BG63080B1 - Method for n-ethylglucamine preparation - Google Patents

Abstract

The method is more efficient. It produces a product of high yield and purity, particularly suitable for preparing injectable forms. The method consists in reducing aminoethylation of an aqueous solution of glucose and an excess of an aqueous solution of ethylamine with hydrogen at a pressure of 30 to 15 atmospheres and a temperature of 40 to 500 ° C in the presence of a nickel skeleton catalyst. Upon completion of the process, the catalyst is removed from the reaction mixture which is treated with activated carbon at a temperature of 50 to 550 ° C and filtered. Immediately thereafter, the reaction mixture is subjected to a gradual crystallization, initially cooled to 25-300C with stirring for about 2 to 5 hours, after which the temperature is lowered to 0-20 ° C and the mixture is kept under stirring under these conditions for 1-2 hours . N-ethylglucamine crystallizes in high yield and purity.

Description

Field of the art

The invention relates to a process for the preparation of N-ethylglucamine (I), which is used as a starting product for the preparation of injectable solutions for human and veterinary medicine, for example the veterinary antimicrobial preparation Fasioid.

State of the art

Method (1) for the preparation of N-ethylglucamine by reducing aminoethylation of a glucose solution and an excess of monoethylamine with hydrogen at a pressure of 30-15 [deg. and a temperature of 40-50 < 0 > C and in the presence of a skeletal nickel catalyst.

By this method the process takes place in both water and alcoholic environments.

In the examples described in the cited patent, the product with the highest yield (65.8%) and purity (m.p. 137-139 ° C by Coffler) is obtained by carrying out the process under the aforementioned conditions in an aqueous medium and isolating the product after precipitation with a certain amount of ethyl alcohol. This results in a very fine crystalline product which, under industrial conditions, makes it difficult to filter it from the aqueous alcoholic solution. This lowers the quality and significantly increases the technological time.

When the process is carried out in ethyl alcohol, the yield is 61.2% with reduced purity (mp 133-135 ° C), requiring recrystallization from ethyl alcohol. The yield of the purified product is 55%, m.p. 137-139 ° C.

The purity of the products obtained according to these 5 examples, determined in terms of titrimetric N-ethylglucamine content in%, calculated on a dry matter basis, is 95-97%.

In view of the requirements in recent years both for the final pharmaceutical formulations and for the starting pharmaceutical products, the produced N-ethylglucamine must correspond to a% content of not less than 98% and not less from

139-140 ° C.

SUMMARY OF THE INVENTION AND ADVANTAGES

The method consists in reducing aminoethylation of an aqueous solution of glucose and an excess of an aqueous solution of ethylamine with hydrogen at a pressure of 30-15 [ and a temperature of 40-50 ° C in the presence of a skeletal nickel catalyst, then the catalyst is removed from the reaction mixture which is treated with activated carbon at a temperature of 50-55 ° C and filtered, and according to the invention, after the filtration, the reaction mixture is subjected to a crystallisation step by initially cooling to 25-30 ° C with stirring for about 2 to 5 hours, then the temperature is lowered to 0-2 ° C and the mixture is kept under these conditions for 1-2 hours without stirring. N-ethylglucamine crystallizes in high yield and purity.

Thus, the method is implemented in a one-step scheme:

n - on - on - on - n - on, on - on - line II - o - on

OH ₂ OH. H _d ()

H., Ka / Ni

40-50 ° C 30-15 ° C H, Aqueous media

The advantages of the method are the following: a one-stage run in the same aqueous reaction medium; increased yield of about 1012%; increased N-ethylglucamine content in% relative to dry matter of 95-97% H, NHCl, H ₅ -s-onon-O -H-D-OH H-dione, 98-99%, and m.p. (Kohler) of 137-139 ° C at 139-140 ° C; technological facilities in its realization in industrial conditions - reducing the number of technological operations and reducing the duration of the processes; through escape operations with ethyl alcohol, making the technology more environmentally acceptable and economically more profitable.

Exemplary embodiments

The invention is illustrated by the following example.

Example 1 A. Preparation of N-ethylglucamine

Dissolve 62 kg of D (+) glucose (monohydrate) in 45 l of distilled water while heating to 50-60 ° C. The cooled to 35 DEG C. glucose solution, a 5 kb scalar nickel catalyst suspended in 3 L of distilled water and 31.2 L of a 70% aqueous solution of ethylamine was charged in the attic. Pressurized hydrogen 30 l! and hydrogenation is carried out at a temperature of 40-50 ° C and a pressure of 30-15 μl until the uptake of hydrogen ceases. The hydrogen is released, the catalyst is filtered and washed with 5 l of distilled water. To the filtrate was added 0.5 kg of activated charcoal and the reaction mixture was stirred for 30 minutes at 50-55 ° C. The hot reaction mixture is filtered and the catalyst is washed with distilled water.

The filtrate is initially cooled to 25-30 ° C for about 2-3 hours with constant stirring, then the temperature is lowered to 0-2 ° C. The reaction mixture is kept at this temperature 1 L, then the resulting crystalline N-ethylglucamine is filtered off.

Yield: 43.5 Kg of dry product with a content of 98.7% and m.p. 139-140 ° C (Kohler).

B. Isolation of N-ethylglucamine from mother liquors

The water wells with a volume of about 90 liters are concentrated by heating the water bath at 70 ° C and under vacuum to obtain a concentrate with a density of ^{4 20} = 1.15 g / cm ³ . From it, after cooling down to 5 ° C to 40 ° C, an additional amount of crystalline product is removed under stirring and further cooling to 0-2 ° C. Approximately 16 g of wet N-ethylglucamine is isolated and recrystallized from distilled water. An additional 6.9 kg product was obtained with a 98% content.

The total amount of N-ethylglucamine with a purity satisfying the increased requirements for the preparation of injection solutions is 50.4 ± 15 kg, representing 77% of the theoretical yield calculated on the glucose input.

Claims (1)

Claims 1. Method for the preparation of Ν-ethylglucamine by reductive aminoethylation of an aqueous glucose solution and an excess of aqueous monoethylamine with hydrogen at a pressure of 30-15 A1 and a temperature of 40-50'C in a skeleton nickel catalyst as follows the catalyst is separated, the reaction mixture is treated with activated carbon at 5055 ° C and filtered, characterized in that, immediately after filtration, the reaction aqueous mixture is subjected to step crystallization. initially cooling to 25-30 ° C with stirring for about 2 to 5 b, then reducing the temperature to 02 ° C and the mixture standing under these conditions 1 -2 b 35 without stirring.