SU576937A3 - Method of preparing mono-o-b-oxoethyl-7-rutine - Google Patents

Description

The invention relates to an improved method of MONO - o - j3 - OXIETI. CH - 7 routine, (mono - 7 - SED), which has physiological activity and is used as a medicine. A known method for producing mono - o - | 3 hydroxyethyl - 7 - rutic by reacting rutin with an excess of ethylene oxide in the presence of alkali in a polar solvent, aqueous alcohol and aqueous dioxide at a temperature of 80-90 ° C, followed by treatment with acid 1. The disadvantage of this method is the low selectivity of the process, since the length of the bEucose-Rbamno reaction affects the formation of various ethoxylated derivatives, which are successively transformed from mono-substituted derivatives into di-, tri-, and tetra-derivatives. Therefore, it is necessary to carefully monitor and be able to respond to the formation of a mono-derivative. The purpose of this invention is to increase the selectivity of the process. The essence of isoretration is that ethylene oxide is reacted with a rutin complex with an oxygen-containing boron derivative of formula 1 HO-O-OH lucoge-hamno s

Alcohol, dioxane, water or a mixture thereof is used as the polar solvent. The proposed method controls the quantitative oxyethylation of rutin. Along with mono-7-EOR, traces of di-0- | 3 - hydroxyethyl - 5.7 - rutin and three - O - hydroxyethyl - 7, rutin are formed, and these latter substances are paci-vorimy in water, they can be easily removed by one recrystallization, after which the chromatographically pure mono-7-EOR remains.

The soluble rutin complex used for the proposed process is obtained by reacting stoichiometric amounts of complexing agents and rutin in the reaction solvent. The complexing agent is preferably borax or boric acid. The solvent is water or a polar organic solvent. The rutin-borax complex is prepared immediately before the oxyethylation, but is not removed from the reaction medium before the hydroxy-ethylation reaction.

The formation of a rutin-borax complex in water is controlled using visible spectrometry (rutin absorbs at 359 nm and rutbur complex at 379 nm) or using UV spectrometry (rutin absorbs at 255 nm, with a shoulder at 260 them, while rutin-drill absorbs at 268 nm with a shoulder at 330 nm). In partially aqueous or polar organic media, ruthenic boric acid complexes are detected by visible UV spectroscopy.

Hydroxyethylamine is carried out directly on the complex using a measured amount of ethylene oxide, preferably 2.5 moles or more per 1 mole of rutin.

The esterification reaction proceeds at a relatively low temperature of 30-40 ° C. At higher temperatures, there is a danger of decomposition of the complex, which leads to an undesirable mixture of O - | 3 - ethoxylated rutin derivatives. The reaction can be carried out in relatively concentrated solutions of rutin, for example, higher than 30%.

The process is monitored chromatographically in the TO1 cellulose layer using a mixture of n butanol, methanol and water (10: 1: 3 by volume). The reaction ends when rutin quantitatively disappears. From now on, by cooling the mixture to room temperature, the residual ethylene oxide is removed by introducing into the reactor an inert gas, for example nitrogen, which displaces the residual ethylene oxide, which is collected by bubbling into aqueous 6N. hydrochloric acid solution. The solution is acidified to a pH of 1 to 3 with an acid solution, preferably a mineral acid, for example, 20% hydrochloric acid; OH-phenolic complexes are released. Isolation of the desired product was accomplished as follows. The mono-7-OED derivative is precipitated in water, while in reactions in partially aqueous and polar organic media

the solvent is replaced with water and the pH of the thief is adjusted to 1-3, at which mono-7 OER is precipitated. At this stage, water-soluble impurities can be easily removed. The yield of practically pure mono-7-OER in reactions in aqueous media is in the order of 97-98%.

Simple recrystallization from water leads to chromatographically pure mono - 7 - OED.

The purity of the product is controlled by chromatography in a thin layer of polyamide when using as a solvent a mixture of n butanol, methanol and water (10: 1: 3 by volume) or on paper S + S 2034 using a solvent of formic acid and water (7: 3 by volume).

Example. Dissolve 209 g (0.55 mol; borax in 1150 ml of distilled or demineralized water and add 310 g (0.51 mol) of rutin, which easily goes into solution to form rutin-borax. The solution is kept in an autoclave with stirring 40 ° C. By suctioning the air in the autoclave, a weak vacuum is created and 62.5 ml (56 g or 1.275 mol) of ethylene oxide is introduced by blowing under a gentle pressure of nitrogen, then the pressure is restored to normal. Continue mixing and maintain the temperature at 40 ° C within 24 hours to complete disappearance Rutin. The heating is stopped, a stream of nitrogen is passed in for 2 hours to remove the residual oxide of ethylene, which is absorbed (captured) by circulating the gas stream through the washing flask containing 1 liter of 6N hydrochloric acid.

The reaction solution is poured into an Erlenmeyer flask with a capacity of 2 liters, the pH is adjusted to 2.0 with 180 ml of 20% hydrochloric acid (S, 5 N HCI); precipitation of mono - 7 - defs begins in the process

acidification. The solution was kept at 4 ° C overnight, then the precipitate was separated by filtration, washed with cold water, dried. Weight of substance is about 320 g, i.e. the yield is 97%. This substance can be recrystallized.

of water.

Example 2: 40 g (0.656 mol) of rutin is dissolved in 800 ml of methanol in the presence of 16.4 g (0.365 mol) of boric acid, and 21.4 g

(0.262 mol) of sodium ethyl acetate, the mixture is placed at 35 ° C in an autoclave. 72 g (1.64 mol) of liquid ethylene oxide are added. Stir at 35 ° C for 228 h, then add 132 ml of 2 p. Of hydrochloric acid and blend

dry on a rotary evaporator under vacuum, not raising the temperature to 50 ° C. The residue is taken up with 200 ml of water, adjusted to pH 2.5 with 2N HC1, diluted to 250 ml with water (16% solution), filtered and left be

at 4 ° C for 3.5 hours. The precipitate formed is filtered on a Buchner draft, dried with iodine in a vacuum, only mono-7-OED is obtained. The yield is 20-22 g (46.5-51.5%). 1 pm. 3. Similar to Example 2. But methanol is replaced with 200 ml of a mixture of methanol and dioxane (1: 1 by volume). The reaction time is about 350 hours, the yield of mono - 7 - OED is about 50%. Example 4, Analogously to Example 2, but replacing methanol with 400 ml of a mixture of water and dioxane on COse-RV ampos

And the heating is carried out at a temperature of 30-40 C.

2. A method according to claim 1, characterized in that the process is carried out in the presence of a catalyst.

3. A method according to claim 1, characterized in that water, alcohol, dioxane or a mixture thereof is used as a polar solvent.

4. Method No. 2, characterized in that sodium acetate 6-8v is used as a catalyst.

Sources of information taken into account during the examination:

Claims (1)

1. Switzerland patent No. 458389, cl. 12 d24, 08/30/68. (1: 1 by volume). The duration of the reaction of the pores; and: a 244, the yield of mono - 7 - OER was 55%. The method of the invention The method of obtaining mono-O-j3-oxystil-7 rutin based on ethylene oxide when heated in a polar solvent and then treated with an acid, characterized in that, in order to increase the selectivity of the process, ethylene oxide is reacted with an oxygen-containing rutin complex derivatives of boron formula 1 tsxsge- hamnagf