RU2152797C1 - Method of wound-healing and antibacterial agent preparing - Google Patents

Abstract

FIELD: medicine, chemical-pharmaceutical industry. SUBSTANCE: invention relates to methods of preparing wound-healing and antibacterial agents from vegetable raw. Before extraction walnut leaves are wetted in 35-45% ethyl alcohol (1:1) and extraction is carried out three-fold with 35-45% ethyl alcohol by infusion method at total ratio raw : extractant = 1:5. Obtained extracts are combined, infused for 3 days at 6-10 C, filtered and concentrated if necessary to obtain viscous or dried extract. EFFECT: simplified process, decreased time of procedure, increased yield, broadened spectrum of specific activity of end product. 3 cl, 3 ex

Description

 The invention relates to medicine and the pharmaceutical industry, in particular to methods for producing wound healing and antimicrobial agents from plant materials.

 A known method of obtaining a biologically active drug "Todicamp" from walnuts, as follows. Green walnuts are coarsely ground to a particle size of 1 mm. The resulting mass is poured with an oil fraction "Lenefre", intensively stirred for the first 7 days and incubated for the next 5 days. The resulting mixture was filtered using vacuum through a suction filter and sucked off. In the suspension remaining after the primary extraction, add the Lenefre oil fraction and mix vigorously for 14 days and incubate for the next 10 days. The resulting mixture was filtered using vacuum through a suction filter and sucked off. The extracts obtained in the first and second stages are combined, the remaining pulp is dried and the extract is passed through it. The drug “Todicamp” obtained by the described method is a clear liquid from light yellow to yellowish in color, has anti-inflammatory and wound healing effects, effectively protects the immune system from the genotoxic effects of antitumor drugs (1).

 A known method of obtaining tincture of eucalyptus, used as an anti-inflammatory and antiseptic. The method is as follows. One kilogram of dry crushed eucalyptus leaves is placed in a percolator, filled with 90% alcohol and extracted for 7 hours. After every hour, 0.3 L of solvent is poured from the percolator and it is again poured from above into the same percolator. The extraction is repeated three more times, using 2.1 l of 90% alcohol each time. 8.2 liters of alcoholic extract are obtained. The remaining raw material is extracted with 2.3 L of water for 50 minutes. Then one more time for 30 minutes. The resulting alcoholic extract is mixed with the first portion of the aqueous extract and the alcohol content is determined therein. A second portion of the aqueous extract is added to the resulting solution in such an amount that the alcohol content in the tincture is at least 65%. Then the tincture is filtered and get the finished product (2).

A known method of obtaining funds "Fitodent" with anti-inflammatory and wound healing effects, as follows. A mixture of crushed medicinal raw materials, consisting of calculated amounts of celandine, calendula, calamus, chamomile, nettle, Japanese sophora and wild rose, is loaded into the extractor and poured with 40% ethyl alcohol at a ratio of raw material: extractant 1: (8-10). The extraction is carried out with constant stirring for two weeks. The obtained extract is poured into a container and kept in the cold at 5-10 ^o C for three days, then filtered, the yield of the obtained product is adjusted to 1000 l with 40% ethyl alcohol, and then poured into dark glass bottles (3).

A known method of obtaining funds from the leaves of walnut, flowers of marigolds and roots of comfrey officinalis, as follows. In the Soxhlet apparatus, in a water bath, separately dried up to 1 mm dry leaves of walnut and dried flowers of medicinal marigolds are separately extracted. The extraction is carried out with a five-fold amount of a mixture of 96% ethanol and hexane (1:10) for 5-6 hours until the raw materials are completely depleted. The obtained extracts are cooled, filtered and evaporated in vacuo until the solvents are completely removed and the desired products are obtained with a resin-like consistency. Coarsely chopped comfrey roots are pre-soaked for 5-6 hours in a mixture of 10% ammonia and 95% ethanol (1: 1). Then the mixture is transferred to the Soxhlet apparatus extractor and extracted with ethyl acetate at a ratio of feed: extractant 1: 5 at 80-90 ^o C for 5-6 hours until the raw materials are completely depleted. Anhydrous sodium sulfate is added to the obtained extract with stirring, the mixture is filtered, the solvents are distilled off under vacuum at 70-80 ^o C to 1/3 of the volume. Freshly prepared linseed oil is added to the condensed extract and the solvents are evaporated off under vacuum at 70-80 ^° C until they are completely removed. The obtained extracts of walnut leaves, medicinal marigold flowers and comfrey roots are mixed, adjusted with freshly made linseed oil to the required volume, and then, with stirring and heating to 40-50 ^o C, the extracts are completely dissolved in linseed oil. The resulting oil solution of the extracts is filtered through a suction filter and Packed in tightly sealed cans of dark glass (4).

 A known method of obtaining funds with wound healing and antimicrobial action, as follows. Dry walnut leaves are crushed on rollers and filled with chloroform (1: 5). The solvent is changed after 12 hours six times until the chloroform is completely discolored. Fat-free raw materials are dried at room temperature until the smell of chloroform is completely removed and poured with 70-75% ethyl alcohol at a ratio of raw materials: extractant 1: (6-8). After 24 hours, the extractant is replaced and the second extraction is carried out similarly. The resulting alcoholic extracts are combined and the alcohol is distilled off under vacuum in a water bath. The remaining aqueous fraction is dried under vacuum to obtain a dry residue (5).

 Closest to the claimed is a method of obtaining funds with wound healing and antimicrobial action, as follows. Dry walnut leaves are poured with ethyl alcohol with a daily change of solvent. The completeness of the extraction is determined visually until the extractant is completely discolored (6).

 The disadvantages of the prototype and analogues include the duration, complexity of the technological processes for obtaining the target products, the duration of the processes, as well as the insufficiently high yield and relatively narrow spectrum of specific activity of the target products.

 The basis of the invention is the task of creating a method for producing a wound healing and antimicrobial agent by selecting technological operations in such a sequence and in conjunction with such modes and parameters that would simplify the technology and reduce the time of the process, increase the yield and expand the spectrum of specific activity of the target product.

The problem is solved in that in the method for producing wound healing and antimicrobial agents, including extraction of walnut leaves with alcohol by the ethyl infusion method, in accordance with the invention, before extraction, the raw materials are soaked in 35-45% ethyl alcohol at a ratio of 1: 1, extraction is carried out three times 35-45% alcohol at a total ratio of ethyl feedstock: extractant is 1: 5, the combined extracts allowed to stand for three days at 6-10 ^o C, and then filtered, wherein the first extraction is carried out at a ratio of raw material: ekstrag nt 1: 2 for 24-28 hours, the second and third extraction - with a ratio of raw materials: extractant 1: 1 for 6-12 hours each, after filtration, the resulting product is concentrated to obtain a thick or dry extract, and the wound healing and antimicrobial agents are used in the form of liquid extracts, thick extracts, dry extracts, tablets, capsules, ointments, creams, suppositories, gels.

 The technical result obtained as a result of the invention is to simplify the process, reduce its time, increase the yield and expand the spectrum of specific activity of the target product.

 The inventive method is as follows.

Dry walnut leaves are loaded into the extractor, poured with 35-45% ethyl alcohol at a ratio of raw materials: ethyl alcohol 1: 1 and insisted for 2 hours. Swollen raw materials are poured with 35-45% ethyl alcohol at a ratio of raw materials: extractant 1 : 2 and insist for 24-48 hours. The resulting extract is poured, the remaining raw materials are poured with 35-45% ethyl alcohol at a ratio of raw materials: extractant 1: 1 and insisted for 6-12 hours. The resulting extract is poured, the remaining raw materials are poured 35-45% ethyl alcohol and insist for 6-12 hours. The resulting extract is drained ayut, the raw material is drained, the resulting liquid fraction is combined with the previously obtained extract was allowed to stand for 3 days at 6-10 ^o C, then filtered and, if necessary, to a thick or concentrated to a dry extract. The dry residue yield is 6-10% by weight of the raw material.

 The obtained target product can be used in the form of tinctures, thick or dry extracts, tablets, capsules, ointments, creams, suppositories, gels.

 We give specific examples of the invention.

Example 1. In an extractor, 200 kg of dried leaves of walnut are soaked in 200 l of 35% ethyl alcohol (1: 1) and infused for 2 hours. Swollen raw materials are poured into 400 l of 35% ethyl alcohol (1: 2) and extracted by infusion for 48 hours, after which the resulting alcoholic extract is poured into the collection. The raw material is again poured with 200 l of 35% ethyl alcohol (1: 1) and insisted for 12 hours. The resulting extract is poured into a collection. The raw material is poured a third time with 200 l of 35% ethyl alcohol (1: 1) and insisted for 12 hours. The resulting extract is poured into a collection, and the raw material is squeezed. The combined extracts stand for three days at 6 ^o C, then filtered. The resulting tincture is poured into bottles and packaged. Upon receipt of a thick or dry extract, the filtered product is concentrated by any known method, packaged in a container and packaged.

 The yield of the target product by dry residue is 10% by weight of the raw material.

Example 2. In an extractor, 200 kg of dry walnut leaves are soaked in 200 l of 40% ethyl alcohol (1: 1) and infused for 2 hours. Swollen raw materials are poured into 400 l of 40% ethyl alcohol (1: 2) and extracted by infusion for 30 hours, after which the resulting alcoholic extract is poured into the collection. The raw material is again poured with 200 l of 40% ethyl alcohol (1: 1) and insisted for 8 hours. The resulting extract is poured into a collection. The raw materials are poured a third time with 200 l of 40% ethyl alcohol (1: 1) and insisted for 8 hours. The resulting extract is poured into a collection, and the raw materials are squeezed. The combined extracts stand for three days at 8 ^o C, then filtered. The resulting tincture is poured into bottles and packaged. Upon receipt of a thick or dry extract, the filtered product is concentrated by any known method, packaged in a container and packaged.

 The yield of the target product by dry residue is 8% by weight of raw materials.

Example 3. In an extractor, 200 kg of dried walnut leaves are soaked in 200 l of 45% ethyl alcohol (1: 1) and infused for 2 hours. Swollen raw materials are poured into 400 l of 45% ethyl alcohol (1: 2) and extracted by infusion for 24 hours, after which the resulting alcoholic extract is poured into the collection. The raw material is again poured into 200 l of 45% ethyl alcohol (1: 1) and insisted for 6 hours. The resulting extract is poured into a collection. The raw material is poured a third time with 200 l of 45% ethyl alcohol (1: 1) and insisted for 6 hours. The resulting extract is poured into a collection, and the raw material is squeezed. The combined extracts stand for three days at 10 ^o C, then filtered. The resulting tincture is poured into bottles and packaged. Upon receipt of a thick or dry extract, the filtered product is concentrated by any known method, packaged in a container and packaged.

 The yield of the target product by dry residue is 6% by weight of the raw material.

 The relationship and the sequence of technological operations of the proposed method, the selection of modes and parameters ensure the achievement of the objectives of the invention.

 The stage of soaking the dry leaves of walnut in 35-45% ethyl alcohol before extraction to swell the raw material ensures the intensity and completeness of the process of extraction of biologically active substances. The ratio of raw materials and wetting agent (1: 1) is determined experimentally and is optimal for the process of swelling of raw materials. The use of a larger amount of a water-alcohol solution for soaking the raw material is impractical, and with a smaller amount of it, the completeness of contact of all the raw material with the wetting agent is not achieved. The alcohol concentration (35-45%) is also determined experimentally and is justified for the successful implementation of the process of swelling of raw materials. At a lower alcohol concentration, excess water leads to an increase in the period of time necessary for the effective swelling of hydrophobic walnut leaves. With a higher concentration of alcohol, the efficiency of the further extraction process decreases. The authors suggest that this is due to the occurrence of the destruction of leaf surface cells, which, possibly, leads to premature and too intense extraction of unstable biologically active compounds. This, in turn, further leads to a decrease in the level and narrowing of the spectrum of specific activity of the target product. However, the real cause of this phenomenon has not been established.

 The use of an aqueous solution of ethyl alcohol as an extractant is traditional and most “loyal” when extracting a complex of biologically active substances from plant materials.

 The concentration of the extractant (35-45%) was determined experimentally and provides a complete and comprehensive extraction of biologically active compounds of various nature, providing the necessary level and spectrum of specific activity of the target product, its quality. So, when the extractant concentration is less than the declared values (35%), the balance of tannins and flavonoids is disturbed: the maximum of tannins and the minimum of flavonoids are extracted. When the extractant concentration is greater than the declared values (45%), a minimum of tannins and a maximum of flavonoids are extracted. All this, ultimately, leads to a decrease in the level and narrowing of the spectrum of specific activity of the target product, to a deterioration in its quality.

 Three-time extraction of raw materials with 35-45% ethyl alcohol is necessary and sufficient to achieve complete extraction of biologically active compounds, the complex of which provides the necessary level and spectrum of specific activity of the target product. With fewer extracts, the completeness of the depletion of raw materials is not ensured. The implementation of a larger number of extractions in the present method, in contrast to the prototype, is impractical and leads to an excessive consumption of the extractant.

Sedimentation of the combined extract for three days at a temperature of 6-10 ^o C is a necessary and sufficient condition for precipitation of high molecular weight substances of protein nature, the presence of which in the target product is undesirable, as it leads to a deterioration in its quality and the occurrence of toxic effects during its use. The use of other methods for the extraction of high molecular weight substances, such as ultrafiltration, on the one hand, is impractical, as it complicates and increases the cost of the process. On the other hand, it can lead to a violation of the structural and mechanical characteristics of other biologically active compounds.

 The filtration process is necessary to separate solids and obtain a transparent target product that meets pharmacopoeial requirements.

 The concentration process is carried out, if necessary, to obtain a thick or dry extracts, which are used in the manufacture of other dosage forms of the product obtained from walnut leaves by the present method.

 Pharmacological studies of the specific activity of the liquid extract of walnut leaves obtained by the present method indicate the presence of pronounced wound healing, antimicrobial, anti-inflammatory, antiulcer, antioxidant properties of the drug.

 The anti-inflammatory activity of the liquid walnut extract was studied in several models of inflammation compared to orthophene. The liquid extract was pre-evaporated, freeing from alcohol, and administered orally in the form of an aqueous solution. The research results showed that for this type of activity, the liquid extract exhibits an effect equal to the effect of orthophene, and on some models surpasses it. In this case, it is necessary to take into account the absence of negative side effects in the agent obtained by the claimed method, unlike orthophene, which is contraindicated in case of stomach and duodenal ulcers, during pregnancy, it is not recommended for people suffering from gastrointestinal diseases, liver and kidney damage. In addition, with prolonged use of orthophene, it is necessary to control the blood picture.

 The wound healing, reparative activity of a liquid extract of walnut leaves was investigated in comparison with an effective anti-inflammatory and wound healing agent - sea buckthorn oil. The results of studies of this type of activity showed that the agent obtained by the present method is superior to the reference drug. So, on day 21 in the group of animals treated with a liquid extract of walnut leaves, reparative activity was expressed by 52.3%, and sea buckthorn oil - by 38%. Moreover, the healing process in the experimental groups of animals was much faster than in the control.

 The results of studies of the antimicrobial activity of the liquid extract of walnut leaves indicate that it exhibits a high level of activity against a wide range of test strains, including gram-positive and gram-negative microorganisms, spore-forming culture (B. subtilus), Candida fungus culture, P. aeruginosa culture, and other

 The study of the anti-ulcer action of the liquid extract of walnut leaves in comparison with the well-known anti-ulcer agent plantaglucide showed that it is superior to the comparison drug in various models of damage. So, on a model of adrenaline edema, the liquid extract acts twice as active as plantaglucide.

 During the first phase of clinical trials, a 40% alcohol extract of walnut leaves was used. The treatment results obtained allowed the following conclusions. Liquid extract of walnut leaves is effective in the treatment of patients with chronic gastritis, gastroduodenitis, which occur against the background of preserved and reduced acid-forming function of the stomach. Taking the drug leads to a decrease in the clinical manifestations of pain, dyspeptic syndromes, to the elimination of inflammation of the mucous membrane of the gastroduodenal zone. The liquid extract of walnut leaves is well tolerated by patients, does not cause adverse reactions.

 Research is ongoing to further expand the spectrum of specific activity of the agent obtained by the present method, its use in various dosage forms.

The inventive method
1. Soaking 200 kg of dry walnut leaves in 200 l of 35-45% ethyl alcohol (1: 1) and infusion for 2 hours

 2. Extraction of swollen walnut leaves 400 l of 35-45% ethyl alcohol by infusion for 24-48 hours, followed by discharge of the obtained extract.

 3. The second extraction of raw materials of 200 l of 35-45% ethyl alcohol by infusion for 6-12 hours, followed by discharge of the obtained extract.

 4. The third extraction of raw materials 200 l of 35-45% ethyl alcohol by infusion for 6-12 hours, followed by draining the extract and squeezing the raw material.

5. The settling of the combined extracts for 3 days at 6-10 ^o C.

 6. Filtering the resulting product.

 7. The concentration of the product by any known method to obtain a thick extract or dry extract.

 The total time of the method is 110-150 hours (4.5-6 days).

 The yield of the target product in terms of dry residue is 6-10% by weight of the raw material.

 Note: the process time also depends on the technological capabilities of the manufacturer: with a continuous technological process, it is 110 hours.

 Thus, the claimed method of obtaining a medicinal product from walnut leaves in comparison with the prototype and analogues allows to obtain the target product with a large yield, in a much shorter time, with a higher level and a wide range of specific activity.

Literature
1. Patent of the Russian Federation N 2033803, cl. A 61 K 35/78. Publ. BI, 1995, N 12.

 2. Copyright certificate of the USSR N 799762, cl. A 61 K 35/78. Publ. BI, 1981, N 4.

 3. Patent of Ukraine N 22667, cl. A 61 K 35/78, publ. bull. "Promislova Vlasnist", 1998, N 3.

 4. Copyright certificate of the USSR N 1428383, cl. A 61 K 35/78. Publ. BI, 1988, N 37.

 5. USSR patent N 1774871, cl. A 61 K 35/78. Publ. BI, 1992, N 41.

 6. RU 2043764 C1 09/20/95

Claims (3)

1. A method of obtaining a wound healing and antimicrobial agent, including extraction of walnut leaves with ethyl alcohol, characterized in that before extraction the raw materials are soaked in 35 - 45% ethyl alcohol at a ratio of 1: 1, extraction is carried out three times with 35 - 45% alcohol ethyl infusion method with a total ratio of raw materials: extractant 1: 5, the combined extract is defended for three days at 6 - 10 ^o C, and then filtered.  2. The method according to claim 1, characterized in that the first extraction is carried out at a ratio of raw materials: extractant 1: 3 for 24 to 48 hours, the second and third extraction at a ratio of raw materials: extractant 1: 1 for 6 to 12 hours each .  3. The method according to p. 1, characterized in that after filtration the resulting product is concentrated to obtain a thick or dry extract.