RU2379890C1 - Antibacterial agent - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention refers to agriculture, particularly to veterinary medicine and can be implemented for disinfection of objects of veterinary inspectorate. Antibacterial agent contains iodine, nitrate of potassium, N-chlorsuccinimide, and starch at following ratio of components, wt %: iodine - 28-36; nitrate of potassium - 36-42; N-chlorsuccinimide - 8-12, starch - the rest. The agent is efficient for preventive sanitation of air and premises and also facilitates affecting all kinds of bacteria, fungi, and virus, including mycobacteria.

EFFECT: invention increases biocide activity and reduces rates of application ensuring pyrotechnic safety.

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Description

The invention relates to agriculture, in particular to veterinary medicine, and can be used to disinfect objects of veterinary supervision.

A bactericidal agent is known - monochloride iodine, which has an antimicrobial effect. It has a wide spectrum of action. Active against bacteria (including mycobacteria), fungi, viruses, spores, oocysts, coccidia. eggs of a number of helminths.

However, the commercial product, which is a solution of iodine monochloride in hydrochloric acid, has high corrosion activity against metal structures, requires special equipment for spraying in air and on surfaces.

Known bactericidal agent containing the active substance - iodine and filler (Krinochkin AD, Litvinenko VV Aerosol aluminum iodide in infectious diseases of birds. Veterinary medicine, 1969, No. 3, p. 41). As a filler, the known agent contains aluminum (dust). The mass ratio of iodine and filler is 10: 1.

However, the known composition is fire hazard (the composition explodes when the ambient humidity exceeds 20%) and is not effective enough. Requirements for air humidity cause increased requirements for storage conditions.

Known bactericidal agent containing the active substance - iodine and filler. The substance additionally contains potassium nitrate, and carbohydrates as a filler in the following ratio of components, wt.%: Iodine - 35-42, potassium nitrate - 38-42, carbohydrates - the rest. The bactericidal agent contains starch, or sucrose, or glucose, or ribose, or fructose as carbohydrates (see RF patent No. 2140293, IPC A61L 2/22).

The disadvantages of this tool are sparking due to the high combustion temperature of nitrate compounds (A.A.Shidlovsky. Fundamentals of pyrotechnics. M: Mashinostroenie, 1957, p.19-24) and unstable characteristics by the amount of iodine transferred to the vapor-aerosol phase.

Closest to the proposed tool is a bactericidal agent containing the active substance - iodine, potassium nitrate and carbohydrates. It additionally contains copper chloride in the following ratio of components, wt.%: Iodine 35-40, potassium nitrate 35-40, copper chloride 3-5, carbohydrates - the rest (see RF patent No. 2253479, IPC A61L 2/22).

The disadvantage of this bactericidal agent is insufficient biological activity and, accordingly, a large consumption rate of the substance per m ^{3 of the} treated volume.

The objective of the invention is to develop a more effective bactericidal agent for the prophylactic sanitation of air and rooms, providing an effect on all types of bacteria, fungi, viruses, including mycobacteria due to the formation of iodine monochloride in the process of thermal sublimation of the agent.

The technical result consists in increasing biocidal activity and reducing the consumption rate while ensuring pyrotechnic safety.

The problem is achieved in that the bactericidal agent containing iodine, potassium nitrate and starch, according to the solution, it additionally contains N-chlorosuccinimide, in the following ratio, wt.%:

Iodine 28-36

Potassium nitrate 36-42

N-chlorosuccinimide 8-12

Starch - the rest.

Prepare the composition by mixing the components in the following sequence. The crushed potassium nitrate is mixed with starch, for example corn (dicstrin) and N-chlorosuccinimide, after which iodine is added. The resulting mass of dirty color, acquiring an orange-yellow color in 3-4 hours, is packed.

After the composition is set on fire, for example, with a household match. In the process of combustion, sublimation of iodine and N-chlorosuccinimide occurs with the simultaneous formation of a more effective bactericidal substance - iodine monochloride. A vaporous mixture of iodine and iodine monochloride is an active substance, which significantly increases the biocidal activity of the drug. Pyrotechnic compositions generating iodine monochloride are unknown; unknown is the use of N-chlorosuccinimide as one of the components of the pyrotechnic mixture. At the same time, the smoke curtain formed during the combustion process is in suspension for a longer time compared to known means.

The intervals of the selected component values correspond to the condition of the pyrotechnic balance. The combination of the claimed components in certain proportions allows achieving the technical result, in particular the addition of N-chlorosuccinimide in a certain proportion allows you to get a vaporous mixture of iodine and iodine chloride, which significantly increases the biocidal activity of the drug.

The effectiveness of the proposed bactericidal agent has been experimentally established.

The invention is illustrated by the following examples.

Example 1. Mix 36 g of crystalline iodine, 36 g of potassium nitrate. 10 g of N-chlorosuccinimide and 18 g of starch, obtaining composition 1 in the following ratio of components, wt.%: Iodine 36, potassium nitrate 36, N-chlorosuccinimide 10, starch - the rest.

Example 2. Mix 35 g of crystalline iodine, 36 g of potassium nitrate, 11 g of N-chlorosuccinimide and 18 g of starch, obtaining composition 2 in the following ratio, wt.%: Iodine 35, potassium nitrate 36, N-chlorosuccinimide 11, starch - rest.

Example 3. Mix 35 g of crystalline iodine, 36 g of potassium nitrate, 9 g of N-chlorosuccinimide and 20 g of starch, obtaining composition 3 in the following ratio, wt.%: Iodine 35, potassium nitrate 36, N-chlorosuccinimide 9, starch - rest.

Example 4. Mix 32 g of crystalline iodine, 38 g of potassium nitrate. 10 g of N-chlorosuccinimide and 20 g of starch, obtaining composition 4 in the following ratio of components, wt.%: Iodine 32, potassium nitrate 38, N-chlorosuccinimide 10, starch - the rest.

Example 5. Mix 30 g of crystalline iodine, 40 g of potassium nitrate, 10 g of N-chlorosuccinimide and 20 g of starch, obtaining composition 5 in the following ratio, wt.%: Iodine 30, potassium nitrate 40, N-chlorosuccinimide 10, starch - rest.

Example 6. Mix 30 g of crystalline iodine, 42 g of potassium nitrate, 8 g of N-chlorosuccinimide and 20 g of starch, obtaining composition 6 in the following ratio, wt.%: Iodine 30, potassium nitrate 42, N-chlorosuccinimide 8, starch - rest.

Example 7. Mix 30 g of crystalline iodine, 38 g of potassium nitrate, 12 g of N-chlorosuccinimide and 20 g of starch, obtaining composition 7 in the following ratio, wt.%: Iodine 30, potassium nitrate 38, N-chlorosuccinimide 12, starch - rest.

Example 8. Mix 28 g of crystalline iodine, 42 g of potassium nitrate, 8 g of N-chlorosuccinimide and 22 g of starch, obtaining composition 8 in the following ratio, wt.%: Iodine 28, potassium nitrate 42, N-chlorosuccinimide 8, starch - rest.

Example 9. Mix 32.5 g of crystalline iodine, 32.5 g of potassium nitrate, 12 g of N-chlorosuccinimide and 23 g of starch, obtaining composition 9 in the following ratio, wt.%: Iodine 32.5, potassium nitrate 32.5 , N-chlorosuccinimide 12, starch - the rest.

Check the bactericidal activity of the claimed composition was carried out by standard methods. Testing of formulations 1-9 obtained according to the examples was carried out on test objects (wooden, metal, rubber and ceramic plates 10 × 10 cm) that were infected with reference cultures (reference strains) - Staph. Aurens. 209 - P / representative of gram-positive microflora / and E. Coli, pcs. 1257 (representative of gram-negative microflora) at the rate of two billionth suspension in 1 ml per 100 cm ² . The surfaces of the test objects were dried for two hours, followed by applying protein protection to it - cattle serum. Test objects were placed in airtight descamers with a volume of 30 m ³ at three different levels: 50 cm from the ceiling of the descamera, 1.5 m from the floor and on the floor, the claimed compositions were introduced into the descamer at the rate of 80 mg / m ³ and set ^on fire. When burning the proposed product, a dense brown-green cloud is released that is stable for 20-30 minutes. The bactericidal activity of compositions 1-9 was determined by the delay in the growth zones of reference cultures in comparison with the known composition. It was found that formulations 1-9 compared with the known composition inhibit the growth of microbial cultures by 40-65% more than the known agent. In addition, the claimed tool can be used in any conditions. In pigsties, the claimed composition was disinfected in comparison with the known prototype. Test objects were placed at variously distant places, the surfaces of which were dried for two hours, followed by the application of protein protection-cattle serum to it. The claimed compounds were placed on the floor of the premises intended for disinfection. Test objects were placed at three different levels: 50 cm from the ceiling of the pigsty, 1.5 m from the floor and on the floor. The inventive compositions were introduced into the pigsties, placed on the floor at the rate of 80 mg / m ³ and set ^on fire. When burning the proposed product, a dense brown-green cloud is released that is stable for 20-30 minutes. The bactericidal activity of compositions 1-9 was determined by the delay in the growth zones of reference cultures in comparison with the known composition.

It was found that compositions 1–9, compared with the known composition, inhibit the growth of microbial cultures by 96–99% more than the known agent. Thus, the claimed bactericidal agent can increase the efficiency of disinfection of objects of veterinary surveillance by 30-50% due to the production of iodine monochloride in sublimation products.

Tests conducted at the poultry them. Karl Marx, showed that for prophylactic treatment 1 bottle (25 g) per 1500-2000 m ³ is needed, for forced disinfection 1 bottle (25 g) per 100-150 m ³ . And in the prototype for preventive treatment - 1 bottle (25 g) for 750-900 m ³ , for forced disinfection - 1 bottle (25 g) for 45 m ³ .

Thus, the tool works effectively at a lower concentration compared to the prototype, therefore, the consumption rate is reduced.

Pyrotechnic safety is ensured by the selected amount of N-chlorosuccinimide, which additionally serves as a flame arrestor, which in turn prevents spark formation during thermal sublimation of this agent.

Claims (1)

A bactericidal agent containing iodine, potassium nitrate and starch, characterized in that it additionally contains N-chlorosuccinimide, in the following ratio, wt.%:
Iodine 28-36 Potassium nitrate 36-42 N-chlorosuccinimide 8-12 Starch Rest