UA32088C2 - Wound healing preparation and method for its manufacture - Google Patents

Abstract

The invention relates to the medicine, in particular to the wound healing preparation comprising polymethyl siloxane with immobilized biquarternary ammonia substance and superfine silica. The method for manufacturing the preparation is also disclosed. Namely, polymethyl siloxane is hydroplilized by the aqueous solution of biquarternary ammonia substance and the product is mixed with superfine silica.

Description

Description of the invention

The invention relates to new substances based on polyorganosiloxanes, which have a high wound-healing 2 ability, which can be used in surgical practice for the treatment of purulent wounds and purulent-inflammatory diseases.

It is known about the highly hydrophilic wound-healing drug "Polysorb" based on highly dispersed silicon dioxide (aerosil) |1, 2), the therapeutic effect of which is based on the ability to adsorb pathogenic protein substances (up to 80 Ωg/g), including microbial enzymes, endo- and exotoxins and microorganisms However, 70 "Polysorb" does not adsorb low- and medium-molecular toxic metabolites from the center of inflammation.

The closest in terms of technical essence and therapeutic action is the composite wound-healing drug "Imosgent", which is an organosilicon sorbent polymethylsiloxane (xerogel of methylsilicic acid) with the antibiotic gentamicin (|Z) immobilized on it. Imosgent actively adsorbs pathogenic wound metabolites of low and medium molecular weight from the wound exudate. However, it has a low adsorption activity 72 to pathogenic proteins formed during the decay of microbial and somatic cells. In addition, the drug is characterized by high hydrophobicity, due to which its adhesion to the exuding wound is weakened. At the same time, due to hydrophobicity, unlike other application sorbents applied to the wound, the bandage does not stick to the wound, which allows to prevent the pain of patients with dressings.

Thus, there is a need to create a hydrophobic-hydrophilic wound-healing drug with a sorption-detoxification effect, which would differ from Imosgent by a wider spectrum of adsorption capacity, namely the ability to adsorb both low- and medium- and high-molecular pathogenic wound metabolites from the center of inflammation. Solving this problem makes it possible to treat wounds of various nature at different stages of the wound process more effectively, using one drug.

The goal is achieved by the fact that the composite preparation based on polymethylsiloxane according to the invention also contains hydrophilic highly dispersed silicon dioxide (aerosil) and (3) a two-quaternary ammonium compound (ethonium or decamethoxin) with the following composition of components, wt.9o:

Polymethylsiloxane - from 23.5 to 75.0;

Highly dispersed silicon dioxide - from 22.5 to 75.0;

Two-quarter ammonium compound (ethonium or decamethoxine) - from 1.5 to 2.5. co

Such a composition was not known before. with

Polymethylsiloxane - xerogel of methylsilicic acid of the general formula (СНззиоО. 5) is formed as a result of dehydration at a temperature of 100 to 120"С of methylsilicic acid hydrogel, which has the general formula "(СНзЗИО; 5).пНоО)оо, where p-44-49 Polymethylsiloxane is approved for use in medical practice as a matrix for the immobilization of drugs (5).

In connection with the above, there is a need to develop a method of obtaining the claimed composition, which would have improved properties compared to the drug Imosgent.

The goal is achieved by the fact that for the preparation of the claimed wound-healing drug, a method similar to that described in (b) has been developed, which includes mixing the components for a time that differs in that, before mixing, the polymethylsiloxane is lyophilized at room temperature by action from an aqueous solution of a two-quaternary compound with a concentration from 0.2 to 0.390 for a period of time from 1.0 to 4.0 hours and is dried to a constant mass in a stream of warm air at a temperature from 60 to 80"C, mixing of the obtained "from" product with highly dispersed silicon dioxide is carried out within 0.5 to 1.5 hours.

To prepare the composition, highly dispersed silicon dioxide is used, which is approved for medical use in the form of the drug "Polysorb" |21. c 15 Diquaternary ammonium compounds (ethonium or decamethoxine) are known as drugs with high antimicrobial properties (7, 8). The composition is prepared as follows: o An aqueous solution of a two-quaternary ammonium compound (ethonium or decamethoxine) is added to the weighed powder of polymethylsiloxane, stirred until the polymethylsiloxane is completely lyophilized for 1.0 to (ee) 50 4.0 hours at room temperature. The resulting mixture is dried to a constant mass in a stream of warm air at a temperature from 60 to 807C.

A weighed amount of highly dispersed silicon dioxide is added to the polymethylsiloxane powder lyophilized in this way and stirred for 0.5-1.5 hours. The resulting preparation is packaged in glass jars. 59 Examples of the specific preparation of the claimed drug are given below.

GF) Example 1.

GF To 75.0g of polymethylsiloxane, 1250g of 0.296% aqueous ethonium solution was added, thoroughly stirred at room temperature for 4.0 hours. After that, the resulting mixture was dried to a constant mass in a stream of warm air at a temperature of 807C. 22.5 g of highly dispersed 60 silicon dioxide was added to the product thus obtained and stirred for 1.5 hours. The obtained powdered preparation was quantitatively transferred into a glass jar and tightly closed.

The output of the drug is 99.90 g.

Example 2

1250g of 0.296 aqueous solution of decamethoxin was added to 72.5g of polymethylsiloxane, thoroughly mixed at room temperature for 4.0 hours. Next, the mixture was dried to a constant mass in a stream of warm air at a temperature of 80°C. 25.0 g of highly dispersed silicon dioxide was added to the thus obtained powdery product and stirred for 1.5 hours. The obtained preparation was quantitatively transferred into a glass jar.

The output of the drug is 99.89 g.

Preparations according to examples C - 8 were obtained in the same way as according to examples 1 and 2.

The ratio of components, concentration, temperature, and mixing time of the mixture of polymethylsiloxane - an aqueous solution of a diquaternary ammonium compound, as well as the mixing time of the composition, are given in Table 1.

We established that two-quaternary ammonium compounds (ethonium or decamethoxine) can hydrophilize the hydrophobic surface of polymethylsiloxane in 7/0 aqueous solutions, after which the suspension does not delaminate, and the dried product is easily mixed with hydrophilic silicon dioxide in any proportions to form a stable product (triple the claimed composition), which is easily stored for a long time (more than 3 years), does not clump together and, unlike polysorb and polymethylsiloxane, does not show significant dust-forming ability, which can be attributed to the new positive qualities of the composition.

Thus, in this case, quaternary ammonium compounds were used as modifying mediators between the hydrophobic and hydrophilic components of the composition, which made it possible to obtain a drug that has a complex of properties, the achievement of which was the goal of the invention.

The above functions of ethonium or decamethoxine are not obvious from their known antimicrobial properties.

The study of the composition also showed that there is a potentiation of the properties of each of its components (see Table 2). From the given data, it can be concluded that the adsorption capacity of polymethylsiloxane and silicon dioxide in the composition is significantly higher than that of each separate component.

The ratio between the components of the claimed wound-healing drug is optimal for the manifestation of the maximum therapeutic effect. The composition of the preparation in terms of the content of two-quaternary ammonium compounds was optimized based on the need for complete lyophilization of the polymethylsiloxane surface, and on the other hand, increasing their content is not advisable due to the possibility of exceeding their known therapeutic doses (91. o

The specific white absorption capacity of the claimed preparation was studied as follows. A number of test tubes were filled with portions of polysorb, polymethylsiloxane, previously lyophilized by adding a few drops of ethyl alcohol, and the claimed composition. 4 ml of 195 gelatin solution was added to the test tubes and mixed moderately on a shaker for 2 hours, after which the suspensions were centrifuged (30 rpm/min, 4 rpm) and the equilibrium (residual) protein concentration was measured in the centrifuge. The amount of adsorption was determined as the difference between the initial and equilibrium protein concentrations, which was related to 1 g of sorbent. The results are shown (c3 of Table 2.

Similarly, the adsorption capacity of the drug, which is applied to the metabolites of the middle c., was determined

35 molecular weight (marker - Congo red dye, m.v. 696ba.0.). The test was carried out according to FS 42U 67-62-96 (at "Enterosgel". Polymethylsiloxane was also previously lyophilized by adding a few drops of ethyl alcohol (the sorbent powder was transferred from the surface into the liquid volume). A measured amount of Congo red dye with a known concentration was added to the mixture by the initial optical density of the solution (determined spectrophotometrically). After sorption for 1 hour with intense shaking, the optical density of the solution was re-measured. The value of the adsorption capacity in mg/g was determined according to a special formula that takes into account the change in the optical density of the dye solution from the amount of sorption in the solution. and The results of the studies are shown in Table 2. "" The given results indicate that in the declared interval of the ratio of components, the wound-healing drug exhibits both a high protein-absorbing capacity (from 78.5 to 321.Omg/g) and a high capacity to sorb medium-molecular metabolites (from 1.45 to 3.51 mg/g).

Ge) The reproduction of such properties in one drug indicates the achievement of the goal of the invention and makes it possible to use the claimed drug for the effective treatment of wounds practically during the time from the appearance of the wound to its complete healing at all stages of the wound process. o The use of the claimed product in the clinic revealed its higher therapeutic efficiency compared to the prototype (Imosgent). In addition to the rapid cleansing of the wound from necrotic tissues in the experimental group of patients, there was an accelerated decrease in microbial contamination of the wound tissues, a rapid regression of the symptoms of inflammation and intoxication, including normalization of temperature, granulation and epithelization appeared earlier.

Literature. 1. Silica! in medicine and biology / Pod. Ed. A. A. Chuyko, Kyiv-Stavropol, 1993. - 259p. 2. Temporary pharmacopoeial article 42-2148-92, "Polysorb". iF) 3. A. A. Shalimov and others. Method of treatment of purulent wounds // AS USSR Mo1144699 with priority from 11/15/1984 ko (prototype). 4. Shevchenko Y. M. et al. Hydrogels of methylsilicic acid "Enterosgel-super as adsorbents for medium molecular metabolites and the method of their preparation // Patent of Ukraine Mo7472 A with priority from 03.11.94, publ. 09.29.95. Bull. MoZ 5 Resolution of the Pharmacological Committee of the Ministry of Health of the USSR (protocol Mo9 dated 16.05.90) on the authorization for medical use in adults and children, as well as the industrial release of the drug "Imosgent". 6. Gerashchenko I. I. and others. Wound-healing agent. Patent of Ukraine Mo А 21687 with priority from 28.02.95, b5 publ. 30.04.98 Bull Mo2. 7. Paly GG, Kukuruza Yu. P., Navrotsky V. A. Use of decamethoxine in the treatment of purulent-inflammatory diseases in children / / Klin. Hirurgiya. - 1988. - Mob. - pp. 48-49. 8. Pysko G. T., Vasylyuk V. N. Experimental study and clinical application of ztoniya // Medical delo. - 1989. - Mo5, - C 94-97, 9. Mashkovsky M. D. Medicinal products. - M.: Medicine, 1994. - Volume 2. - 688b.

Names of components, parameters of the method are 1721 with 3|4|5 in/in

Aqueous solution of two quaternary ammonium compounds: et - ethonium; dec- dekamethokin (et) (dec) (et) | (et) | (deyu)) (et) | (et) (deyu mat Bo 1250 1100 1000 1000 wo wo oo.

Mixture of polymethylsiloxane-aqueous solution of two-quarter|Stirring time, 4,040 .153,0.4.2512,5 1,570 1,0 in friction Bai Bai Bash Bai BV

BLAMES syu "s depending on its composition

Mo red, mg/g mg/g

Polymethyl | Highly dispersed compositions In terms of Composition | In terms of ammonium dioxide compound polymethyl-siloxane silicon dioxide silicon siloxane (ee) sin lyu 110011011я4ю0111111939 юю 11111113 1 4овю гав 11361141 taye 1 me | su Arab 1 1251188e 11114181 z5 ra rovvyu vala 1111307 17114m?1yom 1136610 415 |77yavyu12o 171-112 | 46001176 173 in Russia 1120112 14vi0lvvo 1132 6 1 zvo 17763218 11118111 5371mo21zo 1 « tro 1ta6 116 11611164 3214 s o in 7l3501000vo 1110111011 vlt 10101010101014

Claims (2)

;" Formula of the invention (95) 1. Early-healing preparation, which is a polymethylsiloxane with a drug immobilized on it, which differs in that it contains in its composition highly dispersed silicon dioxide and a two-quarter ammonium compound with this composition of components, wt. 9o: (ав) Polymethylsiloxane from 23.5 to 75.0 bo Highly dispersed silicon dioxide from 22.5 to 75.0 (Fe) Diquaternary ammonium compound from 1.5 to 2.5 2. Early-healing drug according to claim 1, which differs in that ethonium or decamethoxine is used as a two-quarter ammonium compound. C. The method of obtaining a wound-healing drug, which includes mixing the components over time, (F, which differs in that, before mixing, polymethylsiloxane is lyophilized at room temperature under the action of an aqueous solution of a two-quaternary compound with a concentration of 0.2 to 0.3 95 for a time of 1, 0 to 4.0 hours and dried to a constant mass in a stream of warm air at a temperature from 60 to 80"C, mixing of the resulting product with highly dispersed silicon dioxide is carried out for 0.5 to 1.5 hours. Official Bulletin "Industrial Property ". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 7, 15.07.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. b5