RU2424814C2 - Incomplete rubidium salt of polyacrylic acid, method of its obtaining and based on it medication, possessing hemostatic action in external application - Google Patents

Abstract

FIELD: medicine, pharmaceutics.

SUBSTANCE: claimed invention relates to creation of novel chemical compounds, which can be used in medicine as hemostatic medications of local action. Described is incomplete rubidium salt of polyacrylic acid, which is characterised by corresponding to formula:

. Also described is method of obtaining said above incomplete rubidium salt of polyacrylic acid, characterised by the following: to water solution of polyacrylic acid added is water solution of rubidium chloride, reaction mixture is mixed for 30-40 more minutes, obtained water solution is passed through cationite and dried in vacuum at temperature not higher than 50°C. Described is medication, containing said above incomplete rubidium salt of polyacrylic acid characterised by the following: it is made in form of solution with ratio 1-10 g of principal substance per 100 ml of water, possessing hemostatic action in external application.

EFFECT: obtaining novel chemical compounds which can be used in medicine as hemostatic medications.

3 cl, 5 ex

Description

The invention relates to the creation of new chemical compounds that can be used in medical practice as local hemostatic agents.

Effective hemostatic agents, such as feracryl (SU 698622 A, 11/25/1979), argacryl (RU 2220982 C2, 05/01/2001) and ciacryl (RU 2314815, C1 05/25/2006) were created on the basis of polyacrylic acid (PAA), which has some hemostatic effect. ), which are its incomplete metal salts. Their hemostatic effect is due to the formation of an interpolymer (clot) with plasma proteins.

An incomplete rubidium salt of polyacrylic acid is proposed that meets the general formula:

n=18890-21670; m=1665-1909

n = 18890-21670; m = 1665-1909

The method of obtaining the substance is based on the interaction in an aqueous medium of polyacrylic acid (PAA) with rubidium chloride.

It was shown in experiments that the incomplete rubidium salt of polyacrylic acid in the form of a solution in the ratio of 1-10 g of the basic substance per 100 ml of water has the ability to stop bleeding.

Example 1. Synthesis of an incomplete rubidium salt of polyacrylic acid: 10.0 g of PAA with a molecular weight of 1,000,000-3,000,000 are dissolved with stirring in 200 ml of distilled water. An aqueous solution of 2.26 g of rubidium chloride in 50 ml of water is added to the solution with stirring. The reaction mixture is stirred for another 30-40 minutes, the resulting aqueous solution is passed through cation exchange resin and dried in vacuum at a temperature not exceeding 50 ° C. The yield of solid substance of the incomplete rubidium salt of polyacrylic acid is 99% (12.14 g). The polymer is obtained in the form of colorless films.

Found,%: C 47.88; H 5.78; Rb 4.38.

Calculated,%: C 47.21; H 5.35; Rb 8.00; η _rel. 2.14; n = 21670; m = 1665.

The composition of the polymer includes 0.5259 g-equiv. COOH and 0.0445 g-at Rb per 1 g of polymer.

According to the measurement of the viscosity of the polymer determined by its average hydrodynamic molecular weight of 1,000,000-3,000,000.

Example 2. The effect of incomplete rubidium salt of polyacrylic acid on stopping bleeding. The influence of the hemostatic effect of the incomplete cesium salt of polyacrylic acid was studied under laboratory conditions on chinchilla rabbits weighing 3-4 kg under thiopental anesthesia (6-8 ml of a 1.0% solution intravenously, and then up to 6-10 ml of a 1.5% solution intraperitoneally ) Laparotomy was performed using a longitudinal section along the white line of the abdomen. Intestine was taken out into the wound, limiting it with napkins moistened with warm saline and the front surface of the liver. Using a special limiting device, a superficial razor of the liver was applied with a sharp razor about 1.5 cm ² and a depth of about 0.3 cm. The stop of the developed capillary-parenchymal bleeding was performed by uniformly applying a 1% solution of incomplete cesium salt of polyacrylic acid in a dose of 6.7, respectively mg / cm ² .

As a control, we stopped the bleeding by tightly pressing a tampon from a gauze napkin to the wound surface. The stop of bleeding occurred in the control for 251 ± 11 seconds. When applying an incomplete rubidium salt of polyacrylic acid in a dose of 6.7 mg / cm ² - for 143 ± 6 seconds.

Example 3. The effect of incomplete rubidium salt of polyacrylic acid on stopping bleeding. The effect of the hemostatic effect of the incomplete cadmium salt of polyacrylic acid was studied under laboratory conditions on chinchilla rabbits weighing 3-4 kg under thiopental anesthesia (6-8 ml of a 1.0% solution intravenously, and then up to 6-10 ml of 1.5% solution intraperitoneally). Laparotomy was performed using a longitudinal section along the white line of the abdomen. Intestine was taken out into the wound, limiting it with napkins moistened with warm saline and the front surface of the liver. Using a special limiting device, a superficial razor of the liver was applied with a sharp razor of about 1.5 cm ² and a depth of about 0.3 cm. The development of capillary-parenchymal bleeding was stopped by uniformly applying a 2% solution of incomplete rubidium salt of polyacrylic acid in a dose of 13.4, respectively mg / cm ² .

As a control, we stopped the bleeding by tightly pressing a tampon from a gauze napkin to the wound surface. The stop of bleeding occurred in the control for 251 ± 11 seconds. When applying an incomplete rubidium salt of polyacrylic acid in a dose of 13.4 mg / cm ² - 128 ± 10 seconds.

Example 4. The effect of incomplete rubidium salt of polyacrylic acid on stopping bleeding. The influence of the hemostatic effect of the incomplete rubidium salt of polyacrylic acid was studied under laboratory conditions on chinchilla rabbits weighing 3-4 kg under thiopental anesthesia (6-8 ml of a 1.0% solution intravenously, and then up to 6-10 ml of 1.5% solution intraperitoneally). Laparotomy was performed using a longitudinal section along the white line of the abdomen. Intestine was taken out into the wound, limiting it with napkins moistened with warm saline and the front surface of the liver. Using a special limiting device, a superficial razor of the liver was applied with a sharp razor of about 1.5 cm ² and a depth of about 0.3 cm. The development of capillary-parenchymal hemorrhage was stopped by uniformly applying a 5% solution of incomplete rubidium salt of polyacrylic acid in a dose of 33.5, respectively mg / cm ² .

As a control, we stopped the bleeding by tightly pressing a tampon from a gauze napkin to the wound surface. The stop of bleeding occurred in the control for 251 ± 11 seconds. When applying an incomplete rubidium salt of polyacrylic acid in a dose of 33.5 mg / cm ² - for 100 ± 12 seconds.

Example 5. The effect of incomplete rubidium salt of polyacrylic acid on stopping bleeding. The influence of the hemostatic effect of the incomplete rubidium salt of polyacrylic acid was studied under laboratory conditions on chinchilla rabbits weighing 3-4 kg under thiopental anesthesia (6-8 ml of a 1.0% solution intravenously, and then up to 6-10 ml of 1.5% solution intraperitoneally). Laparotomy was performed using a longitudinal section along the white line of the abdomen. Intestine was taken out into the wound, limiting it with napkins moistened with warm saline and the front surface of the liver. Using a special limiting device with a sharp razor, superficial liver brine was applied about 1.5 cm ² and about 0.3 cm deep. The development of capillary-parenchymal bleeding was stopped by uniformly applying a 10% solution of incomplete rubidium salt of polyacrylic acid at a dose of 67.0 mg / cm ² .

As a control, we stopped the bleeding by tightly pressing a tampon from a gauze napkin to the wound surface. The stop of bleeding occurred in the control for 251 ± 11 seconds. When applying the incomplete rubidium salt of polyacrylic acid at a dose of 67.0 mg / cm ² - in 88 ± 9 seconds.

Claims (3)

1. Incomplete rubidium salt of polyacrylic acid, characterized in that it corresponds to the formula:

where n = 18890-21670; m = 1665-1909. 2. The method of obtaining the compound according to claim 1, characterized in that an aqueous solution of rubidium chloride is added to the aqueous solution of polyacrylic acid, the reaction mixture is stirred for another 30-40 minutes, the resulting aqueous solution is passed through cation exchange resin and dried in vacuum at a temperature not exceeding 50 ° FROM. 3. The tool containing the substance according to claim 1, characterized in that it is made in the form of a solution in the ratio of 1-10 g of the main substance per 100 ml of water, it has a hemostatic effect when applied topically.