RU2127067C1 - Biologically active addition "gs" - Google Patents

Abstract

FIELD: food, agriculture and medicinal industries. SUBSTANCE: biologically active addition has dissociable organic salts of lithium, iron, zinc and magnesium at cation ratio Li : Fe : Zn : Mg = (0.5-28) : (0.1-28.4) : (0.1-17.1) : (0.1-7.5) being anions in these organic salts are biologically active. Addition can contain additionally salts of manganese, and/or nickel, and/or cobalt, and/or potassium, and/or copper, and/or boron, and/or molybdenum, and/or vanadium, and/or fluorine at the definite amounts. Obtained biologically active addition improves process of microcirculation, enhances function of capillary alveus, decreases autoimmunoaggresion, enhances tissue resistance to effect of ionizing radiations, increases mental and physical working capacity and can be used as a prophylaxis agent in patients with sclerosis. Also, this addition can be used for production of perfume-cosmetic agents. EFFECT: enhanced effectiveness of an addition. 8 cl, 9 ex

Description

 The invention relates to the food industry, namely to biologically active additives of general strengthening action, and can be used for rational and therapeutic nutrition in various extreme conditions and in pathological conditions associated with the insufficiency of irreplaceable vital trace elements, and can also be used in agricultural industry in the production of fertilizers and animal feed, in perfumes and cosmetics, in the production of toothpastes and shampoos.

 In the modern world, the food industry produces a huge amount of food products that are not complete in a balanced composition of essential trace elements (concentrates, canned, sublimated and / or refined products, technologically processed meat and dairy, bakery, confectionery, vegetables, fruits and other products). Therefore, the inclusion of missing micronutrients in the diet is extremely important for the normal growth and development of children and adolescents, the prevention of diseases and the improvement of the working capacity of adults, and the prevention of premature aging and mortality.

Currently, a number of both biologically active additives (BAA) and medical preparations are aimed at solving the microelementosis problem. (GB, A, 2113064, A 23 L 1/30, 1983; US, Patent No. 158024, A 61 K 33/14, 1993; EPB ₁ , 217975, A 61 K 33/00, 1991).

 However, many of the dietary supplements are poorly balanced in minerals, some lack vital micronutrients, and medications have a strictly constant concentration of micronutrients, which does not allow varying the concentration of micronutrients depending on the products with which it is taken, as well as on the area and living conditions, for example, in some areas, drinking water contains high levels of fluoride.

 The closest technical solution is an additive to food products containing dissociable organic salts of sodium, potassium, calcium and magnesium, which are optimized for cationic composition (DE, B2, 2060601, A 23 L 1 / 30.1980).

 This supplement lacks vital trace elements, which significantly narrows the scope of its use for the prevention of various diseases, as well as for microelements.

 The technical result of the claimed invention is to obtain a highly effective biologically active additives, which improves microcirculation processes, including increases the functionality of the capillary bed, reduces autoimmune aggression, has an antiemetic effect, increases tissue resistance to ionizing radiation, increases mental and physical performance, can be used in as a prophylactic for sclerosis, and can also expand the range of biologically ki active additives.

 This is achieved due to the fact that the biologically active additive additionally contains dissociable organic salts of lithium, iron, zinc in the ratio of Li: Fe: Zn: Mg cations (0.5-28) :( 0.1-28.4) :( 0.1-17.1): (0.1-7.5), the anions in the dissociable organic salts being biologically active. The additive may additionally contain dissociable organic salts of manganese in an amount of 0.1-6 wt.% And / or nickel in an amount of 0.1-2.4 wt.%, And / or cobalt in an amount of 0.1-1 wt.% food weight of dietary supplement, as well as potassium salts in an amount of 0.5-5.6 wt.%, and / or copper in an amount of 0.1-5.1 wt. %, and / or boron in an amount of 0.1-2.4 wt.%, and / or molybdenum in an amount of 0.1-3.1 wt.%, and / or vanadium in an amount of 0.1-2.4 wt. .% to the total mass of dietary supplements, and the anions in the salts are biologically active. BAA may also additionally contain fluorine salts in an amount of 0.1-1.87 wt.% To the total weight of BAA.

 Depending on the field of application of the additive, it is possible to choose the optimal composition of the components, as well as balance their quantitative ratio. This greatly expands not only the scope of its application, but also allows it to be widely used in the production of food products, perfumes and cosmetics, etc., taking into account territorial, individual characteristics, as well as taking into account your own set and concentration of trace elements contained in food products.

 Citrates, gluconates, acetates, etc. can be used as biologically active anions in dissociable organic salts, and chlorides, sulfates, trioxides, fluorides, etc. can be used as anions in inorganic salts.

 Currently, there are many different dietary supplements, which mainly consist of individual trace elements, however, as our analysis showed, these additives either have a narrow range of actions or have limitations (for example, Drops Beresh Plus cannot be added to apple juice , since it contains a lot of iron, and with the dietary supplement, an excess amount of iron will begin to flow, which can lead to the development of hemosiderosis or hemochromatosis in case of stomach disease) and has a low active dose in therapeutic and prophylactic style.

 Therefore, the invention is aimed at eliminating the above disadvantages of known dietary supplements, and also we were able to obtain lower concentrations of more pronounced actions, which significantly reduces the likelihood of adverse side effects and increases the safety of its use.

 We were able experimentally to optimally balance the composition of the biologically active additives, as well as the ratio of trace elements in salts, taking into account the fact that they are connected not only by covalent bonds with anions, but also are in complex relationships with each other on the molecular, intracellular, intercellular, tissue, organ , systemic and organismic levels. And also taking into account the fact that in our BAA-GS, due to the complex interaction of cations and biologically active anions, which act as energy-carrying substrates, potentiation and prolongation of effects that are already known when using these cations occurs. Along with this, the viability of body tissues increases under conditions of oxygen deficiency of various origins and deficiency of phosphate macroergs (the so-called "energy crisis"). Against this background, the metabolic pathways of oxygen-free energy production are activated and optimized, the development of lactic acidosis and lipid peroxidation are prevented. All this significantly slows down, primarily in the nervous tissue and myocardium, the onset of the development of irreversible changes: sclerotic, aging, destruction and dying processes. In addition, the proposed food supplement significantly increases mental and physical performance in patients and especially in healthy people, not so much in normal as in extreme situations: extreme physical exertion, temperature and atmospheric pressure drops, weightlessness, environmentally unfavorable conditions, etc.

 Our experimental and clinical studies have confirmed that the simultaneous presence of dissociable organic salts of Li, Fe, Zn and Mg in the indicated ratio is necessary, and with the exclusion of at least one of the components, our result cannot be achieved. It should be noted that not one of the cations or anions possesses such biological activity as dietary supplements.

 BAA-GS has a changing quantitative spectrum of salts of trace elements, which allows you to adequately increase or decrease their concentration to compensate for mineral deficiency in various food groups. At the same time, the complex interaction of the trace elements themselves and biologically active acid residues allows us to increase, summarize and / or potentiate their biological value, absorption and digestibility.

 BAA-GS belongs to the group of practically harmless formulations and can be used orally for a long time at the indicated doses, i.e. not exceeding the physiological needs of the body in their constituent microelements and organic compounds.

 Such universality of the additive and its high therapeutic and prophylactic properties allow it to be used in the food industry, for example, in the production of bakery and confectionery products, alcoholic and non-alcoholic drinks, as well as mineral waters and juices, meat and dairy products, dietary salt, in the medical industry, agricultural, in the production of micronutrient fertilizers and feed for animals and fish, as well as in the perfumery and cosmetics industry, in the production of various creams, toothpastes, shampoos, elixis moat for rinsing the mouth, lotions, toilet water, etc.

 The main marker should be considered lithium cation.

 Dietary supplement is prepared as follows.

Lithium citrate, iron gluconate, zinc citrate, magnesium citrate are mixed in the ratio of cations (0.5-28) :( 0.1-28.4) :( 0.1-17.1) :( 0.1-7-7 ,5). The resulting mixture is well mixed, packaged and stored without water and air at a temperature of 5-10 ^o C. The resulting dietary supplement is added in a certain proportion to food or other products.

 Example 1

 For the preparation of drinking table water, a biologically active additive is prepared by mixing lithium citrate, iron gluconate, zinc citrate and magnesium citrate in a ratio of 28: 28.4: 17.1: 7.5 cations. Potassium chloride 5.6 wt. %, copper sulfate 5.1 wt.%, manganese acetate 6 wt.%, nickel acetate 2.4 wt. %, boron trioxide 2.4 wt.%, cobalt acetate 1 wt.%, molybdenum chloride 3.1 wt.%, sodium fluoride (conc. in fluorine) 1.87 wt.% of the total mass of cations.

 The resulting additive is introduced into the main composition of the recipe components of drinking table water.

 Example 2

 To prepare a tonic drink, a dietary supplement is prepared by mixing lithium citrate, iron gluconate, zinc citrate and magnesium citrate in a ratio of cations of 28: 28.4: 13: 7.5. Potassium chloride 0.5 wt. %, nickel acetate 2.4 wt.%, boron trioxide 2.4 wt.%, cobalt acetate 1 wt. %, molybdenum chloride 3.1 wt.%, vanadium chloride 2.4 wt.%, sodium fluoride (conc. by fluorine) 1.87 wt.% of the total mass of cations.

 The resulting additive is introduced into the main composition of the prescription components of the tonic drink.

 Example 3

 In the production of grape and / or apple juices, a dietary supplement containing lithium citrate, iron gluconate, zinc citrate, magnesium citrate is added to the juice in a ratio of cations of 25: 0.1: 17.1: 7.5. Potassium chloride 0.5 wt.%, Copper sulfate 5.1 wt. %, manganese acetate 6 wt.%, nickel acetate 2.4 wt.%, boron trioxide 2.4 wt.%, cobalt acetate 1 wt.% of the total weight of dietary supplements by cations.

 Example 4

 Dairy products (cottage cheese, sour cream, butter, etc.). A milk supplement is added with the following composition: lithium citrate, iron gluconate, zinc citrate, magnesium citrate in a ratio of 28: 28.4: 13: 7.5. Potassium chloride 5.6 wt. %, manganese acetate 6 wt.%, molybdenum chloride 3.1 wt.%, sodium fluoride (conc. by fluorine) 0.1 wt.% of the total mass of cations.

 Example 5

 In the production of wine and vodka products. To the basic recipe of a wine-vodka product, a food additive of the following composition according to cations is added: lithium citrate, iron gluconate, zinc citrate, magnesium citrate in a ratio of 28: 28.4: 17.1: 7.5. Potassium chloride 5.6 wt.%, Copper sulfate 5.1 wt.%, Manganese acetate 6 wt.%, Nickel acetate 2.4 wt.%, Cobalt acetate 1 wt.%, Molybdenum chloride 3.1 wt.% From total mass of cations.

 Example 6

 Minced meat for the production of various products (sausage, sausages, sausages, dumplings, etc.). To minced meat, a food supplement of the following composition is added: lithium citrate, iron gluconate, zinc citrate, magnesium citrate in a ratio of 28: 0.1: 0.1: 0.1. Potassium chloride 4.9 wt.%, Copper sulfate 0.5 wt.%, Manganese acetate 4, 3 wt.%, Vanadium chloride 1.9 wt.% Of the total cationic mass.

 Example 7

 Feed for livestock, poultry and fish. To the main feed formulation, a food supplement of the following composition is added: lithium citrate, iron gluconate, zinc citrate, magnesium citrate in a ratio of 20: 23: 15: 5. Potassium chloride 5.1 wt.%, Copper sulfate 3.5 wt.%, Manganese acetate 0.5 wt.%, Nickel acetate 1.5 wt.%, Boron trioxide 1.5 wt.%, Cobalt acetate 0.5 wt.%, molybdenum chloride 1.9 wt.%, vanadium chloride 1.2 wt.%, sodium fluoride (conc. fluoride) 1.4 wt.% of the total mass of the cation.

 Example 8

 Nutritious creams, toothpastes. To the basic formulation of the cream and / or toothpaste add a food supplement of the following composition: lithium citrate, iron gluconate, zinc citrate, magnesium citrate in a ratio of 26: 0.1: 0.1: 6, potassium chloride 5.5 wt. %, manganese acetate 5.8 wt.%, cobalt acetate 0.8 wt.%, molybdenum chloride 2.1 wt.%, vanadium chloride 2.4 wt.%, sodium fluoride (end fluoride) 1.5 wt. .% of the total mass of the cation.

 Example 9

 Shampoos The basic composition of shampoos is supplemented with a food supplement of the following composition: lithium citrate, iron gluconate, zinc citrate, magnesium citrate in a ratio of 27: 0.1: 16: 6, potassium chloride 4.9 wt.%, Copper sulfate 3.8 wt.% manganese acetate 4.8 wt.%, nickel acetate 1.5 wt.%, cobalt acetate 0.6 wt. %, molybdenum chloride 2.5 wt. %, vanadium chloride 1.3 wt.%, sodium fluoride (conc. by fluorine) 0.1 wt.% of the total mass of the cation.

Claims (8)

 1. A biologically active additive containing dissociable organic salts of magnesium, characterized in that it further comprises dissociable organic salts of lithium, iron, zinc in relation to (according to cations) Li: Fe: Zn: Mg: (0.5 - 28): (0 , 1 -28.4): (0.1 - 17.1): (0.1 - 7.5), and the anions in dissociable organic salts are biologically active.  2. The additive according to claim 1, characterized in that it further comprises dissociable salts of manganese in an amount of 0.1 to 6 wt.%, And / or nickel in an amount of 0.1 to 2.4 wt.%, And / or cobalt in the amount of 0.1 to 1 wt.% to the total weight.  3. The additive according to claim 1 or 2, characterized in that it further comprises potassium salts in an amount of 0.5 to 5.6 wt.%, And / or copper in an amount of 0.1 to 5.1 wt. %, and / or boron in an amount of 0.1 to 2.4 wt.%, and / or vanadium in an amount of 0.1 to 2.4 wt.% to the total mass, and the anions in salts are biologically active.  4. The additive according to any one of claims 1 to 3, characterized in that it further comprises fluorine salts in an amount of 0.1 - 1.87 wt.% To the total weight.  5. The additive according to any one of claims 1 to 4, characterized in that when used for food production, the ratio of Li: Fe: Zn: Mg cations in dissociable organic salts is (9 - 28): (0.1 - 28, 4): (0.1 - 17.1): (0.1 - 7.5).  6. The additive according to any one of claims 1 to 4, characterized in that when used for the production of perfumes and cosmetics, the ratio of Li: Fe: Zn: Mg cations in dissociated organic salts is (18 - 28): (0.1 - 23.1): (0.1 - 17.1): (4.6 - 7.5).  7. The additive according to any one of claims 1 to 4, characterized in that when used for the production of feed for livestock, poultry and fish, the ratio of Li: Fe: Zn: Mg cations in dissociated organic salts is (16 - 28): (11 26 - 28.4): (9.6 - 17.1): (2.56 - 7.3).  8. The additive according to any one of claims 1 to 4, characterized in that, when used for the production of micronutrient fertilizers, the ratio of Li: Fe: Zn: Mg cations in dissociable organic salts is (23 - 28): (11.65 -25.6 ): (12.8 - 17.1): (5.76 - 7.5).