in order to increase its environmental safety.

The essence of the invention lies in the fact that the biocidal agent containing imbricin, water and alcohol, according to the invention additionally contains chlorhexidine bigluconate with the following components in the agent, wt.%:

imbritsin 0.04-0.07 chlorhexidine bigluconate 0.025-0.1 alcohol selected from the group aliphatic alcohols with the number of carbon atoms from 2 to 4 40-60 water the rest is up to 100

The inventive tool as active agents contains imbricin and chlorhexidine bigluconate (hereinafter referred to as HCG).

Imbritsin - a natural macrolide non-polyene non-medical antibiotic; produced by the culture of Streptomyces imbricaras LIA 0112. Structural and empirical formulas are not established. Along with high antimicrobial activity, it has low toxicity and lack of volatility. It is active against yeast-like fungi of the genus Candida and micromycetes of the genera Alternaria, Aspergillus, Penicillium, Trichoderma, Chaetomium, Paecilomyces, etc. It is registered as a preservative in the food industry (SanPiN 2.3.2.1293-03).

Imbricin is a powder soluble in aqueous-alcoholic media.

Chlorhexidine bigluconate is an antimicrobial drug that acts on gram-positive and gram-negative microorganisms, yeast, fungi. Chemically, chlorhexidine is N, N ″ -bis (4-chlorophenyl) -3,12-diimino-2,4,11,13-tetraazatetradecanediimidamide.

Chlorhexidine bigluconate is a powder soluble in water and aqueous-alcoholic media.

Essentially important in the inventive tool is that the fungicidal activity of the combination of its two well-known biocides - imbritsin and CGB - significantly exceeds the fungicidal activity exhibited by each of these biocides individually.

The indicated synergistic effect was identified during experimental studies, the results of which are illustrated in table. one.

In the course of studies, the minimal fungicidal concentration of imbricin, CGB and a combination of imbricin and CGB were determined on pure test cultures of mycelial fungi by serial dilution in Saburo liquid medium.

As can be seen from the table. 1 with the combined use of imbricin and CGB, their minimum fungicidal concentration is several times lower than for each of these substances when used separately.

Thanks to this, it was possible to create a biocidal agent that is highly effective at relatively low concentrations of imbricin and CGB.

The inventive tool is a solution of imbricin and CGB in a mixture of aliphatic alcohol with a number of carbon atoms from 2 to 4, in particular, isopropyl, ethyl, butyl alcohol, with water with an alcohol content of 40 to 60%. The type of alcohol and its content in the agent were selected experimentally from the condition of ensuring good solubility in it of the components of the agent.

The limits of the content of imbritsin and HGB included in the claimed agent were experimentally selected during the study of the fungicidal action of the agent when it processed various types of materials contaminated with micromycetes.

Experimental studies have shown that at selected relatively low concentrations of imbricin and CGB, the claimed drug has high fungicidal activity (against yeast-like fungi of the genus Candida and micromycetes of the genera Alternaria, Aspergillus, Penicillium, Trichoderma, Chaetomium, Paecilomyces, etc.), as well as bactericidal activity against G ⁺ and G ^- bacteria, such as Staphylococcus aureus, S. marcescens, Escherichia coli, E. cloacae, Pseudomonas aeruginosa, Bacillus subtilis.

Thus, the technical result of the claimed invention is to increase the environmental safety of the claimed agent, which is due to the use of the above biocidal agents in the agent at a relatively low content in the agent.

The inventive tool is prepared as follows.

The required amounts of imbricin and CGB are dissolved respectively in a water-alcohol solution and in water, after which the resulting solutions are mixed.

The product is a colorless or light yellow transparent liquid with a faint characteristic odor.

The following are examples of the use of the claimed funds.

Example 1 (comparative).

A biocidal preparation of the following composition was prepared, wt.%:

imbritsin 0.05 chlorhexidine bigluconate 0.05 ethanol 50,0 water 49.9

The specified tool was used to increase the fungus resistance of paper and fabric by processing them with the inventive tool.

For comparison, similar materials (paper and fabric) were treated with water-alcohol solutions of imbritsin with a concentration of imbritsin lying in the range from 0.05 to 0.4 wt.%.

The processing of materials was carried out by impregnation.

Processing efficiency was evaluated by the criterion of mushroom resistance of the tested materials in accordance with GOST 9.048-89 and GOST 9.802-84. GOST 9.048.-89 “Unified system of protection against corrosion and aging. Technical products. Methods of laboratory tests for resistance to mold ”and GOST 9.802-84. “A unified system of protection against corrosion and aging. Fabrics and products from natural, artificial, synthetic fibers and their mixtures. Test method for mushroom resistance. " In accordance with these documents, the mushroom resistance of materials is evaluated in points from 0 to 5, where a rating of 0 points corresponds to the absence of spore and conidia germination under the microscope.

For the study, we used samples of sulphite paper and cotton fabric measuring 20 × 20 mm, which were impregnated with an aqueous suspension containing a mixture of fungal spores (Aspergillus niger, A. terreus, Penicillium ochrochloron, P. funiculosum, Trichoderma viride) with a spore concentration of each type of fungus 1- 2 million / cm ³ mixed in equal volumes.

Tests have shown that when processing paper and fabric with the claimed agent with the above-mentioned content of imbritsin (0.05 wt.%) And CGB (0.05 wt.%), Full mushroom resistance was achieved with respect to the spore mixture of the above mushrooms.

At the same time, the concentration of imbritsin in an aqueous-alcoholic solution, at which full fungus resistance of paper and tissue was achieved with respect to the spore mixture of the above mushrooms, was 0.4 wt.%, Which is an order of magnitude higher than the concentration of imbricin in the claimed means.

The specified result clearly demonstrates the synergistic effect of the combination of biocides used in the inventive tool.

Example 2

A biocidal preparation of the following composition was prepared, wt.%:

imbritsin 0.05 chlorhexidine bigluconate 0.05 isopropyl alcohol 40,0 water 59.9

The specified tool was used for processing contaminated with mushrooms poster made on a paper basis.

Bio-damaged areas of the poster were treated with the claimed agent of the above composition by plugging method.

Mycological control of the poster was carried out before and after its processing with the claimed agent, during which biological samples were taken from the surface of the poster, they were inoculated by serial dilutions on agarized Chapek medium with 2% glucose and the cultures were incubated at 27 ° C in an incubator for 7 days. Moreover, sampling from the treated areas of the poster was carried out after drying the poster after 7 days.

As shown by the results of mycological control in biological samples taken before processing the poster with the claimed agent, the level of contamination of its surface was 5.1 · 10 ³ CFU / dm ² . In biological samples taken after processing the poster with the claimed agent, viable fungi were not detected, which testified to the high efficiency of the poster processing with the claimed agent.

Example 3

A biocidal preparation of the following composition was prepared, wt.%:

imbritsin 0.04 chlorhexidine bigluconate 0.06 isopropyl alcohol 40,0 water 59.9

A paper-based poster contaminated with mushrooms was subjected to biocidal treatment.

Bio-damaged areas of the poster were treated with the claimed agent of the above composition by plugging method.

Mycological control of the poster was carried out before and after its processing by the claimed agent in the same manner as described in example 2.

As shown by the results of mycological control, in biological samples taken before processing the poster with the claimed agent, the level of contamination of its surface was 4.3 · 10 ³ CFU / dm ² . In biological samples taken after processing the poster with the claimed agent, the level of contamination significantly decreased and amounted to 8.6 · 10 ² CFU / dm ² . The processing efficiency of the poster by the claimed tool was about 80%, which is a high rate.

Example 4

A biocidal preparation of the following composition was prepared, wt.%:

imbritsin 0,07 chlorhexidine bigluconate 0.05 isopropyl alcohol 40,0 water 59.88

A paper-based poster contaminated with mushrooms was subjected to biocidal treatment.

Processed bio-damaged areas of the poster by the claimed means of the above composition by plugging method.

Mycological control of the poster was carried out before and after its processing by the claimed agent in the same manner as described in example 2.

As shown by the results of mycological control in biological samples taken before processing the poster with the product, the level of contamination of its surface was 6.0 · 10 ³ CFU / dm ² . In biological samples taken after processing the poster with the product, viable fungi were not detected, which testified to the high efficiency of processing the poster with the claimed product.

Example 5

A biocidal preparation of the following composition was prepared, wt.%:

imbritsin 0.05 chlorhexidine bigluconate 0.05 butyl alcohol 40,0 water 59.9

A skin sample contaminated with fungi was subjected to biocidal treatment.

Bio-damaged areas of the sample from the skin were treated by means of the above composition by plugging method.

Mycological control of a sample from the skin was carried out before and after processing it with the claimed agent, during which a biological sample was taken from the skin surface, inoculated on Chapek’s agar medium containing 2% glucose, and the cultures were incubated at 25 ° C in an incubator for 5 days.

As shown by the results of mycological control in biological samples taken before processing the sample from the skin with the claimed agent, the level of contamination of its surface was 325 CFU / dm ² . In biological samples taken after processing the sample from the skin with the claimed agent, viable fungi were not detected, which testified to the high efficiency of processing the leather product with the claimed agent.

Example 6

A biocidal preparation of the following composition was prepared, wt.%:

imbritsin 0.05 chlorhexidine bigluconate 0,025 isopropyl alcohol 40,0 water 59,925

A wood specimen contaminated with mushrooms was subjected to biocidal treatment.

The treatment was carried out by means of the above composition by irrigation using an aerosol spray.

Mycological control of a tree sample was carried out before and after processing it with the claimed agent, as described in example 5.

As shown by the results of mycological control, in biological samples taken before processing the tree sample with the claimed agent, the level of contamination of its surface was 7.8 · 10 ⁴ CFU / dm ² . In biological samples taken after processing the wood sample with the claimed agent, the level of contamination of its surface decreased significantly and amounted to 1.2 · 10 ⁴ CFU / dm ² . The processing efficiency of a tree sample by the claimed tool was about 85%, which is a high rate.

Example 7

A biocidal preparation of the following composition was prepared, wt.%:

imbritsin 0.05 chlorhexidine bigluconate 0.1 ethanol 50,0 water 49.85

A wood specimen contaminated with mushrooms was subjected to biocidal treatment.

The treatment was carried out by means of the above composition by irrigation using an aerosol spray.

Mycological control of a tree sample was carried out before and after processing it with the claimed agent, during which selection was carried out as described in example 5.

As shown by the results of mycological control, in biological samples taken before processing a tree sample with the claimed agent, the level of contamination of its surface was 5.3 · 10 ⁴ CFU / dm ² . In biological samples taken after processing a tree sample with the claimed agent, viable fungi were not detected, which testified to the high efficiency of processing the tree sample with the claimed agent.

Claims (1)

A biocidal agent containing imbricin, water and alcohol, characterized in that the agent additionally contains chlorhexidine bigluconate with the following components in the agent, wt.%:
imbritsin 0.04-0.07 chlorhexidine bigluconate 0.025-0.1 alcohol selected from the group aliphatic alcohols with the number of carbon atoms from 2 to 4 40-60 water the rest is up to 100