RU2117491C1 - Disinfection agent - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: invention relates to chloro-active preparations used for disinfection. Agent has chloramine, water, sodium hydroxide. Dichloramine B, T or ChB are used as chloramine source being components are taken at definite quantitative ratio. Agent shows high stability in the form of an aqueous solution and sporocidity. EFFECT: enhanced effectiveness of an agent proposed. 3 ex, 3 tbl

Description

 The invention relates to the field of chloroactive drugs with disinfectant properties.

 The most traditional disinfectants are hypochlorites and chloramines [B. I. Vashkov. Means and methods of sterilization used in medicine. M., Medicine, 1975, p. 176 - 178]. Hypochlorites have a wide spectrum of antimicrobial activity, but according to toxicological studies hypochlorites can be used for disinfection to a limited extent [A.A. Furman. Chlorine-containing oxidizing-bleaching and disinfecting substances. M., "Chemistry", 1976].

The most well-known and used for disinfection are monochloramines B and T and the sodium salt of DHITSK (Na-salt DHITSK). The DHITSK Na-salt has a high bactericidal and sporocidal activity and far exceeds the sporocidal activity of known chloramines and hypochlorites. So, the spores of the actracoid die in a 0.1% solution, and E. coli in a 0.0043% solution of this salt after 20 minutes at 60 ^o C [V.I. Vashkov "Means and methods of sterilization used in medicine", M., Medicine, 1973, p. 177].

 The disadvantages of the DHITS Na-salt include its instability in the form of aqueous solutions during storage and the presence of an irritating effect.

 The closest in technical essence and purpose to the claimed drug are activated aqueous solutions of monochloramine B. [V.I. Vashkov. ] Monochloramine B contains a low percentage of active chlorine (≈ 26%), has a sporocidal effect only at a concentration of 5 - 10% for active chlorine. To increase activity, aqueous solutions of monochloramine B require additional activation immediately before use by acidification or the introduction of ammonium or ammonia salts. But with acidification and activation, aqueous solutions of monochloramine B are unstable. The production of monochloramine B and Na-salt DHITSK in our country is small-tonnage and does not provide the current needs of medicine, veterinary medicine and everyday life.

 Water-insoluble dichloramines B, T and CB do not find practical use as disinfectants.

 The objective of the invention is to expand the range of disinfectants and the development of a new tool with resistance in the form of solutions in combination with disinfectant and sterilizing activity.

This object is achieved by creating a formulation based on dichloramines B, T C ₆ H ₅ -SO ₂ -NCl ₂ , C ₇ H ₇ Cl ₂ NO ₂ S or dichloramine CB (Cl-C ₆ H ₄ -SO ₂ NCl ₂ ) in combination with sodium (potassium) hydroxide, which exhibits sporocidal activity and is highly resistant.

 For a better understanding of the present invention, the following examples are provided.

 Example 1. The method of preparation of the composition.

 Dichloramines B, T, HB are practically insoluble in water. To transfer them to a water-soluble state, an alkaline environment is required, which can be created using NaOH (KOH). The active principle, giving the system disinfecting properties, are the formed monochloramine, T, CB or B and sodium hypochlorite (potassium). The presence of sodium hypochlorite in the system, along with monochloramine T, B or CB, makes it possible to obtain solutions with sporocidal activity.

 To prepare a disinfectant, 40 - 80 g of dichloramine T, B or CB is dissolved in 1 liter of sodium hydroxide 1 - 10% (wt.).

 Example 2. Determination of the stability of the formulations.

 Table 1 shows the data on the stability of water-alkaline formulations based on dichloramine B, T, (CB) in comparison with an activated solution of monochloramine B.

 An increase in the concentration of dichloramines B from 40 g to 80 g in 1 liter of solution leads to a slight increase in the concentration of active chlorine, therefore, an increase in the mass of dichloramine in the solution of more than 40 g / l (4% solution) is impractical.

 The increase in the concentration of AX in 5% Na (K) OH solutions compared to a 1% solution can be explained by the disproportionation of AX from the D-CB precipitate into the solution.

 An increase in the amount of alkali in the composition of the formulation is impractical, because in a 10% solution of Na (K) OH, the content of AX after 15 minutes decreases from 1.5% to 0.5%.

 Example 3. Determination of sporocidal activity of the formulations.

 The study of the sporocidal activity of the formulations was carried out by a standard method using spores of B. Cereus. Disinfectant solutions were prepared by extempore. The results of the study of the sporocidal activity of the formulations are presented in table 2.

 The data presented in table 2 show that the sporocidal activity of the compositions of the drugs depends on the concentration of alkali to a greater extent than on the concentration of dichloramines. Solutions containing 5% alkali are much more active than 1% solutions. A composition of preparations based on dichloramines B, T, or CB, with a content of approximately 2% AX in a 5% aqueous alkaline solution, causes the death of B Cereus spores within 5 to 10 minutes, while the activity of the aqueous solution of the drug is not lost for 48 hours (observation period )

 Evaluation of the sporocidal activity of the drug during the disinfection of surfaces seeded with B. Cereus showed that with a double irrigation with a 1% solution of the preparation of unpainted wood and painted with oil paint after 30-60 minutes of exposure, only single colonies of microorganisms are preserved. The research results are presented in table 3.

 The data presented in table 3 showed that the composition of dichloramines B (CB) in an aqueous alkaline solution has a wide spectrum of antimicrobial activity against B. spores of Cereus and is superior to urea-activated monochloramine B. in processing efficiency of various objects.

 Evaluation of the disinfecting properties of compositions of preparations based on dichloramines and aqueous solutions of alkalis showed that the death of gram-positive and gram-negative microorganisms occurs when exposed to a solution with a concentration of more than 0.005% for 15 minutes, viruses for 15 minutes at a concentration of more than 0.05%, mycobacterium tuberculosis at a concentration of more than 2%.

 Water-alkaline solutions of dichloramines T, B (CB) do not require additional activation and remain active (according to AX) for two weeks of storage.

 By toxicity and irritating effect, the compositions of the preparations are at the level of unactivated monochloramine B.

Thus, the tests showed that the most optimal option is a water-alkaline formulation of the composition:% mass,
Dichloramine B, T or dichloramine HB - 4.0 - 8.0
Sodium hydroxide (potassium) - 1.0 - 5.0
water - the rest
The advantage of the proposed composition in comparison with activated monochloramine B is sporocidal activity and high resistance in the form of aqueous solutions.

Claims (1)

A disinfectant containing chloramine and water, characterized in that it contains dichloramine B, T or HB as chloramine and additionally sodium (potassium) hydroxide in the following ratio, wt.%:
Dichloramine B, T or HB - 4 - 8
Sodium hydroxide (potassium) - 1 - 5
Water - Rest

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