RU2050853C1 - Method of manufacturing antiinflammatory medicinal preparation - Google Patents

Abstract

FIELD: bioengineering. SUBSTANCE: essence of this method resides in extracting peat with liquefied carbon dioxide at temperature of 25 to 29 C and pressure of 6.0 to 7.0 MPa during 2 to 3 h and then distilling carbon dioxide. EFFECT: higher antiinflammatory qualities as compared with prior art. 4 tbl

Description

 The invention relates to a technology for extract from peat with high biological activity.

A known method of producing ethanol extract of peat wax resin having high biological activity, which consists in extraction of peat wax resin with ethanol [1]
This method is very lengthy and time-consuming and includes 3 stages of the technological process: a) obtaining gasoline BR-2 at t 78-80 ^о С crude wax; b) extraction of BR-2 gasoline at t 0 + 5 ^о С from the raw peat wax of the tarry part; c) extraction of the resinous portion of ethyl alcohol at t 75-80 ^{° C} and obtaining the ethanol extract.

The closest in technical essence is a method for producing an extract from peat with gaseous carbon dioxide under extreme conditions (t 20-80 ^о С, pressure 20-80 MPa, extraction time 5.5 h, gas consumption 3 kg / h) [2]
This method is one-stage, however, the extracts obtained by this method have insufficient biological activity, namely, low anti-inflammatory activity; have a low content of triterpenoids, showing high biological activity. The process of obtaining the extract takes place at a very high pressure for 5.5 hours

 The objective of the proposed invention is to obtain an extract from peat with increased anti-inflammatory activity and lower costs of extraction (reducing the pressure of the extraction process and its duration).

The stated object is achieved in that the peat is treated with carbon dioxide followed by distillation and its extract is used as liquefied carbon dioxide, and peat extraction is carried out at a temperature of 25-29 ^{° C,} a pressure of 6.0-7.0 MPa for 2-3 hours .

 In the patent and scientific literature, the use of liquefied carbon dioxide to obtain biologically active extracts from peat was not found.

 The technological side of obtaining extract from peat is illustrated by the following examples.

PRI me R 1. In a glass thermostatic column with a height of 1000 mm, a column diameter of 100 mm load 1.0 kg of air-dried peat with a fractional composition of 0.5-0.7 mm and a moisture content of 15% Column with peat is loaded into 5000 ml extractor equipped with a water jacket. Under the column on the rotating table are placed collections of the finished product of CO ₂ peat extract in the amount of 6 pieces of 100 ml each. The extractor is closed, sealed and liquefied carbon dioxide (feed rate of the last 3 kg / h) is fed through the valve until it completely closes the peat sample, then the extractant is stopped. The shirt extractor fed hot water (40-50 ° ^C) for preheating the extractor to ^about 26 C. The pressure in the extractor is increased to 6.5 MPa and the working process of extraction is carried out for 2.5 hours. At the end of the extraction meal is removed from the extractor and CO ₂ peat extract. The yield of the extract is 15.8 g (1.58% for absolutely dry peat).

PRI me R 2. The extraction is carried out according to example 1, using 1.0 kg of air-dried lowland peat with a fractional composition of 0.5-0.7 mm and a moisture content of 15%. Extraction is carried out at a temperature of 29 ^about With a pressure of 7, 0 MPa for 3 hours. The extract yield is 16.5 g (1.65% on absolutely dry peat).

 The specified extraction parameters are necessary because provide extract from peat of increased biological activity while reducing the cost of extraction.

In the table. Figures 1 and 2 show the data on the yield of CO ₂ extracts from high and low peat and the content of triterpenoids and compounds of normal structure in them.

In the table. Figures 3 and 4 show the data on the biological activity of CO ₂ -extracts of high and low peat.

The data table. 1-4 indicate that the most suitable parameters for producing an extract of peat increased biological activity is the use as the extractant of liquefied carbon dioxide and conducting extraction at a pressure of 6.0-7.0 MPa, the extraction temperature 25-29 ^{° C} and its Duration 2-3 hours.

Increasing pressure from 7.0 to 8.0 MPa, the extraction temperature from 29 ^to 30 ° C and duration of extraction with 3 to 4 longer destroys increase extract yield at 1.0-1.2% slight increase contained triterpenoids (in 0.5-0.8%) and a significant enrichment of the extract with compounds of normal structure (3.2-3.5%), which have a very low biological activity, which accordingly reduces the anti-inflammatory activity by 5-6% antimicrobial by 1.5- 1.6%
Reducing the pressure from 6.0 to 5.0 MPa, the extraction temperature from 25 to 24 ^{° C} and duration of extraction with 2 to 1 chasa leads to a decrease in the extract yield 0.9-1.7% reduces 1,0-1, 5% content of triterpenoids in it, enriches it by 1.2-1.5% with compounds of normal structure, which reduces anti-inflammatory activity by 2-3% and antimicrobial by 0.2-0.3%
Using the proposed method for extracting peat extract with liquefied carbon dioxide, in comparison with the known method, it is possible to extract extracts from peat of high biological activity and reduce extraction costs (reduce the extraction pressure by 10 times and the extraction time by 2 times, which significantly reduces the energy consumption of extraction process).

 A study of anti-inflammatory activity was carried out in BelNISGI of the Ministry of Health of the Republic of Belarus in the Department of Toxicology (a conclusion is attached) on models of experimental inflammation of the paws of white rats of the Wistar strain. Inflammatory edema was caused by introducing under the aponeurosis of the plantar surface of the rat hind paw 0.1 ml of 1% carrageenin. The study was conducted according to generally accepted methods for peak inflammation. The studied extracts were administered intramuscularly in a dose range simultaneously with the introduction of an agent that causes an inflammatory reaction. Limb volume was measured with a caliper type instrument 1, 3, 5, and 24 hours after phlogogen administration and the minimum inhibitory concentration (MIC) of the extract was established to eliminate the inflammatory process. The smaller the MIC of the extract, the higher its anti-inflammatory activity.

Tests for antimicrobial activity were carried out on test microorganisms and fungi of the genus Candida. As a research method, a quantitative method of serial dilutions of drugs in Hottinger broth was used [3]
Quantitative determination of triterpenoids was carried out according to the method [4, 5]
Quantitative determination of compounds of normal structure was determined by chemical methods.

Claims (1)

METHOD FOR PRODUCING AN ANTI-INFLAMMATORY MEANS, by extraction of peat with carbon dioxide and its distillation, characterized in that liquefied carbon dioxide is used, and the extraction is carried out at a temperature of 25 29 ^o C and a pressure of 6.0 7.0 MPa for 2 3 hours

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