RU2167665C1 - Method of preparing black birch mushroom powder - Google Patents

Abstract

FIELD: pharmaceutical industry. SUBSTANCE: fresh vegetable material is preliminarily treated for 30-60 min with liquefied inert gas (nitrogen and/or helium), after which dried by means of vacuum sublimation until residual moisture level 1-8% is attained. Raw material-to-inert gas ratio during its preliminary treatment and further disintegration varies between 1:1 and 1: 3. Material is disintegrated in liquid inert gas atmosphere until 15-20-mcm particles are obtained. Powder can be used for preparing therapeutic and prophylactic preparations and food additives suitable for normalization of metabolic processes, clearance of toxins, heavy metals, and radionuclides, for prevention of radiation effects, and also useful in cases of gastroenteric upsets and oncological diseases. EFFECT: increased content of biologically-active chromogenic polyphenolcarboxylic complex in product. 3 cl, 2 tbl

Description

 The invention relates to the production of medicines from plant materials, in particular to preparations obtained from black birch fungus - chaga, and can be used to obtain therapeutic and prophylactic drugs and food additives used to normalize metabolism, remove toxins from the body, heavy metals and radionuclides, prevention of the effects of radiation exposure, as well as in gastrointestinal and oncological diseases.

 The therapeutic effect of chaga is due to the presence of biologically active substances in it: the chromogenic polyphenol carbon complex, polysaccharides, trace elements, etc.

A known method of obtaining a medicinal product from plant materials, including air drying and grinding of raw materials, which use the aerial parts of bird cherry (resin, green bark, leaf buds and chaga), mixing and extraction with water when heated (see RF patent N 2045271, IPC ⁶ A 61 K 35/78, published on 10/10/95, bull. N 28, "A method of obtaining funds with antitumor activity").

 The known method allows to increase the antitumor and immunostimulating effect of the final product, however, due to the low bioavailability of biologically active substances contained in the preparation, it does not have radioprotective properties and is not effective as a corrector of the amino acid composition of the blood-forming organs under adverse external influences on the body (in particular, radiation).

A known method of obtaining a dry extract of chaga, including drying the raw material, two-stage extraction of chaga with water at elevated temperature using ultrasound and subsequent drying of the extracts from a thin film combined after two-stage processing (see RF patent N 1805968, IPC ⁶ A 61 K 35/78, publ. 03/30/93, bulletin N 12, 1993, "A method of obtaining funds with antiulcer and adaptogenic activity").

 The known method increases the antiulcer and adaptogenic activity of the drug from the dry extract of chaga, however, it does not allow to achieve high bioavailability of biologically active substances of chaga, which does not provide radioprotective properties of the final product and the ability to correct the amino acid composition of the blood-forming organs with external radiation; in addition, the resulting drug has a low sorption activity.

Closest to the claimed invention in terms of essential features is a method for producing chaga powder, including drying the raw material and subsequent cryoprinder, that is, grinding chaga in a cavitation dispersant in a cooling medium (see RF patent N 2076728, IPC ⁶ A 61 K 35/78, publ. 10.04.97, bull. N 10, "Method for the prevention and treatment of gastrointestinal diseases").

The fine powder obtained by grinding in a coolant medium with a particle size of less than 60 μm with a specific surface area of at least 5.4 m ² / g is used for preparation and subsequent administration as an infusion.

 The drug is biologically active and has a fairly high sorption effect.

 However, the exposure to the biologically active substances of chaga is insufficient to ensure the radioprotective properties of the final product and the possibility of correcting the amino acid composition of the blood-forming organs during external exposure due to the partial destruction of the biologically active substances of the chaga (in particular, the chromogenic polyphenol carbon complex) during the drying process due to the oxidation of the feed with oxygen air that penetrates the pores of the fungus chaga.

 The claimed invention provides for the expansion of the use of chaga powder by providing its radioprotective properties (degree and speed of excretion of radionuclides, heavy metals from the body and reducing their localization in body tissues) and the possibility of correcting the amino acid composition of the hematopoietic organs of living organisms with external exposure while maintaining a high sorption effect and antitumor properties.

 The specified technical result is achieved by the fact that in the known method for producing chaga powder, including drying the raw material and then grinding it in an inert liquefied gas medium, according to the invention, the freshly prepared raw material is pre-treated with an inert liquefied gas, and then dried by vacuum sublimation to residual moisture of the chaga 1-8 %, pre-treatment of freshly prepared raw materials with inert liquefied gas is carried out for 30-60 minutes, and the ratio of raw materials and inert liquefied gas in percent pretreatment se and grinding is (1: 1) - (1: 3), milling in an inert liquefied gas lead to a particle size of 15-20 microns and used in liquid nitrogen and / or helium as inert liquefied gas.

 Pretreatment of freshly prepared raw materials with an inert liquefied gas prevents its oxidation by displacing air (including oxygen) from the porridge pores and filling them with an inert gas, which helps preserve biologically active substances, including the chromogenic polyphenolcarboxylic complex, during subsequent drying on stage of supply of thermal energy to the material.

 A sharp cooling of the raw material during pre-treatment leads to cracking of the chaga, which weakens the connection between the lignin matrix (a kind of chaga carcass) and the chromogenic polyphenol carbon complex (the biologically active substance of the chaga). As a result of liberation from the lignin matrix, the bioavailability of the chromogenic complex sharply increases. In addition, the destruction of the lignin matrix contributes to additional pore formation, which ensures high sorption activity of the product.

 When the ratio of raw materials and liquefied inert gas is less than 1: 1, uniformity of processing of raw materials throughout the mass is not achieved, incomplete air removal and increased evaporation of inert liquefied gas are possible; an increase in the ratio of raw materials and liquefied inert gas more than 1: 3 leads to an unjustified consumption of liquefied gas.

 With an optimal time of pre-processing of raw materials within 30-60 minutes, the effect of weakening the bond between the lignin matrix and the chromogenic polyphenol-carbon complex is achieved without undue delay in the process.

 During pre-processing of raw materials as a result of rapid cooling, the moisture contained in the chaga is converted to a condensed fine crystalline state, which facilitates and accelerates the process of subsequent drying. Vacuum freeze-drying, during which water vapor sublimated from pre-processed raw materials, is condensed on the surface of the desublimator in the form of a layer of frozen moisture, is carried out to a residual moisture of chaga of 1-8%, which ensures subsequent effective fine grinding and preservation of the biologically active chromogenic complex.

 Drying to a residual moisture content of less than 1% is uneconomical, and with a residual moisture content of more than 8% it does not provide an effect of non-caking of the powder during processing and storage. The optimum residual moisture content in the range of 1-8% ensures non-caking of the powder for three years.

 Subsequent grinding of the fungus in an inert liquefied gas medium (cryo-milling) to a finely dispersed state with a particle size of less than 60 microns (optimal particle size is 15-20 microns) allows you to get the product - fungus powder - with a high content of biologically active chromogenic polyphenol carboxylic complex.

 Increasing the bioavailability of biologically active substances (chromogenic complex) in combination with the sorbing properties of a finely divided homogeneous powder allows you to use the drug in solid form in the form of tablets or in powder form in a capsule, without resorting to a long and less effective method of preparing the infusion, especially since pre-treatment and grinding in an inert liquefied gas provides sterilization of raw materials from pathogenic microflora. When using the drug as a nutritional supplement, its prophylactic effect is manifested, which, when used regularly, can significantly protect people living in conditions of increased radiation background from a number of diseases.

 Increasing the bioavailability and preservation of biologically active substances (chromogenic polyphenolcarboxylic complex) in the presence of a high sorbing effect of chaga powder provides the radioprotective properties of the drug for cells of a living organism, which makes it effective for therapeutic use to remove toxins, heavy metals and radionuclides from the body, as well as the ability to correct the amino acid composition in the hematopoietic organs of living organisms in the prevention of long-term effects glad radiation exposure, which allows to expand the application of chaga powder. Moreover, this therapeutic and prophylactic drug is also effective in the traditional treatment of gastrointestinal or oncological diseases.

 Technical solutions that coincide with the essential features of the claimed invention have not been identified, which allows us to conclude that the invention meets the criterion of "novelty."

 The claimed essential features of the invention, predetermining the receipt of the specified technical result, do not explicitly follow from the prior art, which allows us to conclude that the invention meets the criterion of "inventive step".

 Since the claimed invention provides a technical result, which is expressed in expanding the possibilities of using chaga powder by providing its radioprotective properties and the ability to correct the amino acid composition of the blood-forming organs of living organisms under external radiation while maintaining a high sorption effect and antitumor properties, it is workable (see. confirming the possibility of carrying out the invention ") and can be used to obtain drugs and food additives, we can conclude that it meets the criterion of "industrial applicability".

 To confirm the feasibility of the invention, chaga powder was prepared by the claimed method, for which freshly prepared raw materials (birch fungus chaga), tested for compliance with the requirements of the State Pharmacopoeia (State Pharmacopoeia XI, issue 2, article 63), after grinding, immersed in a metal Dewar vessel filled liquid nitrogen, with a ratio of raw materials and liquid nitrogen 1: 2. After pretreatment in liquid nitrogen for 45 minutes, the raw materials laid on baking sheets are placed in a SU-100 freeze-drying chamber, where they are subjected to vacuum freeze-drying according to the standard procedure to a residual moisture content of 4%.

 Then carry out cryo grinding in a ball cryomel drum type with grinding media in the form of metal balls with a diameter of 20 mm, rotating at a speed of 70 rpm, in a liquid nitrogen medium with a ratio of raw materials and liquid nitrogen equal to 1: 2. The resulting fine powder with a particle size less than 60 microns can be used as a food supplement.

 To prepare the drug in solid or encapsulated form, the obtained fine powder is further processed in the EMC electro-classifier with the same ratio of raw materials and liquid nitrogen to obtain a homogeneous fine powder with a particle size of 15-20 microns.

 Obtained by the claimed method, chaga powder was used as a medicine in a series of experiments that were performed on sexually mature white rats of the Wistar population weighing 250-300 grams.

 The first series of experiments was carried out to identify the activity of the drug with respect to restricting the intake of radionuclides in the body tissue and removing them from the body (that is, checking the radioprotective properties of the drug). Animals were injected intravenously with 10 μCi of the strontium-90 radionuclide (Sr-90). One experimental group (experimental group N 1) was orally administered chaga powder obtained by the claimed method after 2-3 minutes, another experimental group (experimental group N 2) was similarly injected with chaga powder obtained by the method described in the closest analogue.

 A control group injected with strontium-90 was not injected with chaga powder. Animals were placed in individual cages and after 24 hours were killed under ether anesthesia, after which the distribution of strontium-90 in organs and tissues was studied. The radioactivity of dried and ground tissue samples was measured using a VAV-100 radiometer. The results were processed statistically by the student criterion.

 The results of the study of the radioprotective properties of chaga powder on the example of localization of strontium-90 in tissues and its removal from the body are presented in table 1.

 The second series of experiments was conducted to identify the effect of the drug on the correction of the amino acid composition of the hematopoietic bone marrow tissue under external exposure.

 The animals were irradiated in a chronic exposure mode from a cesium source at the ITUR-1 installation at 0.5 Gy with an interval of 5 days until a total absorbed dose of 2 Gy was obtained. Once a day for 30 days, the animals were injected into the stomach through the tube with a chaga preparation at the rate of 2 ml of a 0.25% suspension per 200 grams of weight; experimental group N 1 - the drug obtained by the claimed method, experimental group N 2 - the drug obtained by the method described in the closest analogue. The state of amino acid metabolism in the hematopoietic tissue after the slaughter of animals on the thirtieth day after the first exposure was evaluated using an AAA-339 M amino acid analyzer.

 19 amino acids were found in rat bone marrow fluid. As a result of the action of ionizing radiation on the bone marrow of experimental animals, a decrease in the amino acid content in the bone marrow fluid was observed.

 The control group of animals was not exposed to radiation.

 The results of the effect of the preparation of chaga powder on the amino acid content in rat bone marrow fluid under external exposure are presented in table 2.

 The experimental results presented in tables 1 and 2 indicate that the inventive method for producing chaga powder allows you to expand the possibilities of using chaga powder by providing radioprotective properties of the drug, expressed in reducing the localization of the Sr-90 radionuclide introduced into the bone and soft tissues and increased excretion of Sr-90 from the body; and adjusting the stock of free amino acids and their metabolic groups in the bone marrow fluid to the level of the initial values and above when external radiation is applied to the hematopoietic tissue of the bone marrow of the animal body.

 The sorption activity of the chaga powder obtained by the claimed method was determined in comparison with the known closest analogue in relation to the sorption of the dye-methylene blue chaga powder. The sorption of this dye was evaluated by the difference in the dye content in the solution before and after sorption according to the standard method. The value of the sorption of the dye by the chaga powder obtained by the claimed and the closest known method was 26 mg / g and 24 mg / g, respectively.

Using the proposed method for producing chaga powder provides the following advantages in comparison with the closest analogue:
- expanding the possibilities of using chaga powder by ensuring the radioprotective properties of the product, which are expressed in reducing the localization and increasing excretion of radionuclides, toxins and heavy metals from the body by increasing the bioavailability and preservation of the biologically active substances of chaga;
- expanding the possibilities of using chaga powder by maintaining the amino acid composition of the hematopoietic bone marrow tissue at a high level when exposed to external radiation by increasing the bioavailability and preservation of the biologically active substances of chaga;
- preservation of high sorption activity and antitumor effect of chaga powder;
- the possibility of using the obtained product in solid form in the form of a tablet, either in the form of a powder in a capsule, or in the form of a powder by increasing the bioavailability of biologically active substances in combination with the sorbing properties of a homogeneous fine powder both for therapeutic and preventive purposes, and as a food additives.

Claims (3)

 1. A method of producing chaga powder, including grinding the raw material in an inert liquefied gas medium, characterized in that the freshly prepared raw material is pre-treated with an inert liquefied gas for 30-60 minutes, then dried by vacuum sublimation to a residual moisture content of 1-8%, the ratio of raw materials and inert liquefied gas during the preliminary processing of freshly prepared raw materials and when grinding it in an inert liquefied gas, take (1: 1) - (1: 3).  2. The method according to claim 1, characterized in that the grinding in an inert liquefied gas medium is carried out to a particle size of 15 to 20 microns.  3. The method according to claim 1, characterized in that liquid nitrogen and / or helium is used as an inert liquefied gas.

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