RU2343707C1 - Biocide microorganism inactivation method (versions) - Google Patents

Abstract

FIELD: agricultural industry.

SUBSTANCE: method is based on microorganism inactivation by treating the microorganism environment with an activated biocide solution. According to the first version biocide solution is activated with electromagnetic radiation of extremely high-frequency band by means of electromagnetic radiation treatment during 20-60 seconds, and then irradiated biocide solution is used for treating the microorganism environment. According to the second version first of all, biocide solution is exposed to electromagnetic radiation during 20-60 seconds, and at the same time there obtained is electromagnetic radiation reflected from biocide solution; after that biocide solution is irradiated with the obtained radiation once more during 5-20 minutes, and then irradiated biocide solution is used for treating the microorganism environment. Method is environmentally sound.

EFFECT: effective inactivation of pathogenic microorganisms using low-dose biocide rates.

6 cl, 3 tbl

Description

The invention relates to the inactivation of pathogenic microorganisms using soluble biocides and can be used in medicine, agriculture, as well as for the suppression of fungi that cause the destruction of industrial materials and engineering structures, and in other industries in which special measures must be taken to prevent the development of pathogenic microorganisms .

At present, water-soluble biocidal preparations, which, as a rule, are synthesized chemicals, are widely used in various branches of technology in order to destroy pathogenic microorganisms. In medicine, water-soluble biocides are used as antiseptic, bactericidal and disinfectants, in the food industry they are used for canning, in agriculture biocidal preparations (bactericides, fungicides, insecticides) are used for tillage and plants. Preparations with fungicidal properties are widely used to protect industrial materials and structures from pathogenic fungi, which in the course of their life cause destruction of materials and structures and are sources of toxins, the presence of which in the air leads to a deterioration of the environmental situation in the premises and to the risk of serious diseases of people in in these rooms.

The use of synthetic biocides leads to a deterioration of the environmental situation during inactivation measures and during the operation of treated rooms, since biocides can act as exotoxicants in relation to the human body. In addition, the inactivation of industrial materials by chemical compounds is practically unacceptable in conditions of production associated with increased requirements of chemical purity (biotechnology, pharmacology, fine organic synthesis, etc.).

A known method of inactivation of microorganisms using small non-toxic concentrations of chemicals. This method (for example, RU 2230110, 2004.06.10) involves first treating the habitat of microorganisms with substances with photosensitizing properties, and then irradiating the environment with electromagnetic radiation of the optical range (4 × 10 ⁵ -7 × 10 ⁵ GHz). The mechanism of biocidal action in this case is due to the fact that microorganisms have cells that can selectively accumulate and for some time retain some light-absorbing substances that, under the influence of electromagnetic radiation, stimulate the development of highly toxic photochemical transformations in target cells that cause cell death.

The inactivation of pathogenic microorganisms without the use of biocides is widely known by irradiating the environment of microorganisms with ultraviolet electromagnetic radiation (for example, RU 2270696 C2, 2006.02.27). However, as practice shows, daily ultraviolet irradiation in medical institutions does not alleviate the problem of nosocomial infections caused by the presence of pathogenic fungi and bacteria, while it is noted that many types of fungi are more adaptable to hard radiation than bacteria. It is also known that in sterile boxes it is possible to restrain the growth of bacterial microflora, however, the problem of germination of fungi constantly arises on nutrient media.

The main disadvantage common to all known methods is the decrease in the effectiveness of protection due to mutagenesis and the adaptation of microorganisms to the drugs used, which can manifest itself in the form of the so-called multi-drug resistance, which is expressed in the removal of microorganisms toxic to them from cells substances. Processing a population of microorganisms with chemicals and electromagnetic radiation in the optical range induces the appearance of ever new mutant strains with unpredictable properties. Mutant strains can be pathogenic and aggressive towards their environment (human skin and mucous membranes, materials of technical structures, etc.), as well as resistance to chemical and physical factors.

The closest analogue of the proposed method is a method based on the use as a biocide of a natural non-toxic compound - bischofite, which has weak bactericidal properties. The method includes activating a bischofite dissolved in water by a magnetic field and treating the habitat of pathogenic microorganisms with an activated solution (RU 2243659 C1, 2005.10.01). The effect of using this method is due to the fact that the bischofite solution activated by a magnetic field acquires adhesive properties and good wettability of the surface treated by it, which determines the narrow area of its use - plant protection against pathogenic microorganisms.

The disadvantages of the method are due to the weak biocidal properties of bischofite.

The main technical problem solved by the present invention is the development of a method of inactivation of pathogenic microorganisms of high efficiency, not affecting the state of the environmental situation.

Another main technical problem solved by the present invention is the development of a highly efficient method using biocides in small doses.

The inventive first variant of the method of inactivation of microorganisms by exposing the microorganism habitat to a solution of a biocide that is preactivated is characterized in that the biocide solution is activated by electromagnetic radiation of the EHF range by irradiation with electromagnetic radiation for 20-60 seconds, using the irradiated biocide solution to treat the microorganism habitat .

It is advisable to use electromagnetic radiation in the frequency range 52-78 GHz with a power flux density of 0.1-1.0 μW / cm ² .

It is advisable to modulate electromagnetic radiation with pulses with a repetition rate of 0.1-20 Hz.

The second version of the method of inactivation of microorganisms by exposing the microorganisms to the environment with a biocide solution that is preactivated is characterized in that the biocide solution is activated by electromagnetic radiation of the EHF range, while the biocide solution is first irradiated with electromagnetic radiation for 20-60 seconds and at the same time receive reflected from the solution biocide electromagnetic radiation, then the received radiation is again irradiated with a biocide solution for 5-20 minutes and a biocide solution is used for the treatment of microbial habitat.

It is advisable to use electromagnetic radiation in the frequency range 52-78 GHz with a power flux density of 0.1-1.0 μW / cm ² .

It is advisable to modulate electromagnetic radiation with pulses with a repetition rate of 0.1-20 Hz.

The invention is based on experimental studies.

The experiments were carried out to study the effect of monomeric and polymeric biocides on the fungi Penicillium chrysogenum, Alternaria alternata, Trichoderma viride, Fusarium moniliforme, which are representatives of taxonomic groups that include the main agents of mycological biological damage, as well as gram-negative bacteria Escherichia coli, gram-positive aureus.

When conducting experiments in accordance with the first variant of the method, the aqueous solution of the biocide was activated by irradiation with electromagnetic radiation in the frequency range 52-78 GHz. An activated aqueous biocide solution was used to determine the degree of inactivation of fungi and bacteria.

When conducting experiments in accordance with the second variant of the method, the aqueous biocide solution was activated by irradiation with electromagnetic radiation in the frequency range 52-78 GHz and at the same time received electromagnetic radiation reflected from the biocide solution, then the biocide solution was irradiated again with the received radiation, after which the biocide solution was used to determine the degree of inactivation fungi and bacteria.

In the experiments used a source of EHF electromagnetic radiation with a power flux density of 0.1-1.0 μW / cm ² with a modulation frequency of electromagnetic radiation in the range of 0.1-20 Hz. The time of irradiation of the dissolved biocide with radiation generated by the source was chosen from the range of 20-60 seconds. The radiation reflected from the biocide solution was received simultaneously with its irradiation for 20-60 seconds. Irradiation of the biocide solution with the adopted radiation in accordance with the second variant of the method was carried out for 5-20 minutes.

The technical implementation of the method is determined by the currently calibrated devices that allow the formation and reception of low-intensity radiation. The device used in the experiments contains, as an active element, a radiation generator and a Gunn diode as a radiation receiver (see, for example, M.E. Levinshtein, Yu.K. Pozhela, M.S. Shur. Gann effect. M., "Soviet Radio ”, 1975, 288 p.). The lack of a reliable technical base did not allow experiments with electromagnetic radiation with other frequency parameters.

As experiments have shown, the efficiency of inactivation of microorganisms in the given frequency and time ranges varies slightly, therefore, the tables below illustrating the effectiveness of the claimed method variants show the results of studies when the biocide solution is irradiated with electromagnetic radiation modulated at a frequency of 10 Hz for 50 sec. Accordingly, for the second variant of the method, radiation reflected from the biocide solution was received for 50 seconds, and the time of irradiation of the biocide solution with the received reflected signal was 15 minutes.

When conducting experiments with fungi, soluble biocides with fungicidal properties were used BK-1 (Baktsid) TU 2484-010-05744685-96 (ethanolamine-based trimer), Asan wood preservative TU 2482-76662755- 2005 (active ingredient - a catamine derivative - belongs to the class of quaternary ammonium compounds), Teflex disinfectant based on polyhexamethylene guanidine hydrochloride.

Fungicidal tests were carried out according to GOST 9.049-91 (according to method 3). Prepare Chapek-Doks medium with agar, pour it into Petri dishes in an amount of 20-30 cm ³ and let it freeze. A glass cylinder with a diameter of 10 mm is placed in the center of the Petri dish into which the test solution is poured. The surface of the nutrient medium is infected with an aqueous suspension of fungi by uniformly applying it with a spray, preventing droplets from merging. The number of fungal spores in 1 ml of the suspension is 1-2 million. Control plates and plates with test samples are placed in a thermostat. The tests are carried out at a temperature of 28 ± 2 ° C and a relative humidity of more than 90%. The test duration from the moment the regime was established is 14 days. At the end of the test, Petri dishes are removed from the thermostat, examined with the naked eye, and fungicidal properties are evaluated. The presence of fungicidal properties is judged by the presence of an inhibitory zone around the sample: in the nutrient medium, a zone of lack of fungal growth is observed.

The test results for the fungicide aqueous solution of "Asan" in accordance with the first variant of the method are shown in table 1 (n is the number of replicates).

Table 1 Kind of mushroom Biocide used Inhibitory zone (radius in mm) the control experience % to control one 2 3 four 5 Alternaria alternata "Asan" (concentration of 6.5%) 13.3 ± 1.5, n = 6 16.3 ± 2.5, n = 6 123 Fusarium moniliforme "Asan" (concentration of 6.5%) 6.2 ± 1.6, n = 6 9.0 ± 1.5, n = 6 145 Penicillium chrysogenum "Asan" (concentration of 6.5%) 5.4 ± 1.8, n = 6 9.3 ± 2.7, n = 6 172

The tests show an increase in the biocidal effect when using the first variant of the method, however, the effectiveness of the first variant of the method is lower than the efficiency when using the second variant of the method, which is illustrated by the results obtained, shown in table 2 below.

Table 2 shows the results of the fungicidal tests of aqueous solutions "BK-1", "Teflex" and "Asan" of various concentrations in accordance with the second version of the method (n is the number of replicates).

table 2 Kind of mushroom Biocide used Inhibitory zone (radius in mm) the control experience % to control one 2 3 four 5 Alternaria alternata "BK-1" (concentration of 0.5%) 2.3 ± 1.5, n = 6 9.0 ± 2.8, n = 6 391 Alternaria alternata "BK-1" (concentration of 10%) 14.2 ± 0.8, n = 6 31.0 ± 1.2, n = 6 218 Alternaria alternata "BK-1" (concentration of 30%) 23.4 ± 4, n = 6 31.0 ± 3, n = 6 132 Alternaria alternata "BK-1" (concentration of 70%) 26.3 ± 3.2, n = 6 33.6 ± 2.2, n = 6 128 Alternaria alternata "BK-1" (concentration of 100%) 30.0 ± 0.5, n = 6 35.0 ± 0.5, n = 6 117 Penicillium chrysogenum "BK-1" (concentration of 0.5%) 2.0 ± 1.4, n = 6 6.3 ± 3.2, n = 6 315 Penicillium chrysogenum "BK-1" (concentration of 10%) 12.4 ± 2.2, n = 6 14.0 ± 1.6, n = 6 113 Penicillium chrysogenum "BK-1" (concentration of 30%) 14.0 ± 2.2, n = 6 15.6 ± 2.5, n = 6 111 Penicillium chrysogenum "BK-1" (concentration of 70%) 14.4 ± 3.5, n = 6 19.2 ± 2.9, n = 6 133

Table 2 (continued) Kind of mushroom Biocide used Inhibitory zone (radius in mm) the control experience % to control one 2 3 four 5 Penicillium chrysogenum "BK-1" (initial preparation) 26.0 ± 0.5, n = 6 35.0 ± 0.5, n = 6 135 Fusarium moniliforme "BK-1" (initial preparation) 19.8 ± 3.6, n = 6 21.7 ± 2.5, n = 6 110 Alternaria alternata "Asan" (concentration of 6.5%) 19.0 ± 4.4, n = 6 23.3 ± 1.9, n = 6 123 Fusarium moniliforme "Asan" (concentration of 6.5%) 4.0 ± 2.2, n = 6 8.8 ± 2.2, n = 6 220 Penicillium chrysogenum "Asan" (concentration of 6.5%) 6.8 ± 1.8, n = 6 12.8 ± 1.3, n = 6 188 Alternaria alternata Teflex (concentration 10.0%) 13.0 ± 3.5, n = 6 15.7 ± 4.2, n = 6 121 Fusarium moniliforme Teflex (concentration 10.0%) 5.2 ± 1.8, n = 6 7.5 ± 3.0, n = 6 144 Penicillium chrysogenum Teflex (concentration 10.0%) 8.7 ± 3.2, n = 6 12.2 ± 2.1, n = 6 140

The experiments show an increase in the biocidal effect when using various concentrations of biocides in solution (from 0.5% and above). However, the greatest activity is manifested at low concentrations (0.5%), i.e. the use of electromagnetic radiation with the indicated parameters causes an increase in the biological activity of substances with properties that affect the vital activity of microorganisms.

When conducting experiments with the bacteria Staphylococcus aureus and Escherichia coli, the water-soluble disinfectant Leseptic was used.

Bactericidal tests were carried out in accordance with the second method as follows. Bacterial cultures were seeded onto the surface of the nutrient medium with a continuous lawn, and sowing was carried out with a sterile spatula. Turbidity of the bacterial suspension corresponded to 1 unit of the standard standard turbidity. Control Petri dishes and plates with test samples were placed in a thermostat. The tests were carried out at a temperature of 37 ± 2 ° C. The test duration from the moment the temperature regime was established is 24 hours. At the end of the tests, Petri dishes were removed from the thermostat, examined and the bactericidal properties of the material were evaluated. The sensitivity of bacteria to antibiotics was determined by the standard disco-diffusion method.

The test results are shown in table 3 (n is the number of replicates).

Table 3 Type of bacteria Biocide used Inhibitory zone (radius in mm) the control experience % to control Staphylococcus aureus Leseptic (concentration 0.1%) 13.7 ± 1.08, n = 6 17.0 ± 0.5, n = 6 124 Escherichia coli Leseptic (concentration 0.1%) 6.3 ± 1.2, n = 6 6.7 ± 1.2, n = 6 106

The data obtained suggest that the inventive method increases the biocidal activity of aqueous solutions of antimicrobial agents.

The results obtained during experiments on the change in the biocidal action of soluble drugs under the influence of low-frequency EHF radiation have not yet found a theoretical justification. Especially unexpected is the increase in the effectiveness of biocides at their low concentrations in solution, which can significantly reduce the dose of the drugs used and thereby contribute to improving the environmental situation in the area of application of biocide preparations.

Stable repetition of experimental results gives confidence in the applicability of the claimed methods for the effective inactivation of various pathogenic and harmful microorganisms without worsening the environmental situation in the area of biocide use.

The invention can be used to inactivate pathogenic and harmful microorganisms in medicine and the food industry, in agriculture, as well as to suppress fungi that cause the destruction of industrial materials and engineering structures.

Claims (6)

1. The method of inactivation of microorganisms by exposure to a solution of a biocide that is pre-activated, characterized in that the solution of the biocide is activated by electromagnetic radiation of the EHF range by irradiation with electromagnetic radiation for 20-60 s, using the irradiated solution of the biocide to treat the habitat of microorganisms. 2. The method according to claim 1, characterized in that the use of electromagnetic radiation in the frequency range 52-78 GHz with a power flux density of 0.1-1.0 μW / cm ² . 3. The method according to claim 2, characterized in that they use electromagnetic radiation modulated by pulses with a repetition rate of 0.1-20 Hz. 4. The method of inactivation of microorganisms by exposure to a solution of a biocide that is pre-activated, characterized in that the biocide is activated by electromagnetic radiation of the EHF range, while first the biocide solution is irradiated with electromagnetic radiation for 20-60 s and at the same time receive electromagnetic radiation reflected from the biocide solution, then the received radiation is again irradiated with a solution of biocide for 5-20 minutes and a solution of biocide is used to treat the habitat of microorganisms. 5. The method according to claim 4, characterized in that the use of electromagnetic radiation in the frequency range 52-78 GHz with a power flux density of 0.1-1.0 μW / cm ² . 6. The method according to claim 5, characterized in that the use of electromagnetic radiation modulated by pulses with a repetition rate of 0.1-20 Hz.