RU2676273C1 - Bactericidal medicine on basis of iodine and its application for disinfection and/or desinsection - Google Patents

Abstract

FIELD: pharmaceuticals.

SUBSTANCE: invention relates to the field of disinfection and desinsection, and is intended for the disinfection of objects and the elimination of foci of infection. Bactericidal agent contains the active substance iodine, potassium nitrate or sodium nitrate, carbohydrates, as well as sulfur and talc. Components are used in claimed amounts.

EFFECT: use of the invention allows to increase the efficiency of disinfection of objects, including the air in them, in agriculture, food industry, medicine, household sphere, transport, reduce fire risk, as well as increase the bactericidal and fungicidal activity of the tool.

1 cl, 16 ex

Description

The present invention relates to a means of disinfection and / or disinfestation and can be used in agriculture, in particular in veterinary medicine, food industry, medicine, public utilities, transport, as well as to eliminate foci of infection.

The invention improves the efficiency of disinfecting objects, including the air in them, in agriculture, food industry, medicine, public utilities, and transport.

A bactericidal agent contains in its composition the active substance - iodine, an oxidizing agent - potassium nitrate or sodium nitrate, sulfur, talc, the rest is carbohydrates.

From the existing level of technology there is a method of sublimation of iodine by initiating the addition of water or atmospheric moisture to the reaction of iodine with aluminum chips (Krinochkin A.D., Litvinenko V.V. Aerosol of aluminum iodide in infectious diseases of birds. Veterinary Medicine, 1969, No. 3, p. 41). The mass ratio of iodine and aluminum is 10: 1.

However, the known composition is not effective enough, fire hazard. If water or high humidity gets in, the composition explodes. For this reason, increased safety requirements are imposed on the storage and use of the composition.

A bactericidal agent based on iodine, potassium nitrate and carbohydrates is known. As carbohydrates, the product contains starch, sucrose, glucose, ribose or fructose (RU2140293C1, publ. 10.27.1999). The composition allows to increase bactericidal activity and reduce the fire and explosion hazard.

The disadvantages of this bactericidal agent are the low yield of the active substance - iodine and sparking due to the high combustion temperature of the composition, which leads to increased fire requirements in its application.

The amount of iodine flown into the gas phase relative to the mixture is not more than 70%, the remaining amount enters into high-temperature reactions with a salt melt and is irretrievably lost.

Closest to the claimed technical solution is a bactericidal agent based on iodine, potassium nitrate, carbohydrates and copper chloride (RU2253479С2, publ. 10.06.2005), which allows to reduce the fire hazard of the composition during its use. The presence of copper chloride as a catalyst leads to a decrease in the temperature of the onset of decomposition of potassium nitrate and, as a result, to a general decrease in the combustion temperature of the thermal mixture. At the same time, the bactericidal activity of the drug increases due to a decrease in the loss of iodine during its sublimation.

The aim of the invention is to increase efficiency, increase the shelf life of the target product and reduce fire and explosion hazard.

The goal is achieved in a bactericidal agent containing the active substance - iodine, potassium nitrate or sodium nitrate, carbohydrates, sulfur and talc, in the following ratio, wt.%:

Iodine - 28-32

Potassium nitrate or sodium nitrate - 36-38

Sulfur - 8-12

Talc - 2-4

Carbohydrates - Else

The goal is also achieved in a bactericidal agent in that it contains starch or dextrin as carbohydrates.

In the patent and scientific and technical literature there are no technical solutions similar to the claimed one, which allows us to conclude that the proposal meets the patentability condition - “novelty”.

The combination of the claimed components only in such ratios leads to the achievement of the set technical effect, i.e. the claimed tool meets the condition of patentability - "inventive step". In particular, the addition of sulfur and talc in a certain ratio with other components makes it possible to increase the conversion of iodine to an aerosol state up to 100% (due to the formation of potassium sulfides, which completely eliminates the formation of potassium iodides during an exothermic reaction), while significantly reducing (due to the presence of talc, which is a phlegmatizer in a hot-water mixture) a fire hazard level of the use of a bactericidal agent. In addition, sulfur dioxide reacts with atmospheric air vapors to form sulfuric acid, which has fungicidal properties. Thus, the bactericidal and fungicidal activity of the claimed bactericidal agent is increased by 40-50%, which allows to expand the scope of its application.

The composition is used to disinfect objects in agriculture, in particular, in animal husbandry, food industry, medicine, public utilities, transport, including indoor air, as well as the elimination of foci of infection, so it meets the patentability condition - " industrial applicability.

The invention is illustrated by the following examples.

Example 1. Mix 30 g of crystalline iodine, 37 g of potassium nitrate, 10 g of sulfur, 3 g of talc and 20 g of starch, obtaining composition 1 in the following ratio, wt.%:

Iodine - 30

Potassium nitrate - 37

Sulfur - 10

Talc - 3

Carbohydrates - Else

Example 2. Mix 30 g of crystalline iodine, 37 g of potassium nitrate, 11 g of sulfur, 3 g of talc and 19 g of starch, obtaining composition 2 in the following ratio, wt.%:

Iodine - 30

Potassium nitrate - 37

Sulfur - 11

Talc - 3

Carbohydrates - Else

Example 3. Mix 32 g of crystalline iodine, 37 g of potassium nitrate, 8 g of sulfur, 3 g of talc and 20 g of starch, obtaining composition 3 in the following ratio, wt.%:

Iodine - 32

Potassium nitrate - 37

Sulfur - 8

Talc - 3

Carbohydrates - Else

Example 4. Mix 29 g of crystalline iodine, 36 g of potassium nitrate, 9 g of sulfur, 4 g of talc and 22 g of starch, obtaining composition 4 in the following ratio, wt.%:

Iodine - 29

Potassium nitrate - 36

Sulfur - 9

Talc - 4

Carbohydrates - Else

Example 5. Mix 28 g of crystalline iodine, 38 g of potassium nitrate, 12 g of sulfur, 4 g of talc and 18 g of starch, obtaining composition 5 in the following ratio, wt.%:

Iodine - 28

Potassium nitrate - 38

Sulfur - 12

Talc - 4

Carbohydrates - Else

Example 6. Mix 31 g of crystalline iodine, 38 g of potassium nitrate, 10 g of sulfur, 3 g of talc and 18 g of starch, obtaining composition 6 in the following ratio, wt.%:

Iodine - 31

Potassium nitrate - 38

Sulfur - 10

Talc - 3

Carbohydrates - Else

Example 7. Mix 29 g of crystalline iodine, 36 g of potassium nitrate, 11 g of sulfur, 4 g of talc and 20 g of starch, obtaining composition 7 in the following ratio, wt.%:

Iodine - 29

Potassium nitrate - 36

Sulfur - 11

Talc - 4

Carbohydrates - Else

Example 8. Mix 31 g of crystalline iodine, 36 g of potassium nitrate, 11 g of sulfur, 3 g of talc and 19 g of starch, obtaining composition 8 in the following ratio, wt.%:

Iodine - 31

Potassium nitrate - 36

Sulfur - 11

Talc - 3

Carbohydrates - Else

Example 9. Mix 30 g of crystalline iodine, 37 g of potassium nitrate, 8 g of sulfur, 4 g of talc and 21 g of starch, obtaining composition 9 in the following ratio, wt.%:

Iodine - 30

Potassium nitrate - 37

Sulfur - 8

Talc - 4

Carbohydrates - Else

Example 10. Mix 32 g of crystalline iodine, 36 g of potassium nitrate, 8 g of sulfur, 2 g of talc and 22 g of starch, obtaining a composition of 10 in the following ratio, wt.%:

Iodine - 32

Potassium nitrate - 36

Sulfur - 8

Talc - 2

Carbohydrates - Else

Example 11. Mix 28 g of crystalline iodine, 38 g of potassium nitrate, 9 g of sulfur, 3 g of talc and 22 g of starch, obtaining composition 11 in the following ratio, wt.%:

Iodine - 28

Potassium nitrate - 38

Sulfur - 9

Talc - 3

Carbohydrates - Else

Example 12. Mix 28 g of crystalline iodine, 38 g of potassium nitrate, 10 g of sulfur, 4 g of talc and 20 g of starch, obtaining composition 12 in the following ratio, wt.%:

Iodine - 28

Potassium nitrate - 38

Sulfur - 10

Talc - 4

Carbohydrates - Else

Example 13. Mix 30 g of crystalline iodine, 36 g of sodium nitrate, 10 g of sulfur, 4 g of talc and 20 g of starch, obtaining composition 13 in the following ratio, wt.%:

Iodine - 30

Sodium nitrate - 36

Sulfur - 10

Talc - 4

Carbohydrates - Else

Example 14. Mix 29 g of crystalline iodine, 37 g of sodium nitrate, 11 g of sulfur, 3 g of talc and 20 g of starch, obtaining composition 14 in the following ratio, wt.%:

Iodine - 29

Sodium nitrate - 37

Sulfur - 11

Talc - 3

Carbohydrates - Else

Example 15. Mix 28 g of crystalline iodine, 36 g of sodium nitrate, 12 g of sulfur, 3 g of talc and 21 g of starch, obtaining composition 15 in the following ratio, wt.%:

Iodine - 28

Sodium nitrate - 36

Sulfur - 12

Talc - 3

Carbohydrates - Else

Check the bactericidal activity of the claimed composition was carried out by standard methods.

The testing of compositions 1-15 obtained according to examples 1-15 was carried out on test objects (wooden, metal, rubber and ceramic plates 10 × 10 cm ² ), which 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 flora) 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 the application of protein protection on 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 100 mg / 1 m ³ and burned using a wick. When burning the proposed product, a dense purple cloud is released, stable for 7-10 minutes. The bactericidal activity of compositions 1-15 was determined by the delay of the growth zones of reference cultures in comparison with the known composition. It was found that formulations 1-15 in comparison with the known composition inhibit the growth of microbial cultures by 50-75% more than the known composition. In addition, the claimed composition can be used in any conditions.

Example 16. In the hatcheries of JSC "Lysogorsk poultry" disinfection was carried out by the claimed composition in comparison with the known means ("Dixam"). Test objects that were previously prepared analogously to examples 1-15 were placed on variously distant places. 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 hatchery, 1.5 m from the floor and on the floor. The inventive compositions were introduced into the hatchery, placed on the floor at the rate of 100 mg / 1 m ³ and burned using a wick. When burning the proposed product, a dense purple cloud is released, stable for 8-12 minutes. The bactericidal activity of compositions 1-15 was determined by the delay of the growth zones of reference cultures in comparison with the known composition. It was found that compositions 1-15 in comparison with the known composition inhibit the growth of microbial cultures by 95-100%.

Thus, the claimed bactericidal agent can increase the efficiency of disinfection of objects of veterinary surveillance by 50-75%, reduce fire hazard and, in addition, increase bactericidal and fungicidal activity in comparison with the known agent.

Claims (3)

1. A bactericidal agent containing the active substance iodine, potassium nitrate or sodium nitrate, carbohydrates, characterized in that it additionally contains sulfur and talc in the following ratio of components, wt.%: Iodine                                     28-32 Potassium nitrate or sodium nitrate 36-38 Sulfur                                      8-12 Talc                                        2-4 Carbohydrates                Rest 2. The bactericidal agent according to claim 1, characterized in that it contains starch or dextrin as carbohydrates.