RU2599481C1 - Method of medicinal plants nano capsules producing having cardioactive effect - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to method of Hawthorn tincture nano capsules producing. Above method is characterized by that Hawthorn tincture is added in sodium alginate in petroleum ether suspension in the presence of glycerol ester with one or two molecules of edible fatty acids and one or two citric acid molecules while mixing at 1,300 rpm, then methylene chloride is added, produced nano capsules suspension is filtered and dried at room temperature.

EFFECT: invention provides simplifying and accelerating process of nano capsules producing and increases their mass output.

1 cl, 1 dwg, 3 ex

Description

The invention relates to the field of nanotechnology, medicine and the food industry.

Previously known methods for producing microcapsules.

In US Pat. RF 2173140, IPC A61K 009/50, A61K 009/127, published September 10, 2001, a method for producing silicon organolipid microcapsules using a rotary-cavitation unit with high shear forces and powerful sonar acoustic and ultrasonic range for dispersion is proposed.

The disadvantage of this method is the use of special equipment - rotary cavitation unit, which has an ultrasonic effect, which affects the formation of microcapsules and can cause adverse reactions due to the fact that ultrasound destructively affects polymers of a protein nature, therefore, the proposed method is applicable when work with polymers of synthetic origin.

In US Pat. RF 2359662, IPC A61K 009/56, A61J 003/07, B01J 013/02, A23L 001/00, published 06/27/2009, a method for producing sodium chloride microcapsules using spray cooling in a Niro spray cooling tower under the following conditions: air temperature inlet 10 ° C; outlet air temperature 28 ° C; spray drum rotation speed 10,000 rpm. The microcapsules of the invention have improved stability and provide controlled and / or prolonged release of the active ingredient.

The disadvantages of the proposed method are the duration of the process and the use of special equipment, a set of certain conditions (air temperature at the inlet 10 ° C, air temperature at the outlet 28 ° C, rotation speed of the spray drum 10,000 rpm).

The closest method is the method proposed in US Pat. RF 2134967, IPC A01N 53/00, A01N 25/28, published on 08.27.1999. A solution of a mixture of natural lipids and a pyrethroid insecticide in a weight ratio of 2-4: 1 in an organic solvent is dispersed in water, which simplifies the microencapsulation method.

The disadvantage of this method is dispersion in an aqueous medium, which makes the proposed method not applicable for the preparation of microcapsules of water-soluble preparations in water-soluble polymers.

The technical task is to simplify and accelerate the process of obtaining nanocapsules, reduce losses in obtaining nanocapsules (increase in yield by mass).

The solution of the technical problem is achieved by the method of producing nanocapsules of medicinal plants with a cardiotonic effect, characterized in that sodium alginate is used as the shell of the nanocapsules, and tincture of hawthorn is used as the core when nanocapsules are prepared by the non-solvent precipitation method using methylene chloride as a precipitant.

A distinctive feature of the proposed method is the preparation of nanocapsules by non-solvent precipitation using methylene chloride as a precipitant, as well as the use of sodium alginate as a shell of particles and tinctures of medicinal plants with a cardiotonic effect - as a core.

The result of the proposed method is to obtain nanocapsules of medicinal plants with a cardiotonic effect.

EXAMPLE 1. Obtaining nanocapsules of tincture of hawthorn, the ratio of core: shell 1: 3

10 ml of hawthorn tincture is added to a suspension of sodium alginate in petroleum ether containing 3 g of the indicated polymer in the presence of 0.01 g of the preparation E472c (glycerol ester with one or two molecules of food fatty acids and one or two molecules of citric acid, with citric acid, as tribasic, it can be esterified with other glycerides and as an acid with other fatty acids. Free acid groups can be neutralized with sodium) as a surfactant with stirring at 1300 rpm. Then 10 ml of methylene chloride are poured. The resulting suspension is filtered and dried at room temperature.

Received 4 g of nanocapsule powder. The yield was 100%.

EXAMPLE 2. Obtaining nanocapsules of tincture of hawthorn, the ratio of the core: shell 1: 1

10 ml of hawthorn tincture is added to a suspension of sodium alginate in petroleum ether containing 1 g of the indicated polymer in the presence of 0.01 g of the preparation E472c as a surfactant with stirring at 1300 rpm. Then 10 ml of methylene chloride are poured. The resulting suspension is filtered and dried at room temperature.

Received 2 g of nanocapsule powder. The yield was 100%.

EXAMPLE 3. Sizing of nanocapsules by the NTA method.

The measurements were carried out on a Nanosight LM0 multiparameter nanoparticle analyzer manufactured by Nanosight Ltd (Great Britain) in the HS-BF configuration (Andor Luca high-sensitivity video camera, 405 nm semiconductor laser with a power of 45 mW). The device is based on the method of analysis of trajectories of nanoparticles (Nanoparticle Tracking Analysis, NTA), described in ASTM E2834 (Fig. 1).

The optimal ratio for dilution was chosen 1: 100. For measurement, the device parameters were selected: Camera Level = 16, Detection Threshold = 10 (multi), Min Track Length: Auto, Min Expected Size: Auto, duration of a single measurement 215s, use of a syringe pump.

Claims (1)

A method of producing nanocapsules of hawthorn tincture, characterized in that 10 ml of hawthorn tincture is added to a suspension of sodium alginate in petroleum ether containing 3 g or 1 g of the indicated polymer in the presence of 0.01 g of glycerol ester with one or two molecules of edible fatty acids and with one or two molecules of citric acid as a surfactant with stirring at 1300 rpm, then 10 ml of methylene chloride are poured, the resulting suspension of nanocapsules is filtered off and dried at room temperature.

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