RU2700163C1 - Method for preparing a biologically active antiseptic preparation and an antiseptic preparation based thereon - Google Patents

Abstract

FIELD: medicine; pharmaceuticals.

SUBSTANCE: invention relates to a method for preparing a biologically active antiseptic preparation comprising an antiseptic – Dorogov's second fraction stimulator, pollen, cerago, propolis, drone larvae, dead bees, followed by dissolution in an acid fraction of electrochemically activated water (analyte) pH 2.0, homogenisation for 4–5 minutes and infusing for 14 days, sterilization by autoclaving, then the obtained sterile preparation is bottled and sealed, with the following ratio of components in wt%: antiseptic – Dorogov's stimulant of second fraction 2.5, pollen 2.0, cerago 5.0, propolis 10.0, drone larvae 0.5, dead bees 25.0, acid fraction of electrochemically activated water (analyte) pH 2.0 – balance. Invention also relates to a biologically active antiseptic preparation.

EFFECT: high antiseptic properties and enabling biological decomposition of the preparation naturally.

2 cl, 3 tbl

Description

The invention relates to veterinary medicine, in particular, to a method for producing a biologically active antiseptic drug and an antiseptic preparation based on it having a load reducing natural and anthropogenic pollutants, as well as pharmacological preparations used in veterinary medicine.

State of the art

A known method of obtaining the drug "amber biostimulant" to increase the resistance of the animal organism, including 1% succinic acid, 4% antiseptic - Dorogov stimulator of the second fraction, 0.25% novocaine. This drug has a neutral reaction, is technically simple to manufacture, has a high immunostimulating effect with the injection method of administration (RF patent No. 2303979 from 08/10/2007).

The disadvantage of this method is that the neutralization of the alkalinity of the drug ASD No. 2 with succinic acid led to the loss of its bactericidal effect.

Known antiseptic veterinary preparation and methods of its use, the preparation includes nanosized particles of silver and chloride benzyl dimethyl- [3- (myristoylamino) propyl] -ammonium. Methods of treatment and prevention of mastitis and endometritis, conjunctivitis, gingivitis, diarrhea, rhinitis, otitis media of domestic and farm animals include the use of an antiseptic veterinary drug, including nanoscale particles of silver and chloride benzyl dimethyl- [3- (myristoylamino) propyl] -ammonium. [WO 2014175757 A1]

The disadvantage of the drug is the lack of complete biodegradation and low efficiency.

The closest in technical essence, selected as a prototype, is a method for producing a complex immunotropic antiseptic drug for the prevention and treatment of infectious diseases of animals, including mixing in water of succinic acid, novocaine, Dorogov's antiseptic stimulator, second fraction, autoclaving sterilization, characterized in that its composition is additionally introduced formalin in the following ratio of components, wt. %: succinic acid - 1; ASD No. 2 - 4; novocaine - 0.25; formalin - 0.4; distilled water - the rest, and sterilization by autoclaving is carried out in 1 atm mode for 20 minutes. (RF patent No. 2361579 dated January 9, 2008).

The disadvantage of the drug is the lack of complete biodegradation and low efficiency.

Disclosure of invention

The objective of the invention is to provide a method for producing a biologically active antiseptic drug and a biologically active antiseptic drug based on biologically active components of by-products and beekeeping wastes, having a simplification of the production method, increasing antiseptic properties and achieving the possibility of biological decomposition of the drug in a natural way, aimed at prevention of various integument pathologies epithelial tissues.

The technical result that can be achieved using the present invention is to increase the antiseptic properties and achieve the possibility of biological degradation of the drug in a natural way.

The technical result is achieved using a method of producing a biologically active antiseptic drug containing a Dorog antiseptic stimulator of the second fraction, pollen, bee bread, propolis, drones and dying larvae, followed by dissolution of the electrochemically activated water in the acid fraction (analyte) pH 2.0, homogenization for 4-5 minutes and insisting for 14 days, sterilization by autoclaving, then the resulting sterile preparation is poured into vials and sealed.

The technical result is achieved using a biologically active antiseptic drug, including an antiseptic - Dorogov stimulator, while it additionally contains pollen, bee bread, propolis, drones larvae, subpestilence and electrochemically activated water in the ratio of components, wt. %:

Antiseptic stimulator Dorogova 2.5 pollen: 2 perga: 5 propolis: 10 drones larvae: 0.5 death: 25 acid fraction of electrochemically activated water (analyte) pH - 2.0: Rest

The implementation of the invention

Examples of specific performance of the method of obtaining a biologically active antiseptic drug and an antiseptic drug based on it.

Example 1. Dorogov's antiseptic stimulator of the second fraction, pollen, bee bread, propolis, drones larvae and death, are dissolved in the acid fraction of electrochemically activated water (analyte) pH 2.0, homogenized for 3 minutes, insisted for 1 day, sterilized by autoclaving, then the resulting sterile preparation is poured into vials and sealed in the following ratio of components to mass. %:

antiseptic - Dorogov stimulator 1,0 pollen: 2 perga: 5 propolis: 10 drones larvae: 0.5 death: 25 acid fraction of electrochemically activated water (analyte) pH - 2.0: rest

When using the drug in animals, the antiseptic properties were not sufficient and the biological decomposition of the drug in a natural way was not achieved.

Example 2. The drug is prepared analogously to example No. 1, but insist for 5 days, then the resulting sterile preparation is poured into bottles and sealed, with a ratio of components, wt. %:

antiseptic - Dorogov stimulator 1,5 pollen: 2 perga: 5 propolis: 10 drones larvae: 0.5 death: 25 acid fraction of electrochemically activated water (analyte) pH - 2.0: rest

When using the drug in animals, the antiseptic properties were also insufficient and the biological decomposition of the drug in a natural way was not achieved.

Example 3. The drug is prepared analogously to example No. 1 and 2, but insist for 14 days, then the resulting sterile preparation is poured into bottles and sealed, with a ratio of components, wt. %:

antiseptic - Dorogov stimulator 2.5 pollen: 2 perga: 5 propolis: 10 drones larvae: 0.5 death: 25 acid fraction of electrochemically activated water (analyte) pH - 2.0: rest

When using the drug in animals, antiseptic properties were sufficient and the biological degradation of the drug in a natural way was achieved.

The test results of a method for producing a biologically active antiseptic drug and an antiseptic drug based on it.

To determine the sterility of the drug, it is sown on traditional nutrient media MPA and MPB. Samples are placed in a thermostat with a temperature within 37 ° C for 10 days. On meat-peptone agar, crops are made with sterile pipettes, with a uniform distribution on the surface of the nutrient medium.

Crops of the proposed preparation for meat-peptone broth are also produced with sterile pipettes, immersing the solution in a nutrient medium. After use, the pipettes were immersed in a disinfectant solution.

The test results of the preparations for MPB and MPA are shown in table No. 1.

According to the results of experiments with cultivation on nutrient media, we can conclude that the drug for 9 days did not give microbial growth on MPA and 7 days on MBP, the drug we developed can be considered sterile.

The determination of the safety of our preparation was investigated in laboratory animals. For this, an average sample was taken from each series of the preparation and subcutaneous administration was made to white mice at a dose of 0.2 ml, then the animals were observed for 10 days, paying attention to the general condition. No deviations were observed in the general state of the mice during the entire duration of the harmlessness tests, from which it can be concluded that the preparation we obtained can be considered harmless.

The data of the studies characterizing the quality of the obtained drug are presented in table No. 2.

In experiments on the antiseptic properties of the drug we developed, we used conventional cultures of test microbes E. coli, Streptococcusequi, Staph. aureus. These microorganisms are used as tests for the quality control of disinfection and are resistant to various adverse physical and chemical environmental factors. The cultures of the above microorganisms were exposed for a certain period of time with the drug developed by us and then placed on traditional nutrient media (MPA, MPB). The results of our research are presented in table 3.

Note: "+" - the presence of microbial growth

“-” - lack of microbial growth

The data in table 3 indicate that the developed drug has a high bactericidal effect against test microbes.

The invention in comparison with the prototype and other known technical solutions has the following advantages:

- increased antiseptic properties

- the possibility of biological decomposition of the drug in a natural way.

Claims (4)

1. A method of obtaining a biologically active antiseptic drug, including an antiseptic Dorog stimulant of the second fraction, pollen, bee pollen, propolis, drones larvae, death, followed by dissolution of electrochemically activated water in the acid fraction (analyte) pH 2.0, homogenization for 4 -5 min and infusion for 14 days, sterilization by autoclaving, then the resulting sterile preparation is poured into vials and sealed, in the following ratio of components in wt.%: antiseptic - Dorogov stimulator of the second fraction 2.5 pollen 2.0 perga 5,0 propolis 10.0 drones larvae 0.5 death 25.0 acid fraction electrochemically activated water (analyte) pH 2.0 rest 2. A biologically active antiseptic preparation obtained by the method according to claim 1, including an antiseptic Dorog stimulant of the second fraction, characterized in that it additionally contains pollen, bee bread, propolis, drones larvae, subpestilence and electrochemically activated water in the ratio of components, wt.% : antiseptic - Dorogov stimulator of the second fraction 2.5 pollen 2.0 perga 5,0 propolis 10.0 drones larvae 0.5 death 25.0 acid fraction electrochemically activated water (analyte) pH 2.0 rest