RU2146483C1 - Method for production of adaptive composition - Google Patents

Abstract

FIELD: food industry. SUBSTANCE: sublimation-drying fruit juice is mixed under elevated pressure with glucose, potassium chloride, potassium ferrocyanide, pectin, and CO₂-extract of biomass of Mortierella exigua microorganisms in the form of carbon dioxide solution. Pressure is then reduced to atmospheric value to remove carbon dioxide from product. EFFECT: prolonged adaptive effect.

Description

 The invention relates to a technology for the production of a nutritional composition for adaptation of an organism in a stressful situation caused by prolonged hermetic isolation of the body from the external environment, in particular during prolonged work in personal protective equipment in the foci of chemical and / or radioactive and / or biological infection.

A known method for the production of adaptogenic composition, comprising mixing at a pressure above atmospheric fruit juice freeze-drying, glucose, potassium chloride, potassium serocyanide, pectin and CO ₂ -extract biomass of microorganisms of the species Choanephora trispora in the form of a solution in carbon dioxide, followed by pressure relief to atmospheric to remove carbon dioxide from the mixture (RU, patent 2099980, CL A 23 L 1/304, 1997).

 The disadvantage of this method is to obtain a composition with a short validity period.

 The technical result of the invention is to increase the period of adaptogenic action of the composition.

This result is achieved by the fact that in a method for producing an adaptogenic composition, which involves mixing at a pressure above atmospheric fruit juice freeze-drying, glucose, potassium chloride, potassium serocyanide, pectin and CO ₂ -extract of biomass of microorganisms in the form of a solution in carbon dioxide, followed by discharge pressure to atmospheric to remove carbon dioxide from the mixture, according to the invention, microorganisms of the species Mortierella exigua are used, and the CO ₂ extract is introduced in an amount of 10 ^-6 -10 ^-8 % by weight, based on the content e arachidonic acid.

 This allows you to get a nutritional composition with prolonged adaptogenic properties.

 The method is implemented as follows.

The biomass of microorganisms of the species Mortierella exigua is extracted with liquid carbon dioxide, for example, at a pressure of 6.4 MPa and a temperature of 20 ^o C, and the miscella is drained without pressure relief. Then, the bulk components of the mixture are loaded into the mixer: freeze-dried fruit and berry juice, for example plum-grape, glucose, potassium chloride, potassium serocyanide and pectin, for example, in a weight ratio of 432: 486: 4: 10: 43, the mixer is sealed and the resulting miscella in an amount of 10 ^-6 -10 ^-8 % by weight, calculated on the content of arachidonic acid. When extracting biomass, the content of arachidonic acid in the extract is about 37%, and the yield of the extract is about 14% of the amount of biomass. Then carry out the mixing of the components and depressurization to atmospheric. As a result, liquid carbon dioxide evaporates, and the CO ₂ biomass extract is evenly distributed over the bulk components of the mixture, none of which are soluble in liquid carbon dioxide. At the same time, due to a sharp decrease in pressure, complete destruction of the microflora in the mixture occurs. The mixture thus obtained is Packed in a sealed package of a combined material containing a layer of metal foil, under vacuum and stored until use. The shelf life of the mixture without changing consumer properties is at least 2 years. Before use, the mixture is diluted with boiled or disinfected water. The reconstituted mixture is an opaque liquid that does not contain a solid phase, which is suitable for use through the gas intake system of gas masks. The organoleptic properties of the mixture are completely determined by the freeze-dried fruit and berry juice introduced into its composition.

 The proposed mixture differs from the closest analogue in terms of its effect on the human body by pronounced F-vitamin activity and stimulation of the body’s natural immune systems, including those associated with adaptation under conditions of hermetic isolation of the body from the external environment, uncomfortable temperature and humidity conditions, lack of oxygen, and stressful physical and mental stress. At the same time, the adaptogenic properties of the mixture in terms of stimulating the immune systems and increasing endurance remain for about a month after taking the mixture. It also noted a reduction in the recovery time of the body after stress relief by an average of 1.5 - 2 times compared with the intake in a stressful situation of the nutritional composition of the closest analogue.

 Experiments conducted on outbred gray rats males showed that the proposed nutritional composition, introduced together with the daily intake of fluid, can increase the body's radiation resistance and accelerate the removal of radionuclides from the body compared to the closest analogue. Thus, rat mortality at low and medium radiation doses decreased on average by 10 - 15%, at high radiation doses by 5 - 8%. The resulting effect was maintained with a gradual decrease in indicators within 1 - 1.5 months from the date of completion of the intake of the nutritional composition.

 Thus, the proposed method allows to obtain a nutritional composition for adaptation of the body in stress citation with prolonged action.

Claims (1)

A method for the production of an adaptogenic composition, which involves mixing at a pressure above atmospheric fruit juice of freeze-drying, glucose, potassium chloride, potassium serocyanide, pectin and CO ₂ -extract of biomass of microorganisms in the form of a solution in carbon dioxide, followed by pressure relief to atmospheric to remove carbon dioxide from a mixture, characterized in that microorganisms of the species Mortierella exigua are used, and the CO ₂ extract is introduced in an amount of 10 ^-6 - 10 ^-8 % by weight, based on the content of arachidonic acid.