RU2135201C1 - Method of preparing poplar tincture for treatment of suppurative-inflammatory soft tissue diseases - Google Patents

Abstract

FIELD: chemical-pharmaceutical industry. SUBSTANCE: invention relates to a method of preparing poplar buds tincture from species genus Poplar (Populus L.). Method involves extraction of the parent raw with 65-96% ethyl alcohol under conditions of fractional extraction combining infusion at the room temperature for 24 h followed by extraction of the end substances at heating at 80 C, not above, for 1 h and combination of the first and the second extracts. EFFECT: increased yield of active substances and tincture, decreased extraction time, enhanced effectiveness of treatment. 1 tbl, 9 ex

Description

 The invention relates to the pharmaceutical industry, in particular to a method for producing tincture of poplar (Tinctura Populi) from poplar buds (Gemmae Populi) of the willow family (Salicaceae) for the treatment of purulent-inflammatory diseases of soft tissues.

 Known methods for producing tinctures (Tincturae) by maceration (infusion) and percolation (crowding out), including poplar tinctures [3-8]. The disadvantage of these methods is the duration of the extraction stage and the low yield of the leading active substances, and as a result, the low efficiency of the drug.

 As a prototype, we have chosen the method of maceration [6]. The disadvantages of this method are: low yield of target substances (56.88%), the duration of the process, in particular the extraction stage (168 h) (table).

 The objective of the invention is to increase the yield of active substances in tincture of poplar, reducing the time of preparation and increasing the effectiveness of treatment of purulent-inflammatory diseases of soft tissues with this drug.

The essence of the proposed method lies in the fact that the raw materials used are poplar buds and fractional extraction of 65-96% ethanol, combining infusion at room temperature for 24 hours and subsequent extraction with heating at a temperature of up to 80 ^o C.

 A search by the applicant for scientific, technical and patent sources of information and a prototype selected from the list of analogues [6] made it possible to identify distinctive features in the claimed technical solution. Therefore, the claimed method of obtaining satisfies the criteria of the invention of "novelty."

 The applicant conducted an additional search for known technical solutions [3, 6] in order to detect in them features similar to those of the distinctive part of the formula of the claimed production method, showed that these signs are absent, therefore, the claimed technical solution meets the criterion of "inventive step".

 The criterion of the invention "industrial applicability" is confirmed by the fact that the proposed method for producing tinctures from poplar buds allows to obtain in industrial production a medicinal product with a high content of active substances (2.7% flavonoids and phenylpropanoids, which corresponds to a yield of 84.38% of active substances from raw materials and 1.5 times more compared to the prototype, in which case the content of these substances is 1.82%, which corresponds to the yield of target substances from raw materials - 56.88%) (table). The known method for producing tinctures by the method of percolation, in the case of crushed raw materials, gives a close content of active substances in the tincture (2.59%, which corresponds to the yield of substances from the raw materials - 80.94%), but the duration of the extraction stage is 47 hours (2.88 times) more than in the present method (table. 1). The tool obtained by the claimed method has a pronounced antimicrobial and wound healing effect, belongs to the group of low toxicity drugs.

 Ethyl alcohol in the concentration range of 65 - 96% was selected for the extraction of active substances in the inventive method, since a decrease in the concentration of ethanol (60% and below) leads to a sharp decrease in the content of active substances in the final product: extraction with 60% ethanol gives the content of the sum of flavonoids and hydroxycinnamic acids in tincture - 1.59%, 50% ethanol - 1.07%, 40% ethanol - 0.73%. In the case of using water as an extractant, the content of active substances in the preparation is reduced to a minimum value (0.17% in the case of infusion and 0.19% in the preparation of a decoction).

At the stage of thermal extraction, the temperature of not higher than 80 ^o C is selected as the optimum, since an increase in temperature to 90 ^o C and higher leads to a noticeable decrease in the content of active substances in the preparation — 2.41%. A positive effect is also achieved under conditions of thermal extraction at 60 ^o C (example 5) The optimal extraction time at this stage is 1 h, since a decrease in heating time at 80 ^o C to 0.5 h and its increase over 1.5 h leads to a noticeable decrease in the content of active substances in tincture: 1.86% and 2.49%, respectively.

 The inventive method of obtaining tincture of poplar is illustrated by the following examples on a sample of buds of fragrant poplar (Populus suaveolens Fisch.).

Example 1. 50 g of poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 80% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The raw material is re-filled with a fresh portion of 250 ml of 80% ethyl alcohol and extracted in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 80% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed and justified by us [1, 2], is 2.67%, which corresponds to the yield of 83.44% of these substances from raw materials from theoretical (the content of these substances in poplar buds is 32.0% )

Example 2. 50 g of poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 65% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The feed is re-poured with a fresh portion of 250 ml of 65% ethanol and recovered in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 65% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 2.36%, which corresponds to the yield of 73.75% of these substances from raw materials from theoretical (the content of these substances in poplar buds is 32.0%).

Example 3. 50 g of poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 96% ethanol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The feed is re-poured with a fresh portion of 250 ml of 96% ethanol and recovered in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume was adjusted with 96% ethyl alcohol, passing it through raw materials, to 500 ml. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 2.7%, which corresponds to the yield of 84.38% of these substances from raw materials from theoretical (the content of these substances in poplar buds is 32.0%).

Example 4. 50 g of whole poplar buds are loaded into an extractor. Raw materials are poured into 300 ml of 80% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The raw material is re-filled with a fresh portion of 250 ml of 80% ethyl alcohol and extracted in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 80% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1: 10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 2.61%, which corresponds to the yield of 81.56% of these substances from raw materials from theoretical (the content of these substances in poplar buds is 32.0%).

Example 5. 50 g of poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 80% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The raw material is re-filled with a fresh portion of 250 ml of 80% ethyl alcohol and extracted in an extractor with heating at a temperature of 60 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 80% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 2.52%, which corresponds to a yield of 78.75% of these substances from raw materials from theoretical (the content of these substances in poplar buds is 32.0%).

 Similar studies were conducted for kidney samples of other poplar species: T. black (P. nigra L.), Canadian (P. deltoides Marsh.), T. laurel (P. laurifolia Ledeb.), T. Balsamic (P. balsamifera L.). Comparable results were obtained (the yield of the target substances using the proposed method reaches 83.49 - 84.55%). And on this basis, and also due to the fact that the kidneys of various species of the Populus genus have a similar chemical composition and anatomical and morphological structure [1, 2, 4, 5, 7, 8], this method can be recommended for all species of the Populus genus L.

Example 6. 50 g of black poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 80% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The raw material is re-filled with a fresh portion of 250 ml of 80% ethyl alcohol and extracted in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 80% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 2.15%, which corresponds to the yield of 83.66% of these substances from raw materials from the theoretical one (the content of these substances in black poplar buds is 25.7%).

Example 7. 50 g of Canadian poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 80% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The raw material is re-filled with a fresh portion of 250 ml of 80% ethyl alcohol and extracted in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 80% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 2.63%, which corresponds to the yield of 83.49% of these substances from the raw material from the theoretical one (the content of these substances in the kidneys of Canadian poplar is 31.5%).

Example 8. 50 g of laurel poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 80% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The raw material is re-filled with a fresh portion of 250 ml of 80% ethyl alcohol and extracted in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 80% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature of no higher than 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 1.51%, which corresponds to the yield 84.55% of these substances from raw materials from theoretical (the content of these substances in the kidneys of laurel poplar is 17.86%).

Example 9. 50 g of balsamic poplar buds, crushed to a particle size of 1-3 mm, are loaded into the extractor. Raw materials are poured into 300 ml of 80% ethyl alcohol. After 24 hours of infusion, the resulting extract is filtered into a collection box. The raw material is re-filled with a fresh portion of 250 ml of 80% ethyl alcohol and extracted in an extractor with heating at a temperature of 80 ^o C for one hour. The extract is filtered into the collection, combining with the first extraction. The volume is adjusted to 500 ml with 80% ethyl alcohol, passing it through raw materials. The obtained extracts are defended at a temperature not exceeding 10 ^o C until a clear liquid is obtained for at least 1 day and filtered (tincture 1:10). The content of the sum of flavonoids and phenylpropanoids, determined by the method developed by us [2], is 2.99%, which corresponds to the yield of 83.75% of these substances from raw materials from the theoretical one (the content of these substances in the balsamic poplar is 35.7%).

 Thus, the use of this method allows to increase the yield of active substances by 50% (from 1.8% to 2.7%) compared with the prototype, to reduce the time of extraction of active substances from 168 hours (maceration method) to 25 hours. Together with the pronounced wound healing and antimicrobial properties of poplar tincture obtained by this method, we can talk about a significant socio-economic effect.

It should be noted that the use of the proposed method provides the following advantages:
1. An increase in the yield of active substances in tincture of poplar by 1.5 times.

 2. Reduction of extraction time by 6.7 times.

 3. Improving the effectiveness of treatment of purulent-inflammatory diseases of soft tissues with poplar tincture obtained by the claimed method (treatment time is reduced by 14-30% or 1.17-1.4 times).

Sources of information
1. Braslavsky V. B., Kurkin V. A., Zhdanov I. P. Antimicrobial activity of extracts and essential oils of the kidneys of certain species of Populus L. // Plant resources. - 1991. - T. 27, no. 2. - S. 77-81.

 2. Braslavsky V. B. et al. / Quantitative determination of the sum of flavonoids and hydroxycinnamic acids in the kidneys of some species of Populus / Braslavsky VB , Kurkin V.A., Zapesochnaya G.G., Bezrukova N.A. // Plant resources. - 1991. - T. 27., issue. 3. - S. 130-134.

 3. The State Pharmacopoeia of the USSR: Issue 2. General methods of analysis. Medicinal plant material / Ministry of Health of the USSR. - 11th ed., Ext. - M .: Medicine, 1989.-S. 148-149.

 4. Kurkin V.A., Braslavsky V.B., Zapesochnaya G.G. Poplar buds - a promising source of antimicrobial and antifungal drugs // "Traditional medicine and nutrition: theoretical and practical aspects" - materials of the First International Scientific Congress. - Moscow, 1994 .-- S. 172.

 5. Kurkin V.A. et al. Prospects for the use of plant materials containing flavonoids as antimicrobial and anti-inflammatory drugs / Kurkin VA, Zapesochnaya GG, Avdeeva EV, Sentsov MF, Braslavsky VB, Smolyakova IB. // II Russian National Congress: "Man and Medicine": abstracts. - Moscow, 1995 .-- S. 238.

 6. Muravyov I.A. Technology of medicines, 1980. T. 1, - S. 173-179.

 7. Pervushkin S.V. et al. Use of tincture from poplar buds for the treatment of pityriasis versicolor / Pervushkin SV, Sokhina AA, Kurkin VA, Braslavsky VB, Tutaeva ZA. // "Traditional medicine and nutrition: theoretical and practical aspects "- materials of the First International Scientific Congress. - Moscow, 1994 .-- S. 196.

 8. Pervushkin S.V. and other Prospects for the creation of antimicrobial and regenerative herbal medicines / Pervushkin SV, Sokhina AA, Kurkin VA, Braslavsky VB, Sentsov MF, Tutaeva Z.A.// Modern aspects of the study of medicinal plants. Scientific works. T. XXXIV. - Research Institute "Pharmacy", - Moscow, 1995. - S. 51-55.

Claims (1)

A method of obtaining poplar tincture for the treatment of purulent-inflammatory diseases of soft tissues, including infusion of raw materials, characterized in that the extraction of the target product is carried out with 65-96% ethanol from kidney species of the genus Poplar (Populus L.) under conditions of fractional extraction, combining infusion at room temperature for 24 hours, followed by extraction of the target substances by heating no higher than 80 ^o C for 1 hour and combining the first and second extracts.

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