RU2598748C1 - Method of producing nanocapsules of adaptogens in sodium alginate - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to method of producing adaptogenes nano capsules in sodium alginate, wherein active substance while stirring is dispersed into sodium alginate suspension in isopropanol in presence of E472 preparation as surfactant, settler is then added, and precipitate is dried at room temperature, characterised by that active substance is represented by vegetal origin adaptogens: extracts, eleuterococcus or ginseng, or chinese magnolia vine, or rhodiola rosea or Manchurian Aralia, as settling agent ethyl acetate is used in ratio 1:1-10 of adaptogen:ethyl acetate, while mixing is carried out at rate of 1,300 rpm.

EFFECT: obtaining adaptogens nano capsules in sodium alginate.

1 cl, 9 ex, 4 dwg

Description

The invention relates to the field of nanotechnology and can be used in medicine and the food industry.

Previously known methods for producing microcapsules.

In the patent of the Russian Federation No. 2173140, published on 09/10/2001, a method for producing silicon organolipid microcapsules using a rotary-cavitation unit having high shear forces and powerful sonar acoustic and ultrasonic phenomena 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.

RF patent No. 2359662 (published June 27, 2009) proposes a method for producing sodium chloride microcapsules using spray cooling in a Niro spray cooling tower under the following conditions: inlet air temperature 10 ° C, outlet air temperature 28 ° C, spray drum rotation speed 10000 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 known method proposed in the patent of the Russian Federation No. 21394967 (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 inapplicable for producing microcapsules of water-soluble preparations in water-soluble polymers.

The closest is the method according to the patent of the Russian Federation No. 538 719 (published on January 10, 2015), characterized in that the active substance Dorogov antiseptic stimulator (ASD) 2 fraction is dispersed in a suspension of sodium alginate in isopropanol in the presence of E472 as a surfactant with stirring 1300 r / s, carbon tetrachloride is added as a precipitant, and the precipitate is dried at room temperature. The result is microcapsules in a shell of sodium alginate.

The disadvantage of this technical solution is the impossibility of using it to obtain adaptogen nanocapsules in sodium alginate.

The technical task is to develop a method for producing nanocapsules of plant adaptogens in sodium alginate.

The technical result is the implementation of the purpose of the invention.

The solution of the technical problem is achieved by the proposed method for producing adaptogen nanocapsules in sodium alginate, in which the active substance is dispersed with stirring into a suspension of sodium alginate in isopropanol in the presence of E472 as a surfactant, then a precipitant is added, and the precipitate is dried at room temperature, in which introduced the following new features:

- as an active substance, adaptogens of plant origin are used: extracts of Eleutherococcus, or ginseng, or Schisandra chinensis, or Rhodiola rosea, or Aralia manchurian;

- ethyl acetate is used as precipitant;

- the ratio of adaptogen: ethyl acetate 1: 1-10;

- mixing is carried out at a speed of 1300 rpm

New in the present invention is that nanocapsules are obtained in which sodium alginate is used as the nanocapsule shell, and plant adaptogens are used as the nucleus: extracts of eleutherococcus, ginseng, Chinese magnolia vine, Rhodiola rosea, Manchurian aralia.

To confirm that nanocapsules were obtained during the implementation of the method, capsule sizes were determined by the NTA method on a Nanosight LM0 multi-parameter nanoparticle analyzer manufactured by Nanosight Ltd (Great Britain) in the HS-BF configuration (Andor Luca high-sensitivity video camera, 405 nm semiconductor laser and power 45 mW). The device is based on the Nanoparticle Tracking Analysis (NTA) method described in ASTM E2834. The optimal dilution of 1: 100 and the instrument parameters were selected for measurement: Camera Level = 16, Detection Threshold = 10 (multi), Min Track Length: Auto, Min Expected Size: Auto, duration of a single measurement of 215s, use of a syringe pump.

The measurement results are presented in the following graphic images.

Figure 1. Particle size distribution in a sample of eleutherococcus nanocapsules in sodium alginate with a core: shell ratio of 1: 3.

Figure 2. Table 1 shows the statistical characteristics of the size distribution of a particle sample of eleutherococcus nanocapsules in sodium alginate with a core: shell ratio of 1: 3.

Figure 3. Particle size distribution in a sample of ginseng nanocapsules in sodium alginate with a core: shell ratio of 1: 3.

Figure 4. Table 2 shows the statistical characteristics of particle size distributions in a sample of ginseng nanocapsules in sodium alginate with a core: shell ratio of 1: 3.

Examples of carrying out the invention.

EXAMPLE 1. Obtaining nanocapsules of the extract of Eleutherococcus in sodium alginate, the ratio of core: shell 1: 3

100 mg of Eleutherococcus extract is added to a suspension of sodium alginate in isopropanol containing the indicated 300 mg of polymer in the presence of 0.01 g of the preparation E472 s (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) with stirring at a speed of 1300 rpm. Next, 5 ml of ethyl acetate are poured. The resulting suspension is filtered and dried at room temperature.

Obtained 0.4 g of nanocapsule powder. The yield was 100%.

EXAMPLE 2. Obtaining nanocapsules of ginseng extract in sodium alginate, the ratio of core: shell 1: 3

100 mg of ginseng extract is added to a suspension of sodium alginate in isopropanol containing the indicated 300 mg of polymer in the presence of 0.01 g of the preparation E472 s with stirring 1300 rpm. Next, 5 ml of ethyl acetate are poured. The resulting suspension is filtered and dried at room temperature.

Obtained 0.4 g of nanocapsule powder. The yield was 100%.

EXAMPLE 3. Obtaining nanocapsules of ginseng extract in sodium alginate, the ratio of the core: shell 5: 1

500 mg of ginseng extract is added to a suspension of sodium alginate in isopropanol containing the indicated 100 mg of polymer in the presence of 0.01 g of the preparation E472 with 1300 rpm with stirring. Next, 6 ml of ethyl acetate are added. The resulting suspension is filtered and dried at room temperature.

Received 0.6 g of nanocapsule powder. The yield was 100%.

EXAMPLE 4. Obtaining nanocapsules of Schisandra chinensis in sodium alginate, the ratio of core: shell 1: 3

1 ml of Schisandra chinensis extract is added to a suspension of sodium alginate in isopropanol containing the indicated 3 g of polymer in the presence of 0.01 g of the E472 preparation with 1300 rpm with stirring. Then 10 ml of ethyl acetate are added. The resulting suspension is filtered and dried at room temperature.

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

EXAMPLE 5. Obtaining nanocapsules of Schisandra chinensis in sodium alginate, the ratio of core: shell 1: 1

1 ml of Schisandra chinensis extract is added to a suspension of sodium alginate in isopropanol containing the indicated 1 g of polymer in the presence of 0.01 g of the preparation E472 s with stirring 1300 rpm. Next, 5 ml of ethyl acetate are poured. The resulting suspension is filtered and dried at room temperature.

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

EXAMPLE 6. Obtaining nanocapsules of Aralia Manchurian in sodium alginate, the ratio of core: shell 1: 1

1 ml of Manchurian aralia extract is added to a suspension of sodium alginate in isopropanol containing the indicated 1 g of polymer in the presence of 0.01 g of the preparation E472 s with stirring 1300 rpm. Next, 5 ml of ethyl acetate are added. The resulting suspension is filtered and dried at room temperature.

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

EXAMPLE 7. Obtaining nanocapsules of Aralia Manchurian in sodium alginate, the ratio of core: shell 1: 3

1 ml of Manchurian aralia extract is added to a suspension of sodium alginate in isopropanol containing the indicated 3 g of polymer in the presence of 0.01 g of the preparation E472 s with stirring 1300 rpm. Then 10 ml of ethyl acetate are added. The resulting suspension is filtered and dried at room temperature.

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

EXAMPLE 8. Obtaining nanocapsules of Rhodiola rosea in sodium alginate, the ratio of core: shell 1: 3

1 ml of Rhodiola rosea extract is added to a suspension of sodium alginate in isopropanol containing the indicated 3 g of polymer in the presence of 0.01 g of the preparation E472 s with stirring 1300 rpm. Then poured 10 ml of ethyl acetate. The resulting suspension is filtered and dried at room temperature.

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

EXAMPLE 9. Obtaining nanocapsules of Rhodiola rosea in sodium alginate, the ratio of core: shell 1: 1

1 ml of Rhodiola rosea extract is added to a suspension of sodium alginate in isopropanol containing the indicated 1 g of polymer in the presence of 0.01 g of the preparation E472 s with stirring 1300 rpm. Then 10 ml of ethyl acetate are added. The resulting suspension is filtered and dried at room temperature.

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

Claims (1)

A method of producing adaptogen nanocapsules in sodium alginate, in which the active substance is dispersed with stirring into a suspension of sodium alginate in isopropanol in the presence of E472 as a surfactant, then a precipitant is added, and the precipitate is dried at room temperature, characterized in that as the active substance uses plant adaptogens: extracts of Eleutherococcus, or ginseng, or Schisandra chinensis, or Rhodiola rosea, or Aralia manchurian, in quality Ethyl acetate is used as a precipitant at an adaptogen: ethyl acetate ratio of 1: 1-10, and mixing is carried out at a speed of 1300 rpm.

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