RU2129873C1 - Method of preparing milk thistle spotted oil showing wound-healing activity - Google Patents

Abstract

FIELD: chemical-pharmaceutical industry, phytotherapy. SUBSTANCE: invention relates to a method of preparing oil from fruits of milk thistle spotted (Silybum marianum L.). Fatty oil is extracted from the ground fruit with fluidized gas chladon-12 at 10-28 C, under pressure 3.5-6.0 kgf/cm² for 1.5-2 h in closed cycle at simultaneous evaporation of extract to be obtained. Solvent pressure in pressure capacity during feeding into extractors is maintained by 0.1-1.5 kgf/cm² higher as compared with extract pressure in evaporator after outlet from extractors. In evaporator extract is heated to 50 C. EFFECT: increased yield of the end product. 1 ex

Description

 The invention relates to the pharmaceutical industry, in particular to a method for producing milk thistle oil with wound healing activity.

 A known method of producing oil of milk thistle from the fruits of milk thistle [Silybum marianum (L) Gaertn.] And using the pressing method [3]. The disadvantage of this method is the low yield of the target product (milk thistle oil), as well as the instability of the oil during storage due to the ingress of lipase and other related substances into it during compression of the enzyme, in particular proteins that promote rancidity of the oil. In this case, the oil is a cloudy liquid that does not become transparent during storage.

 The objective of the invention is to increase the yield of milk thistle from the fruits of milk thistle.

 The essence of the proposed method lies in the fact that as the raw materials use the fruits of milk thistle and extraction is carried out in a closed cycle with liquefied gas freon-12.

 A search by the applicant for scientific, technical and patent sources of information and a prototype selected from the list of analogues [3] made it possible to identify distinctive features in the claimed technical solution. Therefore, the claimed method of obtaining satisfies the criteria of the invention of "novelty."

 The applicant conducted an additional search for known technical solutions [1,2,4] in order to detect in them features similar to those of the distinctive part of the formula of the claimed production method, showed that these signs are absent, therefore, the claimed technical solution meets the criterion of "inventive step".

 The criteria of the invention "industrial applicability" is confirmed by the fact that the proposed method for producing oil from the fruits of milk thistle allows to obtain in industrial production a drug with a high yield (1.7 grooves compared to the prototype, in which case the yield of the target product is 10 - 12% by weight of air-dry raw materials). This tool has a pronounced wound healing effect, belongs to the group of practically harmless drugs (the protocol is attached), and is also stable during storage.

 The inventive method for producing milk thistle oil is as follows.

Example. 30 kg of milk thistle fruits, crushed to a particle size passing through a hundred with a hole diameter of 1 mm, are loaded into 2 extractors of 15 kg each using a vacuum created by a vacuum pump, connecting the hoses to the loading nozzles of the extractors. After loading the raw material, the loading nipples are closed and the air is removed from the extractors by a vacuum pump to a vacuum (0.8-1.0) kgf / cm ² , determined by a vacuum manometer. Then the extractors are filled with gaseous Freon-12 to a pressure of 4-5 kgf / cm ² . After reaching equilibrium of pressures in the installation system, liquid freon-12 is supplied from the pressure vessels to the excavators. In this case, the solvent, passing through a layer of raw materials, extracts soluble components (fatty oil, phospholipids and other lipophilic components), and then merges through the filter into an evaporator. The solvent is fed to the bottom of the extractors and drained from the top. The extraction is carried out with 5 times the amount of freon-12 at a temperature of 10-28 ^o C, a pressure of 3.5 - 6.0 kgf / cm ² for 1.5 to 2 hours. For the normal conduct of the extraction process, it is necessary to maintain a pressure differential at the inlet and outlet of the solvent from the extractors of 0.1 - 1.5 kgf / cm ² . The pressure differential is carried out by cooling the condenser coil with a refrigeration unit: in this case, the pressure in the pressure vessels should be higher by 0.1-1.5 kgf / cm ² than in the evaporator and condenser. The supply of solvent and discharge of the extract is monitored using viewing lights. The operating pressure in the apparatus is controlled by manometers and manovacuum meters.

The HFC extract enters the evaporator, where it is heated by water heated in a thermostat to 50 ^o C (the water temperature is controlled by a thermometer) circulated by a pump in a jacket and in the evaporator coil. From the evaporator, solvent vapors, due to the pressure difference, enter a condenser cooled by a refrigeration unit and are liquefied. When the condenser is filled with liquid HFC-12, the latter is pressed into pressure vessels, after which the refrigeration unit is turned off.

 Thus, the solvent Freon-12 is in a closed cycle, carrying out flow extraction, and is reused. In this case, the evaporation process occurs simultaneously with the extraction stage. Evaporation time is 1.5 - 2 hours. The feed rate of the extract to the evaporator is set so that the evaporator is not filled more than 2/3 of its volume (in order to avoid transfer of the extract from the evaporator to the condenser).

After removal of the solvent, the target product remaining in the evaporator is fatty oil of the fruits of milk thistle, containing residues of Freon-12. In order to remove residues of HFC-12, this target product in the amount of 6.1 l is loaded into the reactor, into the jacket of which hot water is supplied from the thermostat using a pump, maintaining the temperature in the range of 50-60 ^o C. Removal of the solvent is carried out with the reactor stirrer turned on a vacuum of 0.8 - 1.0 kgf / cm ² while blowing nitrogen through the target product. Using nitrogen and vacuum, the residual solvent, Freon-12, is removed from the mixture.

Fatty oil (target product), after removing traces of solvent, is filtered through a filter, having previously placed filter material (calico and filtered paper) on it in a Bunsen flask. Filtration is carried out under a vacuum of 0.8 - 1.0 kgf / cm ² . Get 6.09 l of the target product with a yield of 20.3% by weight of air-dried raw materials. Spotted milk thistle oil, obtained by the claimed method, is a clear, greenish-yellow liquid, during storage of which practically no precipitate forms for 2 years.

It should be noted that the use of the proposed method provides the following advantages:
1. The use of HFC-12 allows to increase the yield of the target product 1.7 times compared with the prototype, which, in combination with the pronounced regenerating properties of milk thistle obtained by the claimed method, allows us to talk about a significant socio-economic effect.

 2. Milk thistle oil obtained by the claimed method, stable during storage.

Sources of information
1. Baginskaya A. I., Kolkhir VK, Glyzin et al. Development of drugs based on the integrated use of the fruits of milk thistle // II Russian National Congress "Man and Medicine": Abstracts. - M .: RC "Farmedinfo", 1995. - S. 229 - 230.

 2. Kurkin V. A. Phenylpropanoids - promising natural biologically active compounds. - Samara, 1996 .-- 80 s.

 3. Lebedev A.A., Simerzina L.V., Lebedev P.A. An agent with a multi-healing and hepatoprotective effect. -Pat. RF 2014840. - A 61 K 35/78. -Publish. 06/30/94 - Bull. N 12.

 4. Leng-Peschlov E., Strenge-Hesse A. Die Mariendistel (Silybum marianum) und Silymarin als Lebertherapeuticum // Z. fur Phytotherapie. - 1991. - Vol. 11, N. 2. - P. 50-58.

Claims (1)

A method of obtaining spotted milk thistle oil, having wound healing activity, from spotted milk thistle fruits (Silybum marianum L.), characterized in that the extraction of fatty oil is carried out from the ground fruit with liquefied gas Freon-12 at a temperature of 10 - 28 ^o C, a pressure of 3.5 - 6.0 kgf / cm ² for 1.5 - 2 hours in a closed cycle while evaporating the resulting extract, and the pressure of the solvent in the pressure vessels when fed into the extractors is maintained at 0.1 - 1.5 kgf / cm ² higher than the pressure of the extract in the evaporator after exiting the extract moat and extract the evaporator is heated to 50 ^o C.