RU2032419C1 - Hepatoprotective preparation and process for producing same - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: this hepatoprotective preparation includes alcoholic extract of saffron (Crocus sativus), rhizomes and roots of elecampane (Inula helenium), roots of yellow gentian, common thyme, hexaflorous estragol, and Rosa canina and Crataegus fruits. Disclosed preparation exhibits pronounced hepatoprotective activity and matches already known silibor, medicine of vegetational origin, effective in treatment and prevention of hepatitis. Maximum effectiveness is displayed by disclosed preparation when applied to alcoholically injured liver and it surpasses silibor in this respect. This medicinal preparation is prepared by dissolving above vegetational stock in alcohol (ratio: 1:(10 -15) three times (for two hours at a time) at temperature of 50 to 70 C, admixing thus prepared extracts and then filtering them off. Content of extractants amounts to 10 %. EFFECT: pronounced hepatoprotective activity. 2 cl

Description

 The invention relates to medicine, relates to a biologically active complex of plant materials with hepatoprotective effects, and may find application in the treatment and prevention of liver diseases.

 In recent years, for the treatment of various diseases, along with synthetic drugs, great importance has been given to medicines from plant materials. They are especially widely used in preventive measures, including in children. The difficult ecological situation in the world, the chemicalization of agriculture, polluting the soil and water, and with it food, dictate the need for preventive measures to prevent diseases of the gastrointestinal tract. A special role is given to the liver of the central biochemical laboratory of the body, one of the main filters of blood flow, the best protector from external and internal poisons. Liver and biliary tract diseases account for about 40% of all groups of diseases related to the pathology of the digestive system. Diversified toxic and toxic allergic damage to the hepatobiliary system. The group of alcoholic hepatitis, hepatopathies and cirrhosis of the liver is steadily maintained at a high level. The special severity of alcoholic liver damage, their widespread prevalence, as well as a limited set of hepatoprotective drugs and valologic drugs used in medicine for the prevention and treatment of liver disease, determine the relevance of the search and development of new complex drugs that correspond to the variety of functions performed by the liver. The World Health Organization defines the fight against liver diseases as extremely important, having great medical and social significance. Health-improving remedies that impede the development of hepatitis and increase the resistance of liver tissue to the action of alcohol and other toxic substances are definitely essential today. valeological means. These, as mentioned above, primarily include medicinal products from plants, represented mainly by infusions or decoctions, which do not have a constant composition and are practically not subject to standardization. In addition, it is known that in the preparation of infusions and decoctions, especially boiled incorrectly at home, there are large losses of valuable biological substances. To this should be added the inaccuracy of their dosing. All this taken together indicates the relevance of creating ready-to-use products from plant materials using rational technology that ensures the maximum extraction of biologically active substances from the feedstock and preserves the entire complex of active components for a certain period of time without change.

Known hepatoprotective agent, including perforated St. John's wort, common tansy, yarrow, pharmacy chamomile, burdock big, rosehip cinnamon, medicinal sage, elecampane high, highlander and a three-part sequence [1]
Based on the centuries-old experience of Tibetan medicine, and also taking into account the fact that, in addition to choleretic drugs, normal liver function is also facilitated by digestion and tonic cardiovascular systems, we proposed an alcohol extract of 7 medicinal herbs as a hepatoprotective drug in the following ratio extraction, g: Strawberry saffron 50 Rhizome with roots nine- high strength 300 Roots of yellow gentian 50 Roots of astragalus wool-flowering 100 Common thyme grass 100 Fruits wild rose 200 Fruits of a hawthorn 200
A prerequisite for the creation of such a hepatoprotective agent was information on each of the ingredients of the plant material in the extractable mixture, namely, their choleretic, normalizing digestion, ulcer healing, sedative, cardiotonic effects, as well as the effect on lipid metabolism, and preliminary pharmacological studies on the choice of these plants and their ratios in the mixture. It should be noted that individually these plants have only one or more of these properties and do not have a hepatoprotective effect. With this combination, and in the proposed ratio of ingredients, a pronounced hepatoprotective effect was revealed, especially high with alcoholic liver damage. As studies have shown, along with pronounced hepatoprotective activity, the test drug reduces the severity of the hangover syndrome and prevents violations of the cardiovascular system. As you know, disorders of heart activity based on alcohol intoxication often serve as a dangerous cause of the development of cardiovascular failure and sudden death. Against the background of the restoration of the functional state of the liver under the influence of the proposed remedy, its cardiotonic effect, a beneficial effect on the nervous and other systems and in general on the general condition of the body are more pronounced. All this testifies to the correctness of our choice of a medicinal product, which, as studies have shown, has such a gamut of positive properties. Pharmacological studies were performed on rats with experimental hepatitis, as well as for preventive purposes.

There is also known a method for producing hepatoprotective agents from plant materials, according to which the fruits of mountain ash are first extracted with water, and then 4 times with ethanol. All the extracts were combined, incubated for 20-24 hours at 0-10 ^{° C,} the precipitate was removed, and the extract is evaporated to remove the solvent [2]
The proposed method of producing hepatoprotective agent consists in extracting finely divided vegetable raw materials 40-55% ethyl alcohol in a ratio of raw material: extractant is 1: (10-15) at a temperature of 50-70 ^{° C} three times for 2 hours, followed by separation by filtration or the combined extracts .

 The content of extractives in it is 10.1%. This method provides the highest yield of the finished product, the stability of its composition and a guaranteed shelf life without changing its properties. In this case, this method is quite simple, does not require expensive and toxic reagents, bulky devices, and can be implemented at the enterprises of the medical, pharmaceutical and food industries. In addition, it is possible to master such a technology on the basis of small enterprises of scientific and industrial profile.

 In the process of developing the proposed method, the factors affecting the extraction process were studied, such as the degree of grinding of raw materials, the composition and nature of the extractant, the ratio of raw materials: extractant, temperature conditions, the time to reach equilibrium concentration in the system of raw materials: extractant, moreover, these indicators were quantified by the output of extractive substances.

 One of the main factors affecting the kinetics of extraction of plant materials, as you know, is the degree of grinding. In order to study this indicator for the extraction of extractives, each type of raw material was separately subjected to grinding to a particle size of 0.3; 0.5; 1.0; 3.0; 5.0; 7.0; 10.0; 15.0 mm, after which it was extracted with ethanol of various concentrations. The experiments showed that the optimal concentration of the extractant is 40-55% ethyl alcohol, which was confirmed by extraction of a mixture of these medicinal herbs. The optimal degree of grinding for common thyme and stigma saffron is a particle size of not more than 5 mm, for the roots and rhizomes of elecampane high, yellow gentian and Astragalus vulgaris not more than 3 mm, for rosehips and hawthorn not more than 0.5 mm.

The dependence of the yield of extractive substances on the ratio of raw materials: extractant was studied. It was found that the optimal ratio is 1: (10-15). The process of extraction is also affected by the temperature of the medium. To this end, extraction was carried out in a temperature range from 20 to ⁸⁰ ° C and the optimum temperature was 50-70 ° ^C. The time achieve equilibrium concentration in the system was set extractant feed-through 2-hour extraction of raw triple 40-55% ethyl alcohol in the ratio of raw material: extractant is 1: (10-15) at a temperature of 50-70 ^{° C} in a water bath under reflux until complete exhaustion of raw materials. As a result of this, it was found that 3 times extraction of the raw material is sufficient for complete extraction.

PRI me R 1. 50 g stigmas of saffron seed are ground in a mill for grinding to a particle size of 5 mm diameter (sieve N 50 GOST 214-77), 100 g of thyme grass to 5 mm, 300 g of rhizomes with roots of Elecampane high up to 3 mm (sieve N 30), 50 g of yellow gentian roots up to 3 mm, 100 g of Astragalus sherbetum roots up to 3 mm, 200 g of rosehips and hawthorn up to 0.5 mm (sieve N 0.5). After thorough mixing, the raw materials are loaded into an extraction apparatus with a stirrer and external steam heating, 12 l of 40% ethyl alcohol are poured in the ratio of raw materials: extractant 1:10 taking into account the coefficient of water absorption (k = 2). Extracted at 50-70 ° ^C under constant stirring for 2 hours. Extract was filtered through cloth and into the collector of calico. Then pour 40% ethyl alcohol in an amount equal to the drained volume, and again extracted. The operation is repeated three times. The resulting 3 plums (1 plum 10 L, 2 plum-K 11.55 L, 3 plum 11.56 L) are combined, separated or filtered through a suction filter. Get about 33 l of the finished product (tincture). The content of extractive substances in it is 10.1%
PRI me R 2. 50 g of saffron stigma, 100 g of thyme herb, 300 g of rhizome with elecampane roots, 50 g of gentian roots, 100 g of astragalus roots and 200 g of rosehip and hawthorn, chopped analogously to example 1, are loaded into apparatus for extracting and poured 12 liters of 45% ethyl alcohol 1: 10. extraction lead thrice with stirring and heating to 60-70 ^{° C} for 3 hours to give 31 liters of a ready tinctures extractives content of 10.15%.
PRI me R 3. The same amounts of crushed raw materials are extracted with 12 l of 55% ethyl alcohol for 2 hours three times at 50-70 ^about C. Receive 33 l of tincture with an extractive content of 10.16%
The presented examples demonstrate the achievement of a constant and sufficiently high yield of extractive substances, subject to the claimed conditions for their production.

The sums of extractives obtained in each of the given examples were subjected to pharmacological research to determine their hepatoprotective activity. Studies were performed on white rats males weighing 180-220 g. In order to reproduce toxic liver damage, animals were injected with a 50% oil solution of carbon tetrachloride in a volume of 0.4 ml per 100 g of rat mass under the skin 1 time per day for 4 days in a row. The amount of extractives in a dose of 300 mg / kg was injected into the stomach of animals of the experimental group once a day, starting from the 2nd day of the introduction of CCl ₄ , and then for 10 days to study the therapeutic and prophylactic effect of these substances. In rats of the control group, against the background of liver intoxication caused by a solution of carbon tetrachloride, equivolume amounts of distilled water were administered according to a similar scheme. After 7, 14 and 21 days (the most indicative periods of development of toxic hepatitis), a comprehensive assessment of the functional state of the liver was carried out using the most informative criteria, namely the activity of aspartate aminotransferase, microns; alanine aminotransferase activity, microns; alkaline phosphatase, units cholesterol, mg% B-lipoproteins, units thymol test, units total bilirubin, mg% direct bilirubin, mg% indirect bilirubin, mg%
Biochemical studies of the blood serum of animals were carried out according to generally accepted methods; lipids isolated by Folch were analyzed on a chemiluminescent device. The data obtained were processed by the mathematical-statistical method using the Moldengauer coefficient. At the same time, in accordance with the task of the study, the test substance was administered on the eve of alcoholic liver damage (prophylactic effect) and acute alcohol toxicity was determined.

 Studies have shown that the introduction of the sum of extractive substances to rats with experimental hepatitis at a dose of 300 mg / kg (experimental therapeutic dose) inhibits the intensity of free radical lipid oxidation in the liver after 7 days by 26.8% after 14 days by 17.4% after 24 by 5.6% per day. The dynamics of changes in biochemical parameters in blood serum also testified to the beneficial effect of the test drug on the course of experimental hepatitis.

Considering the possibility and expediency of using the proposed agent as a protector for alcoholic liver damage, a special study was carried out on male rats, which were used to inject a 48% aqueous solution of ethyl alcohol into the stomach to determine acute toxicity (LD ₅₀ ) once. At the same time, the experimental groups of animals 3 hours before the introduction of alcohol were injected with the amount of extractive substances at a dose of 300 mg / kg, and in the rat control, distilled water was obtained in appropriate volumes. Evaluation of hepatoprotective activity was carried out by the value of LD ₅₀ 48% alcohol solution. The results of this experiment showed that, against the background of the introduction of the sum of extractive substances, the toxicity of an ethanol solution decreases by 30-6%. These data can serve as convincing evidence of the presence of hepatoprotective activity in the amount of extractive substances.

It should be noted that a parallel study of a group of animals that were administered the well-known drug silibor under the above conditions and at the same doses, found a similar positive effect in the biochemical study of the blood serum of these animals. Comparable results were obtained for other indicators characterizing the functional state of the liver. A comparison of the LD ₅₀ values of a 48% ethanol solution against the background of preliminary administration of the sum of the claimed extractives and silibor speaks in favor of the proposed drug, which gives a greater decrease in ethanol toxicity, namely, against the background of the action of the studied drug, the ethanol toxicity decreases by 30.6% time as against the background of the action of silibor by 27.2%
From the above data, we can make an unambiguous conclusion that the sum of the claimed extractive substances has a pronounced hepatoprotective effect. Moreover, with alcohol intoxication, its effect is more demonstrative and exceeds the effect of silibor. An important advantage of the proposed tool is its prophylactic effect, moreover, more pronounced in comparison with the known hepatoprotective agent silibor.

Claims (1)

A hepatoprotective agent, including elecampane tall, rosehips, characterized in that it additionally contains stigmas of saffron, yellow gentian roots, astragalus roots, common thyme, hawthorn fruits, while using alcohol extracts of medicinal plants in the following ratio of components, g :
Stigma of saffron seed 50.0
A tsarist with the roots of elecampane high 300.0
Yellow gentian roots 50.0
Astragalus roots six-flowered 100.0
Thyme herb 100.0
Rose hips 200,0
Hawthorn fruit 200.0
2. A method of obtaining a hepatoprotective agent by repeatedly extracting plant materials with alcohol, followed by combining the extracts, characterized in that the extraction is carried out at a ratio of raw materials extractant 1 (10 15) at 50 70 ^o C three times in two hours, and after combining the extract is separated or filtered.