RU2141336C1 - Method of isolation of biologically active substances from plant raw - Google Patents

Abstract

FIELD: chemical-pharmaceutical industry. SUBSTANCE: method involves raw wetting in an aqueous solution of ethyl alcohol. The following extraction of lipid-soluble biologically active substances is carried out by treatment of the raw with oil in the presence of alcohol. Extraction of lipid-containing biologically active substances is carried out at the simultaneous mechanical disintegration of the plant raw. Invention can be used in preparing drugs and cosmetic agents. EFFECT: increased yield of the end product. 4 cl, 4 ex

Description

 The invention relates to the pharmaceutical industry, and in particular to methods for producing extracts of biologically active substances (BAS) from plant materials, in particular oil extracts. The invention can be used in the manufacture of medicines and cosmetics, food additives.

 Currently, various methods are known for the isolation of biologically active substances from plant materials in the form of water-alcohol or oil extracts, which are widely used in medicine and cosmetics.

 The task of obtaining oil extracts from plant materials is complicated by the low intensity of mass transfer processes between the fat-soluble (lipophilic) components of plant cells and the oil extractant.

 Moreover, the choice of tools and techniques aimed at the intensification of these processes is limited by the fact that the processing conditions of plant materials should not lead to denaturation of extracted biologically active substances.

 A number of known methods for the extraction of fat-soluble biologically active substances from plant materials using liquid hydrocarbon solvents [for example, and.with. USSR N 169413, A 61 K 35/78, publ. 1991].

 The disadvantage of these methods is the use of toxic organic solvents.

 Known methods for the extraction of fat-soluble biologically active substances from vegetable raw materials by oil by repeated extraction in a stream of extractant [for example, and.with. USSR N 1181666, A 61 K 35/78, publ. 1985].

 These methods provide an increase in the yield of target components, however, require complex hardware design and high consumption of extractant.

A known method in which the extraction of fat-soluble biologically active substances from plant materials with oil is carried out under vacuum at a temperature of 35 ^o C for at least 2 days [RF patent N 2027440, A 61 K 35/78, publ. 1995].

 In this method, conditions are provided for preventing the denaturation of biologically active substances, however, the use of vacuum complicates the process technology. In addition, the disadvantage of this method is the duration of the extraction process.

 Closest to the proposed invention is a method for the allocation of biologically active substances from plant materials [a. with. USSR N 997684, A 61 K 35/78, publ. 1983], selected by the authors for the prototype.

The method includes treating plant materials with a solvent, which is a mixture of 96% ethyl alcohol and freon 113, with a ratio of raw materials and solvent 1: (8-14), and subsequent extraction of the fat-soluble biologically active substances by treating the mixture of raw materials with solvent with mink oil. The processing of raw materials with a solvent is carried out by soaking it in a solvent for 4 hours. Then, mink oil is added to the mixture of raw materials with a solvent and fat-soluble biologically active substances are extracted at a temperature of 50-60 ^° C for 24 hours while the mixture is continuously stirred.

 This method is simple, however, it requires the use of an environmentally hazardous solvent (Freon 113). In addition, carrying out oil extraction for a relatively long period of time at an elevated temperature leads to partial denaturation of the biologically active substances, which negatively affects the quality of the oil extract.

 The objective of the claimed invention is the creation of a new method for the isolation of biologically active substances from plant materials, which provides a high yield of fat-soluble biologically active substances.

 The essence of the invention lies in the fact that in the method of separating biologically active substances from vegetable raw materials, comprising soaking the raw materials with a solvent containing at least ethyl alcohol, and subsequent extraction of the fat-soluble biologically active substances with oil, according to the invention, the raw materials are soaked in an aqueous solution of ethyl alcohol, and the extraction of fat-soluble biologically active substances is carried out simultaneously with the mechanical disintegration of plant materials.

 In addition, according to the invention, the soaking of the raw materials is carried out with an aqueous solution of ethyl alcohol with a concentration of at least 40%.

In addition, according to the invention, the soaking of raw materials is carried out at a ratio of raw materials and an aqueous solution of ethyl alcohol 1: (1-3)
In addition, according to the invention, the process of extraction of fat-soluble biologically active substances with simultaneous disintegration of plant materials is carried out in a rotary pulsation apparatus.

In addition, according to the invention, the process in a rotary pulsation apparatus is carried out at a temperature of 20-90 ^o C for 5-30 minutes at a ratio of vegetable raw materials and oil 1: (2-20).

 The fundamental difference between the claimed method and the known ones is that the extraction of fat-soluble biologically active substances with oil is carried out simultaneously with the disintegration of plant materials previously soaked in an aqueous solution of ethyl alcohol.

 As shown by experimental studies by the authors, the combination of the oil extraction process with the mechanical disintegration of plant materials impregnated with an aqueous-alcoholic solution leads to a significant increase in the yield of fat-soluble biologically active substances.

 The indicated effect is apparently explained by the combined intensifying effect on the mass transfer processes of factors such as acceleration of the desorption of BAB from plant cell walls due to preliminary soaking of the raw material in an aqueous-alcoholic solution and a decrease in the viscosity of the oil due to the presence of an aqueous-alcoholic solution. Conducting extraction with simultaneous disintegration of raw materials under these conditions contributes to a more rapid and complete extraction of biologically active substances from plant materials.

 The method of combining the processes of extraction and dispersion in the preparation of extracts from plant materials is known from the prior art, in particular for the case when an aqueous solution of ethyl alcohol is used as the extract.

 However, the combination of features that determine the essence of the invention, allowed us to solve the problem for a more complex system, which is an oil-water solution of ethyl alcohol - vegetable raw materials.

 As experiments have shown, for soaking plant materials, it is advisable to use aqueous solutions of ethyl alcohol with a concentration of at least 40%.

 The amount of water-alcohol solution for soaking the raw material should be at least sufficient for its complete and uniform impregnation. It is preferable to maintain the ratio of plant materials and water-alcohol solution in the range of 1: (1-3). The choice of a specific ratio depends on the type of plant material and the ultimate goal of the process, which can be reduced either to obtain only an oil extract of biologically active substances, or to additionally obtain an aqueous-alcoholic extract of biologically active substances.

 To carry out the extraction process with simultaneous mechanical disintegration of plant materials, a number of devices can be used to combine these processes, for example, a vortex turboextractor, ball mill, rotary pulsation apparatus (RPA), etc.

 Preferred is the use of RPA, described, for example, in the article of M. V. Lekweishvli and M. A. Balabudkin [Chemical and Pharmaceutical Journal, 1983. -N 3. -C. 354-355].

When using RPA, the extraction of fat-soluble BAS with oil is preferably carried out for 5-30 minutes at a temperature of 20-90 ^o C and maintain the ratio of plant materials and oil in the range of 1: (2-20). The indicated process parameters are selected experimentally.

 Various medicinal plants can be used as plant raw materials, such as grass and St. John's wort flowers, calendula flowers, motherwort grass, valerian roots and rhizomes, Schisandra chinensis, mint grass, linden flowers, sage grass, cedar pine nuts or meal of these nuts, obtained in the course of their processing, rose hips, etc.

 Various vegetable oils can be used for extraction, such as soybean, corn, sesame, sunflower, linseed, as well as animal fats and oils, for example fish oil, badger oil, mink oil, etc.

 The method is as follows.

 Use crushed vegetable raw materials, the parameters of which meet the requirements of the standards.

The raw material is soaked in an aqueous solution of ethyl alcohol and kept in solution at t = (20 ± 5) ^o C for the time necessary for its complete and uniform impregnation. Depending on the type of raw material, the duration of the impregnation is from 1 to 24 hours.

Soaked raw materials (without separation of the aqueous-alcoholic solution) are processed in a rotary pulsation apparatus using oil as an extractant. The ratio of raw materials and oil is maintained within 1: (2-20) based on dry raw materials. The process is carried out for 5-30 minutes at a temperature of 20-90 ^o C.

 At the end of the process, the mass is defended and the target liquid product is separated by filtration.

 Depending on the purpose and conditions of the process, the target product can be either exclusively an oil extract of fat-soluble biologically active substances, or also contain a water-alcohol phase. In the latter case, phase separation is carried out, an additional aqueous-alcoholic extract of biologically active substances is obtained.

 Example 1

 The raw materials used were grass and St. John's wort flowers (State Pharmacopoeia XI ed., Issue 2, p. 52), which meet the requirements of the State Pharmacopoeia of State Pharmacopoeia XI.

The feed was soaked in a 60% aqueous solution of ethyl alcohol. For 1 mass fraction of raw materials, 2 volume fractions of the solution were taken. The feed was kept in solution at t = (20 ± 5) ^o C for 4 hours.

The soaked raw materials were processed in RPA at a temperature of 50 ^o C for 20 minutes Soybean oil according to GOST 7825-76 was used as an extractant. For 1 mass fraction of raw materials, 9 volume fractions of oil were taken (based on dry raw materials).

 At the end of the process, the mass was defended and the liquid was separated by filtration.

 The yield of fat-soluble biologically active substances was 90%.

 Example 2. The method was carried out as described in example 1.

 Chamomile flowers were used as raw material (State Pharmacopoeia, XIth ed., Issue 2, p. 7).

 The raw materials were soaked in a 70% solution of ethyl alcohol at a ratio of 1: 1. The exposure time was 4 hours.

Processing in RPA was carried out at t = 40 ^o C for 15 minutes As an extractant used corn oil according to GOST 8808-91 with a ratio of raw materials and oil 1: 7.

 The yield of fat-soluble biologically active substances was 87%.

 Example 3. The method was carried out as described in example 1.

 Siberian pine pine nut (TU 9761-012-23059311-94) was used as raw material.

 The raw materials were soaked in an 80% ethanol solution at a ratio of 1: 1. The exposure time was 10 hours.

Processing in RPA was carried out at t = 60 ^o C for 30 minutes Soybean oil according to GOST 7825-76 with a ratio of raw materials and oil 1: 3 was used as an extractant.

 The yield of fat-soluble biologically active substances was 92%.

 Example 4. The method was carried out as described in example 1.

 As a raw material, they used meal of Siberian pine pine nuts.

 The raw materials were soaked in an 80% ethanol solution at a ratio of 1: 1. The exposure time was 10 hours.

Processing in RPA was carried out at t = 60 ^o C for 25 minutes As an extractant, sesame oil was used according to GOST 7825-76 with a ratio of raw materials and oil 1: 2.

 The yield of fat-soluble biologically active substances was 90%.

 From the above examples it is seen that the proposed method provides a high yield of fat-soluble biologically active substances. Moreover, the method does not require large expenses of extractant and energy costs, as well as the use of toxic and environmentally hazardous chemicals.

Claims (5)

 1. A method of isolating biologically active substances from plant materials, comprising soaking the raw materials with a solvent containing at least ethyl alcohol, and subsequent extraction of the fat-soluble biologically active substances by treating the raw materials with a solvent with oil, characterized in that the raw materials are soaked in an aqueous solution of ethyl alcohol, and the extraction of fat-soluble biologically active substances is carried out simultaneously with the mechanical disintegration of plant materials.  2. The method according to claim 1, characterized in that the soaking of the raw materials is carried out with an aqueous solution of ethyl alcohol with a concentration of at least 40%.  3. The method according to claim 1 or 2, characterized in that the soaking of the raw materials is carried out at a ratio of raw materials and an aqueous solution of ethyl alcohol of 1: 1 to 3.  4. The method according to claim 1, or 2, or 3, characterized in that the process of extraction of fat-soluble biologically active substances with simultaneous disintegration of plant materials is carried out in a rotary pulsation apparatus. 5. The method according to claim 4, characterized in that the process is carried out at 20 - 90 ^o C for 5 to 30 minutes with a ratio of vegetable raw materials and oil 1: 2 - 20.