RU2089185C1 - Method of antiseptic agent preparing - Google Patents

Abstract

FIELD: medicine, surgery, dermatology, cosmetology, veterinary science. SUBSTANCE: method involves dissolving trinitrotoluene in dimethylsulfoxide at the room temperature, not below. Process is carried out up to appearance of dark-blue color. Mixture is mixed with filling agent - acid solution, mainly, powder-like in ethanol, glycerol is added followed by filtration. Initial alcohol concentration in final product must be 70%, not less. By another variant process of trinitrotoluene dissolving in dimethylsulfoxide is carried out at constant temperature at the range 30-70 C. Agent can be used for prophylaxis and treatment of bacterial complications. EFFECT: improved method of preparing. 15 cl

Description

 The invention relates to medicine, to methods for producing antiseptic agents, and can be used in surgery for the prevention and treatment of bacterial complications, for example, in military and domestic injuries, in dermatology for the treatment of fungal and microbial diseases, as well as in cosmetology and veterinary medicine.

 A known method of producing an antiseptic, including the dissolution of trinitrotoluene (TNT) powder in ethanol, the addition of glycerol and filtration (Makeev V. D. Experience with the use of the TNT preparation for the treatment of patients with eczema and neurodermatitis, Transactions of GIDUV, Vestnik dermatologii, v.21, 1960 s . 146). The disadvantage of this method is the significant duration of the dissolution process and the inability to achieve the desired (high) concentration of TNT in the mixture.

 The closest technical solution to the invention adopted as a prototype is a method for producing an antiseptic, including preparing a filler by mixing ethanol with acetone, mixing TNT with a filler and dissolving in it, adding glycerol to the resulting solution and filtering the mixture (ibid., P. 146).

 The disadvantage of this prototype is the use of acetone with a pronounced toxic properties to enhance the dissolution of TNT, which significantly reduces the effectiveness and reduces the possibility of using the final product obtained in this way, due to negative side effects (headache, nausea, allergic manifestations, palpitations, etc.) .d.), as well as the relatively long duration of TNT dissolution, which generally significantly lengthens the process. In addition, the use of acetone, which is a toxic, explosive and flammable substance, significantly worsens working conditions, significantly reduces safety precautions and requires, especially in large-scale industrial production, the use of special additional expensive equipment, such as special fire extinguishing systems, etc.

 The invention is aimed at expanding the possibilities of use and improving the safety of the use of an antiseptic agent containing TNT as the main active component, while enhancing the antimicrobial properties and therapeutic effect in general.

 At the same time, the task of creating a more effective way to obtain an antiseptic agent containing TNT with higher therapeutic and prophylactic properties, which allows to improve working conditions, improve production safety while reducing the duration of the production cycle and cheapening the entire production process, was solved.

 This is achieved by the fact that in the proposed method, comprising mixing TNT with an alcohol-based filler, adding glycerol and filtering, unlike the prototype, TNT is first dissolved in dimethyl sulfoxide (DMSO) at a temperature not lower than room temperature, and an acid solution is used as a filler ethyl alcohol, while the ingredients are taken in the following ratio, wt. trinitrotoluene 0.25-1.5; dimethyl sulfoxide 1.0-10.0; acid 0.5-1.0; glycerol 17.5-23.0; ethyl alcohol rest.

Moreover, when preparing the filler, the initial alcohol concentration is chosen so that in the final product called "Liquiquid", it should be at least 70%, since when the alcohol concentration is less than the specified value, the state of the solution of the final product is unstable, its aggregate state changes and a precipitate appears in the form of amorphous crystals. At the same time, the finished product is not subject to transportation, shaking, etc. since the mixing of its mass can serve as an impetus for the appearance of sediment, which significantly reduces its healing properties. For guaranteed dissolution of TNT in DMSO, at least 0.9 parts of DMSO are taken per 1 part of TNT (in powder form), since it is empirically established that at a concentration of DMSO of less than 0.9, complete dissolution of TNT will not occur. TNT is dissolved (start the dissolution process) in DMSO at a temperature of the solvent not lower than room temperature (18-20 ^o C). This is due to the fact that the dissolution of TNT in DMSO is accompanied by a relatively large absorption of DMSO heat, a decrease in the temperature of the solution, and, accordingly, inhibition of the dissolution process. Therefore, at the initial temperature of DMSO below room temperature, complete dissolution of TNT will not occur, since the temperature of the mixture will decrease after the start of dissolution by 5-7 ^° C, and the process of dissolution of TNT in DMSO will practically stop (5-6% TNT will dissolve), and at a solution temperature below 16 ^o With the solidification of DMSO, and the dissolution of TNT is completely stopped. This feature is characteristic only for the dissolution of TNT in DMSO, while dissolving other substances in DMSO, for example, aspirin, novocaine, antibiotics, etc. heat absorption does not occur. Therefore, when preheating a DMSO solution, and especially with constant heat supply and maintaining the temperature within specified limits, the duration of the dissolution process is sharply reduced. It is sufficient to maintain the temperature in the range of 30-70 ^o C, while the dissolution time will be minutes (in practice, the temperature range of 40-60 ^o C is optimal); a further increase in temperature makes the process less economical. Heat is supplied to maintain a constant temperature of the solution either by supplying hot water and creating a water bath, which increases the safety of production, or by supplying dry heat, for example, hot air in a distillation cube. The dissolution process is carried out with constant vigorous stirring, for example by mechanical means or by agitation, until a thick dark blue color of the mixture appears. This is because the Trinitrotoluene dissolved in DMSO assumes the above color. In order to achieve greater uniformity of the mixture, mixing is carried out for another 5-10 s after the appearance of a thick dark blue color.

 Due to the fact that the TNT nitro groups on which its action is based (its respiratory processes are blocked in the microbe's body) retain their initial state in an acidic environment, and since TNT is neutral, DMSO, alcohol, glycerol are slightly alkaline, to enhance the healing properties of the final product a solution of an acid in ethanol is used as a filler. Any acid can be used, and its specific content in the preparation depends on the physicochemical and medical-biological properties of the latter. For the preparation of the filler, predominantly powdered acids are used, that is, acids in the solid state, which in turn depends on the method of their preparation, for example benzoic, boric or salicylic or their mixture as the most widely used in medicine ("medical acids"), but others can be selected. This is because when using powdered acids, it is possible to visually control (without using additional devices) the process of their dissolution in alcohol and to state its end after complete dissolution (disappearance of the acid powder) in the liquid (alcohol). Moreover, with a high degree of probability it can be argued that there was a complete dissolution of the acid in ethyl alcohol. In addition, the use of powdered acids improves the convenience of their transportation and storage, and also increases the safety of production. When mixing liquid acids, such as sulfuric or hydrochloric, with ethyl alcohol, it cannot be clearly stated on the basis of visual observations that they dissolve in alcohol (and not mix or dilute) and all the more complete, since colorless liquids are mixed together. Monitoring the dissolution of such liquid acids will require the use of more sophisticated, specialized equipment.

The process of dissolving the acid in ethyl alcohol is carried out with stirring for 3-10 minutes, mainly at room temperature. To speed up the process, heating can be carried out by dissolving individual acids, for example boric, while the process is carried out at a temperature of up to 60 ^o C. After that, glycerol is introduced into the obtained filler to obtain a glycerol-alcohol ratio of approximately 1: 4. Glycerin is used as a diluent that reduces the coagulating effect of alcohol and does not lead to precipitation during subsequent mixing of the filler with a TNT solution. But deviations from the above ratio can lead to precipitation of a crumbly mass when glycerol is introduced into the filler solution. The process is carried out with stirring. Then, a solution of TNT in DMSO is added to the filler solution with glycerin. The process is carried out with stirring for 5-15 seconds. After subsequent filtration, for example, by passing the solution through the filter material, the final product is the antiseptic Likvatsid, a transparent yellowish composition. The proposed method for the preparation of the antiseptic "Likvatsid" was developed and tested by V.F. Mozharovsky. In another embodiment, glycerin is added to the solution obtained by mixing a solution of TNT in DMSO with an excipient, after filtration, the final product is obtained. If necessary, for example, to select the optimal placement option for the equipment of the drug production line, at the beginning of the cycle, a solution of TNT in DMSO with a pure alcohol filler is mixed, glycerin is added to it, and then acid is added to the resulting mixture, or a solution of TNT in DMSO is mixed with pure alcohol filler, add acid to it and, lastly, glycerin is added. A variant is possible in which a solution of TNT in DMSO, acid and glycerol is simultaneously introduced into a purely alcoholic filler with vigorous stirring, as well as a variant involving the preparation of a filler in the form of a solution of an acid in ethyl alcohol, into which a solution of TNT in DMSO and glycerol are then simultaneously introduced.

 The above variants of the method are not optimal, including from a technological point of view, since their implementation increases the relative duration of the process of manufacturing the final product due to the increase in the dissolution time of its constituent components. On the other hand, when using the main (optimal) variant of the proposed method, it becomes possible (among all other advantages) to have a fairly simple and effective control over the progress of the technological process at its various stages, which greatly increases the likelihood of eliminating errors when obtaining a finished product with specified physic -chemical and medical-biological properties.

 Based on the established property of DMSO, it is easy to dissolve TNT, mainly when heated, its content in the preparation in each case is selected taking into account this property and the ratio of ethyl alcohol and glycerol, while the acid is taken, depending on its type, in an amount that provides low acidity of the composition .

 If necessary, to improve the selective action of the drug, for example, at the stage of preparation of the filler or at the end of the whole process, the adjuvant ingredients are additionally introduced into the mixture, for which analgesics, antibiotics, steroid preparations, vitamins, biostimulants, for example methyluracil, novocaine, menthol etc. The number of additionally introduced concomitant ingredients (adjuvants) is selected depending on their medical, biological, physico-chemical properties, as well as the specific manifestations of these properties with respect to the basic components of the final product.

 The proposed method allows to obtain a drug with significantly greater possibilities for its use, for example, use inside the body, and cosmetology, veterinary medicine, since the drug penetrates well through the skin, mucous membranes without damage, for a wider group of people, including age-old, pregnant women etc. and also increase the therapeutic effect of the drug. Moreover, the proposed method makes it possible to improve working conditions, to secure and reduce the cost of the production process of the drug while reducing the duration of the technological cycle.

Example 1. 0.5 g of powdered TNT is dissolved in 3 g of dimethyl sulfoxide. The solution is carried out with stirring in a water bath while maintaining the temperature at about 50 ^o C until a thick dark blue-cherry color. The dissolution of TNT occurred within 5 minutes After the appearance of the desired color, to guarantee mixing, continue for another 5 s. In 50 g of 95% ethyl alcohol at room temperature, 0.5 g of benzoic acid powder is dissolved with stirring. The dissolution time is 3-5 minutes. To the resulting filler solution, 21 g of glycerol are added with stirring, and a colorless composition is obtained. A solution of TNT in dimethyl sulfoxide is poured into a container containing a filler with glycerin. The dishes containing the TNT in dimethyl sulfoxide solution are rinsed with 25 g of ethanol, which is then poured into a container with a filler. The final product is obtained in the form of a clear liquid of a slightly yellowish color. The solution is filtered. The alcohol concentration in the resulting solution is 73%
Example 2. 3 g of dimethyl sulfoxide are poured into a flask, 0.25 g of TNT are poured and dissolved in a water bath while maintaining the temperature at about 50 ^{° C.} while stirring by shaking the flask until a dark blue color appears. Dissolution occurs within 4-4.5 minutes. In another flask, in 50 g of ethyl alcohol at a concentration of 95%, 0.5 g of salicylic acid is dissolved with stirring by vigorously shaking the flask of shaking the solution. The dissolution time is 5 minutes. 20 g of glycerol are added to the obtained filler and the mixture is stirred by shaking the flask. A solution of TNT in dimethyl sulfoxide is poured into this mixture with stirring, its residues are washed with the amount of ethyl alcohol that is missing to 100 g (solution of the final product) and the latter is introduced into the main flask. The solution of the final product acquires a transparent, slightly yellow color. The mixture is filtered. The alcohol concentration in the resulting solution is 71%
Example 3. 5 g of dimethyl sulfoxide are poured into a flask, 1 g of TNT is poured and dissolved in a water bath while maintaining the temperature at about 70 ^{° C.} and rocking the flask until a dark blue color appears. Dissolution occurs within 1.5 minutes (with vigorous stirring under these conditions, the dissolution time takes less than 1 minute). 50 g of ethanol in a concentration of 95% are poured into another flask, 1 g of boric acid powder is added. The dissolution of boric acid in alcohol is carried out under stirring with heating in a water bath at a temperature of about 60 ^o C. 18 g of glycerol are poured into the filler solution with agitation by shaking the flask. A solution of TNT in dimethyl sulfoxide is added to the resulting mixture with stirring, the flask from the latter is rinsed with the amount of ethyl alcohol that is missing to 100 g (solution of the finished product) and poured into the main flask. A clear yellowish solution is obtained, which is then purified by passing through a filter material. The alcohol concentration in the resulting solution is 68%
Example 4. Lead, as example 1, only the process of dissolution of TNT in dimethyl sulfoxide is carried out while maintaining the temperature of the solution at about 30 ^o C. The dissolution time of TNT, depending on the intensity of mixing is 8-10 minutes

Example 5. Lead, as example 1, only the process of dissolution of TNT in dimethyl sulfoxide is carried out while maintaining the temperature of the solution not lower than room temperature (18-20 ^o C). The TNT dissolution time, depending on the intensity of mixing, is 40-60 minutes.

Example 6. Lead, as in example 6 only ethanol is taken at a concentration of 86%. After adding a solution of TNT in dimethyl sulfoxide, a yellowish solution with a crystalline precipitate forms in the filler, which indicates a decrease in the concentration of TNT in the preparation compared to the specified one. The alcohol concentration in the resulting solution of the final product is 68%
The antiseptic obtained in accordance with examples 105 was used for 4 years for treating the surgeon's hands before and during surgery, for treating the surgical field, as well as for simplified sterilization of surgical instruments. At the same time, the hands of the operating staff were smeared with a tuffer moistened in the solution of the drug to the level of the wrists, and during the operation, every 20 minutes they washed their hands from the blood, dried and again wiped with an antiseptic solution, and did not wear surgical gloves and did not use other antiseptics. Complications of the course of the half-operative wound, as well as allergic reactions in the operated and operated, were not observed. In the same way, wounds were treated on the face, on the hands, with cosmetic excision of scars after operations on the uterus in women, and with minor skin injuries, scratches, minor burns, the lesions were smeared with the proposed agent on a cotton ball in all cases, quick healing of wounds without side effects . In addition, more than 200 observations of the treatment of trichophytosis of smooth skin and hair in adults and children, various forms of foot mycosis, interdigital yeast mycosis, mycotic tonsillitis in children, fungal external otitis media, inguinal erythrasma, and pityriasis have been collected.

 For the treatment of fungal lesions of the nails of the feet, they were lubricated with the proposed drug and two weeks later, microscopy observed immobilization of the mycelium of the fungus. Almost all onychomycosis of the hands were cured with restoration of the nail plate, with the exception of cases of irreversible changes in the nail bed.

 In addition, an antiseptic was used in the following cases. When lubricated with the drug, local itching from the effects of plants and insect bites calmed down, a positive effect was observed with chronic itching of an unknown etiology of the inguinal, genital and anal areas. The itching caused by fungal infections of the skin of the feet and interdigital spaces disappeared. By applying a cotton ball soaked in the preparation, an acute toothache during tooth decay was removed on a diseased tooth, and it was treated by smearing periodontosis and oral mucous membranes. The drug is effective in the treatment of joints, deep inflammatory foci by applying compression dressings. For compressors, it is preferable to use 0.5% TNT solutions up to 50 ml per day. So, the drug had a calming and anti-inflammatory effect in acute arthritis, arthralgia, for which they applied compress dressings moistened with the drug. A satisfactory effect compared with other methods was noted in the treatment of the initial stages of acute lactational mastitis, nipple cracks, while the inflammatory process was quickly stopped, the focus of the inflammation was accelerated when compressing dressings or simple lubrication (in case of cracks) was applied. When using the drug, starting boils, abscesses, phlegmons stopped and localized, preventing inflammation from spreading through the lymphatic vessels and nodes, after 3-4 hours, which, along with a cosmetic effect, accelerated healing with decompression puncture of the lesion.

 The combined use of an antiseptic with other forms of TNT preparations has shown a therapeutic and cosmetic effect in complicated face acne, which allows it to be used in cosmetology practice, including for reducing scars after suturing. During four years of work in the skin dispensary, 14 cases of focal baldness of the scalp of both sexes, hair loss in women, possibly caused by a microbial infection, were recorded. With the combined treatment, including lubricating the skin with the drug, the bare skin was covered with fluffy and ordinary hair, women lost hair loss.

 Similar methods for the use of antiseptic agents for prophylactic and therapeutic purposes are all the more permissible in veterinary medicine, for example, for the treatment of "similar" diseases (conditions) in animals.

 Thus, the proposed method allows to obtain an antiseptic agent, which also has universal capabilities.

Claims (13)

 1. A method of producing an antiseptic, including mixing trinitrotoluene with an alcohol-based filler, adding glycerol and filtering, characterized in that the trinitrotoluene is first dissolved in dimethyl sulfoxide at a temperature not lower than room temperature until a dark blue color of the mixture appears, and for dissolving 1 wt.h . trinitrotoluene take no less than 0.9 wt. including dimethyl sulfoxide, an acid solution in ethyl alcohol is used as a filler, and the initial concentration of alcohol is chosen so that it is at least 70% in the final product and all ingredients are taken in the following ratios, wt. Trinitrotoluene 0.25 1.5
Dimethyl sulfoxide 1.0 10.0
Acid 0.5 1.0
Glycerin 17.5 23.0
Ethyl alcohol Else
2. The method according to claim 1, characterized in that the process of dissolution of trinitrotoluene is carried out with continuous stirring, for example mechanical. 3. The method according to PP.1 to 2, characterized in that the process of dissolution of trinitrotoluene is carried out while maintaining the temperature in the range of 30 - 70 ^o C.  4. The method according to claim 3, characterized in that the constant temperature maintenance is carried out by creating a "water bath".  5. The method according to claim 3, characterized in that the constant maintenance of temperature is carried out by supplying dry heat, for example, a vapor phase from a distillation cube.  6. The method according to PP.1 to 5, characterized in that the acid used is a powdered acid.  7. The method according to p. 6, characterized in that benzoic and / or boric and / or salicylic acid and / or a mixture of these components are used as the powdered acid.  8. The method according to PP.1 to 7, characterized in that use the filler obtained with continuous stirring.  9. The method according to PP.1 to 8, characterized in that glycerol is added to the filler before mixing the latter with a solution of trinitrotoluene, while the mass ratio of glycerol-alcohol is set to not more than 1 4.  10. The method according to PP. 1 to 9, characterized in that the mixing of a solution of trinitrotoluene with a filler is carried out with continuous stirring for 5 to 10 seconds.  11. The method according to PP.1 to 8, characterized in that glycerin is added to a pre-prepared mixture of a solution of trinitrotoluene in dimethyl sulfoxide with a filler.  12. The method according to PP.1 to 8, characterized in that the process of mixing a solution of trinitrotoluene in dimethyl sulfoxide with a filler is carried out simultaneously with the addition of glycerol to the latter.  13. The method according to p. 12, characterized in that the process of mixing a solution of trinitrotoluene in dimethyl sulfoxide with a filler is combined with the preparation of the latter and is carried out simultaneously with the addition of glycerol.  14. The method according to claims 1 to 13, characterized in that the analgesic, or antibiotic, or steroid preparation, or vitamin, or biostimulant is additionally introduced into the mixture.