RU2767680C1 - Method of producing an antioxidant concentrate with oncoprotective, immunotropic and adsorbing action - Google Patents

Abstract

FIELD: pharmaceutics.

SUBSTANCE: invention relates to pharmaceutical industry, namely to a method of producing an antioxidant concentrate from coniferous wood greens. Method of producing an antioxidant concentrate from coniferous wood greens, comprising milling coniferous wood greens, extraction of essential oils from it by exhaustive hydro-steam distillation of vegetal raw materials with superheated water vapor and condensate separation, wherein extraction of essential oils is carried out with water vapor at temperature of 106–110 °C for 19–36 hours, oil is separated in florentine flask, while the live steam passing through the leg is partially condensed, extracting extractive substances from the wood green and flowing into the distillation tank, condensate is poured from the distillation tank into an evaporation tank and evaporated at temperature of 95–125 °C for 24–52 hours, until a liquid or solid coniferous concentrate is obtained.

EFFECT: method described above enables to obtain a concentrate with pronounced antioxidant properties.

1 cl, 3 tbl, 4 ex

Description

The invention relates to biomedicine and concerns a method for obtaining a biologically active substance from the woody greenery of coniferous trees, intended for the prevention of cancer, inactivation and neutralization of toxic infections of various origins, stimulation of the protective functions of human immunity.

Currently, most scientists from around the world, based on official statistics and the experience of evidence-based medicine, recognize the fact that the main cause of premature aging and the occurrence of serious diseases associated with disability is the processes of damage to cells and tissues of the body by free radicals. Oxygen in the process of oxidation in the body becomes more aggressive and goes into active forms. Lack of its own antioxidants provokes oxidative stress.

Scientists consider chronic inflammatory processes to be another determining pathogenic factor of the 21st century. Due to the high resistance of pathogens of various etiologies to synthesized dosage forms, active plant bioregulators rightfully occupy their place in the practice of influencing the nature of various pathologies. Bioflavonoids are a group of biologically active substances that have the ability to normalize capillary permeability, exhibit pronounced medicinal properties, act at the cellular level. Neutralizing aggressive molecules, they contribute to the prevention of many diseases and premature aging of cells. One of the pronounced bioflavonoids is a substance with high antioxidant properties, on the basis of which the main characteristics of the oncoprotective, immunomodulating and adsorbing agent presented in the application are based.

A known method of obtaining biologically active products from Siberian fir woody greenery [RU 2228116, IPC A23L 1/30, A61K 35/78, publ. May 10, 2004, bul. No. 13]. The method involves grinding fir tree greens or a solid residue obtained after steaming wood greens and a two-stage extraction. At the first stage, the extraction is carried out with liquefied carbon dioxide at a pressure of 5.8-6.0 MPa for 4-5 hours at a temperature of 20-22°C with the release of a carbon dioxide extract, and at the second stage, the solid residue is dried and extracted with an organic solvent at a temperature of 60- 70°C for 2.5-4 hours to obtain an alcoholic extract.

The disadvantage of this method is that the resulting product differs in composition and properties from the native.

A known method for producing polyprenols by sequential extraction with liquefied carbon dioxide under subcritical conditions and supercritical conditions with the release of polyprenols from the extract obtained under supercritical conditions by known methods [RF Patent No. 2259991, IPC C07C 33/02, A61K35/78, publ. 09/10/2005, bul. No. 25].

The disadvantage of this method is its complex technological implementation. To implement this method, it is necessary to carry out the extraction in a supercritical extraction unit. Such plants operate at pressures up to 400 atmospheres and are difficult to manufacture and operate.

A known method of obtaining a mixture of polyprenols from fir needles [RF patent No. 2053992, IPC ⁶ , publ. 10.02.96, bul. No. 4], sequential extraction with liquefied carbon dioxide and a hydrocarbon solvent, while the polyprenols acetates are isolated from the hydrocarbon extract by known methods of hydrolysis and chromatography.

The disadvantage of this method is the non-selectivity of the extraction process with a hydrocarbon solvent, which also complicates the further isolation and purification of polyprenols.

A known method of exhaustive hydrosteam distillation of plant materials from Siberian pine and Siberian fir with Siberian water at a temperature of 98-105°C for 30-40 hours to obtain an essential oil [P. RF No. 2622994, IPC A61K 36/15, publ. 06/21/2017, bul. No. 18, (prototype)].

The disadvantage of this method lies in the non-rational processing of woody greenery of coniferous trees.

The technical result of the invention is the development of a method for obtaining an antioxidant concentrate with oncoprotective, immunotropic and adsorbing action from the greenery of coniferous trees.

The technical result is achieved by the fact that in the method for obtaining an antioxidant concentrate from coniferous woody greenery, including grinding coniferous woody greenery, extracting essential oils from it by exhaustive hydro-steam distillation of vegetable raw materials with superheated water vapor and separating condensate, what is new is that the extraction of essential oils is carried out water vapor at a temperature of 106-110 ° C for 19-36 hours, the oil is separated in florentine, while the live steam passing through the foot is partially condensed, drawing extractive substances from the greenery and flowing into the distillation vat, the condensate is poured from the distillation vat into evaporation tank and evaporated, at a temperature of 95-125°C for 24-52 hours, until a liquid or solid coniferous concentrate is obtained.

Thus, the claimed method of obtaining an antioxidant concentrate from coniferous woods differs from the prototype in that the extraction of essential oils is carried out with steam at a temperature of 106-110 ° C for 19-36 hours, the oil is separated in florentine, while passing through hot steam is partially condensed, pulling out extractive substances from the greenery and flowing into the distillation tank, from the distillation tank the condensate is poured into the evaporation tank and evaporated at a temperature of 95-125 ° C for 24-52 hours, until a liquid or solid coniferous concentrate is obtained . The listed distinguishing features from the prototype allow us to conclude that the proposed technical solution meets the criterion of "novelty".

The features that distinguish the claimed technical solution from the prototype have not been identified in other technical solutions in the study of data and related fields of technology and, therefore, ensure that the claimed solution meets the criterion of "inventive step".

Obtaining an antioxidant concentrate is carried out according to the extraction method by evaporation (under vacuum) of the neutral part of the water condensate (by-product) from the production of essential oil from coniferous trees: fir, pine, spruce, cedar, etc.

Essential oils are distilled off from a coniferous foot with a diameter of up to 0.8 cm with slightly superheated water vapor at a temperature of usually 106-110°C. The oil is insoluble in water and, after condensation of the vapors, forms an upper layer of distillate, which is separated in florentine. From a fir foot, 1.5-2.5% of oil is obtained, from cedar - up to 1.5%, from pine - up to 0.5%, even less from spruce. Essential oil is obtained in steam hydrodistillation plants. Such plants are equipped with one or two wooden distillation vats, with a capacity of 0.5 to 7.5 m ³ . The vats are equipped with devices for loading and unloading the paw, refrigerators, florentines, receivers and sumps for oil.

A coniferous (crushed) foot is loaded into the vat. A boiler is used to produce steam. The duration of oil distillation on stationary units is 19-25 hours, on mobile units 25-36 hours. The yield of fir oil is usually in the range of 1.5-1.9%, but the yield and quality of the oil can be slightly improved by preliminary crushing of the foot. The foot (shredded on a screw shredder ShIZ into pieces 5-7 mm long) is fed into the lower part of the first (lifting) column with a loading screw, which compacts the mass, creating a plug at the column inlet that prevents the release of vapors from the column.

During the processing of coniferous (fir, pine, spruce, cedar) paws by the method of steam hydrodistillation, steam from woody greens separates and captures essential oil particles and pushes them into the condenser, essential oil is separated from the resulting condensate in florentine. The hot steam passing through the foot is partially condensed, drawing extractive substances from the greenery, flowing into the distillation vat. The accumulated condensate from the distillation tank is poured into an evaporation tank and a liquid or solid coniferous extract (concentrate) is obtained, which is used for medical purposes for the prevention, treatment and rehabilitation of various pathologies.

Getting a concentrate:

1. The condensate is evaporated in an open vat made of food grade stainless steel. Moderate evaporation uses a stainless steel spatula structure mounted on a bracket at the top of the vat to skim the surface. The movement of the blade around the central axis is carried out through a gear drive with low speed (6 rpm), which allows the blade to remove a film from the surface in moderate sliding mode, which prevents uniform evaporation of the water part.

2. Or the condensate is evaporated in a closed food stainless steel tank, in the upper part of which the evaporated water part is removed through a stainless steel nozzle by means of a vacuum pump (on a rotary evaporator in a vacuum of a water jet pump).

Upon receipt of the liquid concentrate, the condensate is evaporated to a density of about 1.3 g/cm ³ (dry matter content of about 50%) within 24-36 hours at a temperature of 95-125°C. The output of one stripped off concentrate is 10-15% by weight of the green foot. Upon receipt of a solid concentrate with a density of up to 1.9 g/cm ³ evaporation is carried out for 36-52 hours.

Example 1: A fir foot (a vegetative part of Siberian fir branches) up to 0.8 cm in diameter is loaded into a vat with slightly superheated water vapor at a temperature of 106-110 ° C, the essential oil is distilled by steam hydrodistillation. The duration of oil distillation is 27 hours, the yield of fir oil is 1.9%. The hot steam passing through the foot is partially condensed, drawing extractive substances from the greenery, flowing into the distillation vat. The condensate accumulated in the distillation tank is poured into the evaporation tank to obtain a liquid or solid coniferous fir concentrate. From the total mass of the condensate, 3-4% of the concentrate is obtained, which is 10-12% of the total mass of the fir foot.

Example 2. The technology for obtaining a concentrate is similar to example 1, only a pine foot (vegetative part of Scots pine branches) is used as a raw material.

Example 3. The technology for obtaining a concentrate is similar to example 1, only spruce paw (vegetative part of Siberian spruce branches) is used as a raw material.

Example 4. The technology for obtaining a concentrate is similar to example 1, only cedar foot (the vegetative part of the branches of Siberian cedar pine) is used as a raw material.

Table 1 shows the main components of the organic fractions of the concentrates obtained in examples No. 1, 2, 3 and 4.

This technology, in contrast to the hydrocarbon solvent extraction technology, allows preserving the properties and high concentration of content per unit volume of not only vitamin C, but also a number of the most valuable natural biologically active components that have a complex effect on the human body. The concentration of extractives in concentrates is approximately an order of magnitude higher than the concentration of extractives in Florentine water.

Laboratory tests of cedar extract (antioxidant concentrate "Kedralatt"), obtained from Siberian cedar pine tree greens, were carried out, and it was found that carotenoids, flavonoids, chlorophylls, resin acids, terpene hydrocarbons, polyphenols, tannins, proteins and water-soluble vitamins, significant amounts of minerals.

The content of proteins determined by the Kjeldahl method is (2.2±0.1)% in the provided concentrate sample.

The content of flavonoids in terms of gallic acid was determined according to GOST R 55312-2012. The mass fraction of flavonoids in the concentrate is (4.4±0.2) g/kg.

The content of polyphenols in terms of catechin was determined by the permangonometric method according to GOST 24027.2-80. The mass fraction of polyphenols in the concentrate is (10.2±0.5)g/kg.

In the presented concentrate sample in Table 2, significant amounts of vitamins B ₁ (thiamine), B ₂ (riboflavin) and C were found. They were quantified by high performance liquid chromatography with a UV detector.

The content of vitamins in cedar concentrate is presented in table 2.

The mineral composition of the cedar concentrate was determined by inductively coupled plasma atomic emission spectrometry. The content of elements of the mineral composition is presented in Table 3.

As can be seen from the data in Table 3, the concentrate is enriched with potassium (13250 mg/kg), calcium (1475 mg/kg), phosphorus (4090 mg/kg), magnesium (1600 mg/kg), as well as iron, manganese, barium, aluminum, silicon and other components.

The pharmacological action of the antioxidant concentrate was determined in the course of clinical testing as part of complex therapy in the categories of cancer patients observed in the Rehabilitation Center of the Department of Internal Affairs of the Russian Federation (the Herzen sanatorium) and the Tomsk Research Institute of Oncology. During the course of treatment and during the rehabilitation period in a randomized controlled trial of the drug, patients in the intervention group experienced remission, there were no cases of relapse.

The pharmacological effect of anticarcinogenic properties based on the analysis of biomaterials of observed patients during the course of taking the drug indicated the dynamics of activation of the production of m-cells that suppress the growth of pathogens in the intestine and immune cells of T and B-lymphocytes that contribute to the normalization of the balance of intestinal microflora and intestinal mucosa, neutralization of bacterial toxins and enhancing the immune response. Absorbent properties are expressed in the pharmacokinetics of the drug to inactivate the action of toxins of various origins (bacterial, viral, chemical), bind and remove toxins and toxic masses from the body through the intestines.

The agent has an antiviral effect against herpes viruses by suppressing the synthesis of viral proteins and stimulating the production of interferons and other cytokines, increases the body's resistance to infections, activates macrophages and the body's natural resistance. Observation of oncological patients shows that the absence or presence of tumor resistance is very subtly felt. In the first case, the tumor grows rapidly, and when used as part of a course of treatment, the malignant process slows down. Carcinogenesis is a process that requires constant daily counteraction.

As part of a complex symptomatic herbal medicine, an antioxidant concentrate improves the quality and life expectancy of patients with a weakened immune response, enhances the protective functions of the body, for example, avoids bleeding, reduces ascites; exhibits hypotensive, decongestant, restorative and other effects. And can be applied to:

- preparation of patients for surgery or other treatment;

- weakening the negative impact of surgical treatment, chemotherapy and radiation therapy;

- detoxification, immunocorrection (mainly activation of the cellular link), restoration of the level of leukocytes, elimination of anemia, optimization of vital body functions;

- replacement therapy with the aim of introducing the missing vitamins and minerals into the body, to minimize the risk of relapse.

Claims (1)

A method for producing an antioxidant concentrate from coniferous woody greenery, including grinding coniferous woody greenery, extracting essential oils from it by exhaustive hydrosteam distillation of vegetable raw materials with superheated water vapor and separating condensate, characterized in that the extraction of essential oils is carried out with water vapor at a temperature of 106-110°C C for 19-36 hours, the oil is separated in florentine, while the hot steam passing through the foot is partially condensed, drawing extractive substances from the greenery and flowing into the distillation tank, from the distillation tank the condensate is poured into the evaporation tank and evaporated, at a temperature of 95- 125°C for 24-52 hours, until a liquid or solid coniferous concentrate is obtained.