RU2535569C1 - Sea-buckthorns seeds based biologically active additive production method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: sea-buckthorns seeds based biologically active additive production method envisages seeds sprouting in a wet condition at a temperature of 13-18°C during 12-14 days, drying till moisture content is equal to 14% and milling.

EFFECT: method simplification and cheapening, the additive biological value enhancement, expansion of the range of preventive purpose products and the ready product organoleptic characteristics improvement.

2 tbl, 3 ex

Description

The present invention relates to the food industry, in particular the production of dietary and preventive products, and can also be used in the perfumery and cosmetics industry.

A known method of obtaining a biologically active additive, providing for the drying of ginseng root to a moisture content of not more than 13% and its three-stage grinding to a particle size of 0.6-25.0 microns (see RU No. 2063151, A23L 1/29, 07/10/96).

A known method of obtaining a biologically active food additive, including grinding vegetable raw materials, drying to a moisture content of not more than 10%, cooling, grinding to sizes of 50-600 microns (see RU No. 2110194, A23L 1/29, 1/30, A61K 35/78 , 05/10/98). In the range of traditionally used vegetables, berries and fruits, the roots and rhizomes of herbs and shrubs, the bark of trees and shrubs are used as plant materials.

A known method of producing a biologically active additive, in which freshly prepared raw materials are pre-treated with an inert liquefied gas for 30-60 minutes, why they are dried by vacuum sublimation to a residual moisture content of 1-8% (see RU No. 2167665, A61K 35/78, 05.27.01 )

A disadvantage of the known methods is the use of expensive and / or rare plant materials, for example ginseng, or rhizomes of herbs, or bark of shrubs, or raw materials that can be consumed by a person in kind, for example vegetables and fruits.

A known method of obtaining a biologically active food additive, comprising mixing the base and cryopowder from plant and / or mineral raw materials used to improve the properties of the food module (see RU No. 2144847, A23L 1/30, 01/20/99). The ability of finely dispersed powders to structure the product, to act as disintegrants, absorbers of excess moisture, as well as dyes, sweeteners, antioxidants, etc. is used. This food supplement is prepared practically on the basis of food production wastes, such as shells of seeds of various plants. A nutritional supplement may include cryopowders of cereals, seaweeds, crustacean shells, vegetable greens, eggshells, walnutshells, apricot and almond kernels, pumpkin seeds shells.

The processed products of plant materials in the form of fine powders are often used as a component in the products of the perfumery and cosmetics industry. So, there is a known method for producing a biologically active additive (see RU No. 2163814, A61K 35/00, 10.04.2000), which provides for the grinding and drying of plant and mineral raw materials, loading of raw materials into a reactor with a refrigerant, grinding, packaging. The obtained biologically active additive can be used to prepare various skin creams, shaving products, toothpastes, suppositories, ointments.

In known methods for the manufacture of dehydrated food products, including in the form of powders, such techniques as raising and subsequent lowering the temperature and lowering the pressure are traditionally used. Reducing the temperature is often carried out simultaneously with the grinding of raw materials, because when frozen, the particles of the raw materials become more fragile, and the powder becomes finer, which leads to a densification of the structure, its clumping, which negatively affects the restoration of the structure of the product.

The closest in technical essence to the present invention is a method for producing a food product from sea buckthorn seeds, which involves grinding sea buckthorn seeds, separating the kernels from the shell, mixing the shells with malt and fermenting with barley malt at a temperature of 45-50 ° C for 30-45 min. Then the mixture is dried at a temperature of 90-100 ° C to inactivate the enzymes to a moisture content of 14 ° C (see RU No. 2245077, A23L 1/30, 01/27/2005).

The disadvantage of this method is that the seeds of sea buckthorn are fermented with barley malt, which is introduced as an additional component, which leads to some appreciation of the product. Moreover, the resulting product does not have a sufficiently high biological activity.

The technical result of the invention is the simplification and cheapening of the method, increasing the biological value of the additive, expanding the range of prophylactic products, improving the organoleptic characteristics of the finished product.

The specified technical result is achieved in that the method of producing a biologically active additive based on sea buckthorn seeds is characterized in that the seeds are germinated in a wet state at a temperature of 13-18 ° C for 12-14 days, dried to a moisture content of 14% and ground.

Salient features of the invention are the new conditions for treating sea buckthorn seeds, namely germination of seeds in a wet state at a temperature of 13-18 ° C, for 12-14 days, drying to a moisture content of 14%.

It is known that sprouted grain contains a complex of enzymes: proteolytic, amylolytic, cellulolytic, pectolytic and others. In the process of germination of grain, enzymes pass from an inactive state to an active one. When conducting experimental studies, it was found that the biologically active additive obtained by the claimed method contains lipids 15.8%, flavonoids 3.28%, tocopherols 88.01 mg%, carotenoids 4.11 mg%, ascorbic acid 9.84 mg%, thiamine 1.01 mg%, riboflavin 0.25 mg%.

New in the developed method is that the raw material is fermented by its own enzymes at an optimum temperature of 13-18 ° C and with a duration of 12-14 days.

When germinating in a wet state, the sea buckthorn seed begins to hatch the root, the length of which gradually increases. At the same time, the germinal leaf grows, which is invisible in the first days of germination, since it is under the chaff shell. Along with such changes, cytological changes also occur - a violation of the cellular structure or dissolution of the endosperm. The walls of endosperm cells, consisting mainly of polysaccharides of the second order and proteins, are hydrolyzed by the action of enzymes formed during germination (cytolytic, proteolytic, pectolytic), which leads to the destruction of cell walls, i.e. they dissolve or loosen. As a result, the endosperm becomes friable-soft and easily rubbed between the fingers.

A significant part of the enzymes in the seed is in an inactive state, and in the process of germination they turn into a free, active state, as well as new ones are synthesized. Therefore, in the germinating seed, the accumulation of enzymes and an increase in their activity occurs. A significant increase in the activity of enzymes in the germinating seed causes a change in its chemical composition. There is an increase in the content of mono- and oligosaccharides, amino acids, polyphenolic compounds, organic acids and a decrease in the content of high molecular weight compounds, nitrogenous substances, lipids, phosphates, etc.

The exceptional value of the seeds of sea buckthorn sprouted by the claimed method lies in the fact that the seedlings possess all the suitable biological properties of a holistic living organism. Dry seeds, at rest, contain substances necessary for the growth of the future plant. Germination is the transition of a seed from a dormant state to the growth of an embryo. During germination, the enzymes in the seeds break down complex proteins, fats and carbohydrates into simpler substances that are necessary for the growth of the future plant. And therefore, when using germinating grains for food, the human body receives and assimilates substances already processed by enzymes. Germinated seeds have enormous energy potential, contain all the necessary vital components and are equipped with a system that facilitates their absorption. It is this unique combination of them that determines their powerful healing effect on the human body.

The optimum germination temperature of sea buckthorn seeds has been established experimentally and is 13-18 ° C. It is in this temperature range that high extractivity, amylolytic and proteolytic activity of enzymes, a deeper breakdown of proteins, and a decrease in the loss of dry matter are ensured. At temperatures below 13 ° C and above 18 ° C, seed activity ceases.

Germination duration is 12-14 days, since it is in this range that the optimal sprout length is achieved. Over 14 days, all spare substances are spent on sprout growth. With a germination duration of less than 12 days in the seed, a sufficient breakdown of carbohydrates does not occur (see Table 1).

Table 1 Germination time, day "Crude" fiber,% of the product The degree of hydrolysis,% 0 18,4 0 3 17.25 6.2 6 15.4 16.3 9 13.96 24.1 12 13.76 25,2

continuation of table 1 fourteen 13.73 25.3 fifteen 13.72 25,4

The study of the microstructure of sea buckthorn seeds using a JSM - 6510LVJEOL scanning electron microscope with INCA microanalysis system showed that the enzymatic processes occurring during germination lead to cytological changes, cell structure disruption, and partial dissolution of the endosperm. As a result, the endosperm becomes friable-soft and easily rubbed between the fingers.

When studying the microstructure of sea buckthorn seeds after germination, a decrease in the characteristic continuous continuous phase of the cellulose shell of sea buckthorn seeds due to enzymatic destruction by an average of 28.9% was revealed.

Seed drying is carried out to a moisture content of 14%, at which the enzymatic processes cease.

The products of enzymatic decomposition of proteins and carbohydrates accumulated in seeds under the influence of a high drying temperature of 75-100 ° C interact with each other with the formation of melanoids, which have a characteristic color, taste and smell. The combined effect of melanoid and odor, characteristic of sea buckthorn raw materials, gives the finished product a pleasant fruity aroma.

Obtained by the claimed method, a biologically active additive (BAA) has increased biological value compared to the prototype (see table 2).

table 2 Indicators Dietary supplement of the prototype Dietary supplement of the invention Moisture 14.0 14.0 Squirrels 25.0 24.1

continuation of table 2 Lipids 16,4 15.8 Carbohydrates 4.1 29.22 Minerals 2.7 4.3 Vitamin E 36.0 88.01 Vitamin B ₁ 0.39 1.01 Vitamin C 6.8 9.8 Caratinoids not installed 4.11 Flavonoids not installed 3.28

In addition, the biologically active additive obtained by the claimed method has improved organoleptic characteristics: the structure of the obtained additive became softer and acquired a rich fruity aroma.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype as the closest in terms of the totality of the features of the analogue made it possible to establish a set of essential distinguishing features set forth in the claims in relation to the technical result perceived by the applicant. Thus, it is the claimed combination of distinguishing features of the invention: germination of seeds in a wet state at a temperature of 13-18 ° C for 12-14 knots, during which the seeds are fermented with their own enzymes, contributed to the achievement of the technical result, which consists not only in preservation, but and improving the biological value of the resulting food product, simplifying and cheapening the method, improving the organoleptic characteristics of the finished product, expanding the range of products ilakticheskogo direction.

Obtained by the claimed method, a biologically active additive with the above content of lipids, flavonoids, tocopherols, carotenoids, ascorbic acid thiamine, riboflavin allows you to expand the range of foods with improved consumer characteristics.

A dietary supplement containing only the powder of germinated sea buckthorn seeds has high nutritional and therapeutic value, since it can be used without additional ingredients when a wide spectrum of biological activity is revealed.

The presence of a complex of lipids, tocopherols, bioflavonoids, and ascorbic acid in the biologically active additive obtained by the claimed method allows it to be used as a promising antioxidant in the manufacture of therapeutic, perfumery and cosmetic products, as well as in the preparation of animal and bird food.

The high content of the polysaccharide fraction allows us to recommend the obtained biologically active additive as a source of food windowsill to normalize digestion. A decrease in the number of polymers with a simultaneous increase in the degree of hydrolysis of soluble products with a lower molecular weight, with some of the polymers changing only structurally, positively affects the degree of assimilation of the product. The tannins contained in it contribute to improving the functioning of the gastrointestinal tract, and also have pronounced anti-inflammatory, analgesic, and hemostatic properties. A balanced lipid fraction also improves the functioning of the gastrointestinal tract. In the obtained biologically active additive, the content of protein and bioflavonoids is increased. Bioflavonoids exhibit antioxidant activity and are direct antihypoxants, while they have a wide range of useful pharmacological properties, including membrane-stabilizing, immunomodulating, anti-inflammatory, capillary-strengthening, wound healing effects. They are characterized by a combination of high biological activity and low toxicity (15-17 units). In the biologically active additive according to the invention, the content of certain essential mineral substances is also increased. Regular use of this supplement in recommended doses will make it possible to fill up to 1/4 of the average daily requirement for copper and 1/3 of the daily requirement for iron, which confirms the advisability of using the supplement for anemia. When using a biologically active supplement, you can fill in 1/2 the daily requirement for manganese, necessary, for example, to ensure the process of splitting arginine to urea - the final product of nitrogen metabolism, as well as for the flow of vital functions for the regulation of the body (cell proliferation, muscle contraction, metabolic cascades, immune responses, etc.). The dietary supplement also contains significant amounts of silicon, zinc, and nickel. The inventive method is as follows. Seabuckthorn seeds are germinated in the wet state at a temperature of 13-18 ° C for 12-14 days, dried to a moisture content of 14% and ground.

Example 1. Seeds of sea buckthorn are germinated in the wet state at a temperature of 13 ° C for 14 days. Dried at a temperature of 75 ° C to a moisture content of 14%. Grinding is carried out using a hammer mill to a particle size of 100 microns.

Example 2. Seeds of sea buckthorn are germinated in the wet state at a temperature of 15 ° C for 13 days. Dried at room temperature to a moisture content of 14%. Grinding is carried out using a hammer mill to a particle size of 500 microns.

Example 3. Seeds germinate in the wet state at a temperature of 18 ° C for 12 days. Dried at a temperature of 100 ° C to a moisture content of 14%. Grinding is carried out using a hammer mill to a particle size of 1200 microns.

Claims (1)

A method of obtaining a dietary supplement based on sea buckthorn seeds, characterized in that the seeds are germinated in a wet state at a temperature of 13-18 ° C for 12-14 days, dried to a moisture content of 14% and ground.