EA020345B1 - Method for preparing biologically-active additive - Google Patents

Abstract

The invention relates to pharmacology and medicine. The invention is aimed at preparing calcium-containing product, well-assimilated by an organism with pleasant flavor and easily consumable. The essence of the invention is characterized by a method of preparing calcium-containing biologically-active additive by mixing calcium carbonate and magnesium with water and citric acid, wherein the water is pretreated by ultraviolet radiation with wave length from 0.27 to 0.4 mkm with simultaneous variation temperature from 0 to 100°C during 45 min and back from 100 to 0°C during 45 min, not allowing freezing and boiling of water, while mixing ingredients magnesium carbonate is further added, then the mixture is affected by ultraviolet radiation with wave length from 2 to 40 mkm, when the mixture is prepared it is cured at 10-25°C, wherein the mixture is affected sequentially by the ultraviolet radiation from at least three groups of radiators.

Description

The invention relates to the food industry and pharmaceutical production of biologically active additives (BAA), in particular calcium-containing, and can find application in clinical nutrition and in medicine.

As you know, calcium is one of the main elements of the human body. Calcium plays an important role in the formation of bone tissue and maintaining its normal structure and function. Along with special proteins, it provides firmness and elasticity of bone tissue.

It has been established that calcium ions take part in the excitation and contraction of muscle cells, regulation of the permeability of cell membranes, intercellular interactions, blood coagulation, secretion of hormones, mediators, enzymes, perform the function of a converter of signals entering the cell, participate in the regulation of intracellular metabolism, including energy.

Calcium deficiency is manifested in increased excitability of the nervous system, allergic reactions, convulsions, osteoporosis, in children - in the manifestations of rickets, stunted growth, frequent colds.

All this served as a theoretical foundation for the development and implementation in medical practice of calcium preparations based on its salts. Currently, in medical practice, such calcium salts as glycerophosphate, gluconate, carbonate, lactate, citrate, chloride, phosphate and many others are used.

Vitamin I, hydrochloric and citric acids, lactose, phosphorus, magnesium contribute to the absorption of calcium ions.

1P 8198803 describes a calcium-containing composition, including calcium, magnesium, citric and organic acids, with good solubility.

KI 2261024 discloses a liquid food product enriched with calcium and magnesium, containing an enriching amount of a calcium-magnesium lactate-citrate complex obtained by reacting an alkaline calcium source and an alkaline magnesium source with a mixture of citric and lactic acids.

However, such compounds have a bitter taste and are poorly absorbed by the body.

KI 2081844 describes a method of treating water with UV radiation. Advantage - disinfection and sterilization of water.

Ki 2083140 describes a method for treating a liquid (milk) with continuous infrared radiation in the spectral region with a wavelength of 1.5 μm. Such irradiation improves the quality of the processed product, allows you to maximize its nutritional and taste properties.

However, in the known methods only the bactericidal properties of ultraviolet and infrared radiation are used, while the problem of increasing the absorption of calcium by the body is not solved.

KI 2329669 describes a method for producing a complex additive based on finely divided chalk with the addition of sodium citrate as a dispersant, while the finely divided product is passed in a turbulent stream through an ultraviolet field with the addition of ethyl alcohol. The method allows to translate natural chalk into a biologically assimilable multicomponent system. However, this additive has a bitter taste, is poorly soluble in water and, in addition, contains ethyl alcohol.

The closest is a calcium-containing additive - calcium citrate 4-water, produced by the Ural Chemical Reagents Plant (TU 6-09-09263-85, h), which is a white crystalline powder obtained by mixing calcium carbonate CaCO ₃ with citric acid in a ratio of 1 :one. Citric acid is dissolved in distilled water at a concentration of 20-50 g per 1 liter and an equivalent amount of CaCO ₃ is added with constant stirring. The resulting solution of calcium citrate is dried to form a white powder, which can be compressed into tablets.

The disadvantage of this additive is that it is poorly soluble in water, it exfoliates quickly, in addition, the additive is difficult to swallow, has a bitter taste and an unpleasant odor. The disadvantage is that it is poorly absorbed by the body (no more than 30%).

The objective of the proposed invention is to obtain a calcium-containing product, well absorbed by the body, with a pleasant taste and easily consumed.

This problem is solved by the method of obtaining calcium-containing biologically active additives by mixing calcium carbonate (CaCO ₃ ) and magnesium (MdCO ₃ ) with water and citric acid, while the water is pre-treated with ultraviolet radiation with a wavelength of from 0.27 to 0.4 microns with simultaneous by changing the temperature from 0 to 100 ° C for 45 minutes and from 100 to 0 ° C for 45 minutes, preventing freezing and boiling of water, and when mixed, carbon dioxide is additionally added and the mixture is influenced by infrared radiation with a wavelength from 2 to 40 microns, after preparation, the mixture is kept at a temperature of from 10-50 ° C for at least 24 hours. In addition, according to the invention, the mixture is sequentially exposed to infrared radiation from at least three groups of emitters.

As a result of ultraviolet irradiation of water, firstly, the water used is disinfected, since microorganisms are microbiologically killed after ultraviolet irradiation

- 1,020,345 bytes, because lose their ability to reproduce. UV radiation penetrates through the cell wall of a microorganism transported by water and is absorbed by DNA, called the genetic chain of the microorganism, as a result of which the process of reproduction of the microorganism stops. Bactericidal UV radiation at these wavelengths causes dimerization of thymine in DNA molecules. The accumulation of such changes in the DNA of microorganisms leads to a slowdown in the rate of their reproduction and extinction.

In addition, when exposed to ultraviolet radiation in water, a photolysis reaction occurs with the formation of ozone, which partially decomposes into molecular and atomic oxygen, and partially reacts with calcium carbonate, providing additional dispersion of calcium carbonate particles, as well as uniform processing of each particle and its contact with activated system.

The simultaneous change in temperature during the treatment of water with ultraviolet radiation from 0 to 100 ° C for 45 min and from 100 to 0 ° C for 45 min allows the formed ozone molecules, as well as molecular and atomic oxygen to act on the changing crystal lattice, while increasing the electrokinetic potential, which leads to a change in the crystal lattice of calcium carbonate, thereby increasing the bioavailability and digestibility of calcium.

As a result of processing with infrared radiation, the water used to prepare dietary supplements provides a higher degree of hydration of dry matter particles (calcium carbonate, magnesium carbonate), increases the electrokinetic potential of their surface, optimizes the structure and properties of the formed surface hydrated layers to the surface charge of solid particles, and increases the degree of correspondence the topography of the active centers of the particle surface on the water structure, which ultimately increases the homogeneity of the solution, improves suction impermeability calcium and magnesium organism. At the same time, this treatment of water increases the concentration of hydrated ions in it, which provide energetically more reliable and stable associates with the participation of calcium hexa-aqua complexes, while reducing the bonds arising from the binding of calcium and magnesium molecules to each other, which improves the pharmacokinetics of the claimed drug.

In addition, the effect of infrared radiation on the drug allows it to be heated almost instantly over the entire thickness of the absorption layer, the energy retaining effect of the emitter arises, as a result of which, in addition to creating conditions for eliminating toxic and ballast microflora, changes in the physicochemical properties of the drug occur, which under the influence of infrared radiation, deformation of hydrogen bonds or redistribution of water molecules into temporary associative formations that contribute to cheniyu solubility and digestibility of calcium, the preparation becomes easily consumed having palatable. Better results are achieved by sequential exposure to multiple radiation sources. For example, exposure to three groups of emitters lasting from 25 to 45 minutes each.

The range of the spectrum of infrared radiation with a wavelength of 2 to 40 microns is optimal. The use of infrared radiation in the spectral region with a wavelength of less than 2 μm is inefficient, since a significant part of the spectrum is visible and entails a change in the physicochemical substance, and with an increase in the wavelength of more than 40 μm, it entails the possibility of boiling of the treated layer, its overheating which significantly reduces the quality of the drug.

Maintaining the prepared mixture at a temperature of 10 to 50 ° C for at least 24 hours is necessary to increase the formation of associates with the participation of calcium hexa-aqua complexes and cooling the mixture.

Thus, the special processing of dietary supplements in the process of its preparation by ultraviolet and infrared radiation increases consumer properties and digestibility by the human body.

The proposed method of preparing dietary supplements is as follows.

While stirring, the water is treated with ultraviolet radiation with a wavelength of 0.27 to 0.4 μm with a simultaneous change in temperature from 0 to 100 ° C for 45 minutes and from 100 to 0 ° C for 45 minutes, preventing freezing and boiling water. Then, citric acid, chemically pure calcium carbonate and magnesium carbonate are added to it and, during the mixing process, the mixture is exposed to infrared radiation.

For processing, a mercury-quartz lamp, for example DRT-2500, is used as a source of UV radiation. To treat the preparation with infrared radiation, ceramic infrared emitters are used.

Example 1. 1 liter of cold distilled water is irradiated with ultraviolet radiation using a DRT-2500 mercury-quartz lamp while heating from 0 to 100 ° C for 45 minutes, and then water cooling from 100 to 0 ° C for 45 minutes, not allowing freezing and boiling of water by constant stirring. Then, 30 g of purified (grade C) CaCO3, 0.3 MdCO ₃ and 30 g of citric acid are added to the treated water with constant stirring. In the process of preparation, the mixture is exposed to infrared radiation with a wavelength of from 2 to 40 microns.

Better results are achieved by sequential exposure to multiple radiation sources. For example, they are affected by three groups of emitters lasting from 25 to 45 minutes each

- 2,020,345 dai. The resulting mixture is aged at a temperature of from 10 to 50 ° C for 24 hours.

The resulting mixture is an aqueous homogeneous fine suspension, devoid of unpleasant taste and odor and with good consumer properties.

Example 2. The digestibility of an additive by the body was determined by the level of serum total calcium, magnesium and inorganic phosphorus, their excretion in urine per day and the content of calcium and magnesium in the bones (the main calcium depot in the body is bone tissue). For this, experimental animals were divided into four groups. The group of intact animals included rats not receiving any drugs. The control group included animals that were injected with prednisone for 20 days (prednisone impairs calcium absorption and is used to model experimental osteoporosis). Rats of the first experimental group on the background of the introduction of prednisone used the drug described in the closest analogue. Rats of the second experimental group on the background of the introduction of prednisolone used the additive obtained by the claimed method. The preparations were given at a dose of 0.15 g per 100 g of rat weight. The daily dose contained 0.035 g of Ca.

Methods of experimental research.

Calcium and phosphorus were determined spectrophotometrically using methods and reagent kits Calcium-Novo and Phosphorus-Novo (Novosibirsk), respectively. The measurements were carried out on an IU-1601 spectrophotometer (δΐιίιηηάζιτ). For measurements, quartz cuvettes 1 cm thick were used. Calcium was detected at a wavelength of 650 nm, phosphorus was determined at 340 nm.

For analysis of calcium and magnesium in the bones, dry burning was used. The amount of Ca ²⁺ and MD ² 'in the bones was determined by complexometric titration. Calcium content was determined by titration of ethylenediaminetetraacetic acid with indicator murexide at pH 12. The total calcium and magnesium content was determined by titrating a sample of ethylenediaminetetraacetic acid with indicator eriochrome black at pH 10. The magnesium content was determined by the difference between these titrations in milliequivalents per 100 g of dry matter.

Bone density was calculated as the ratio of bone mass (g) to the volume of a given bone (cm ³ ). Bone volume was determined by the pycnometric method according to the volume of displaced water.

Statistical data processing was carried out in the program Excel1 6.0.

The results of an experimental study.

In the control group of animals treated with glucocorticoids for 20 days, there was a significant decrease in the level of calcium in the blood serum with a simultaneous increase in the excretion of calcium with daily urine (Tables 1 and 2).

Table 1

The content of calcium and phosphorus (in mmol / l) in the blood serum of experimental animals

Group of animals Intact The control Experience 1 Experience 2 Calcium 2.55 ± 0.16 1.78 ± 0.16 ^th 2.45 ± 0.14 * 3.08 ± 0.17 * Phosphorus 2.43 ± 0.06 2.47 ± 0.08 2.15 ± 0.08 2.58 ± 0.08

Notes:

the difference with indicators of intact rats is significant, * the difference with indicators of control rats is significant.

table 2

The content of calcium and phosphorus (mmol / l) in the daily urine of animals

Group of animals | Intact The control Experience 1 Experience 2 | Calcium 2.12 3.0 2,8 ^1.3 Phosphorus 0.49 0.365 0.285 0.13 |

Table 3

The content of calcium and magnesium (meq. / 100 ml) in the femur of experimental animals

Group of animals Intact The control First group Second group Calcium 17.81 ± 1.74 17.16 ± 0.44 17.75 ± 1.07 20.3 ± 0.87 Magnesium 1.63 ± 0.26 1.83 ± 0.1 1.62 ± 0.24 2.4 ± 0.23

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Table 4 Indicators of bone density (g / cm ³ ) and bearing capacity of the femur (kg) in experimental animals

R group of animals Intact The control Experience 1 Experience 2 Bone density 1,236 ± 0,049 1,135 ± 0,074 1.237 ± 0.062 1.271 ± 0.013 Bone bearing capacity 16.33 ± 1.21 17.60 ± 2.00 15.13 ± 1.23 18.89 ± 1.15

Thus, a biologically active supplement is quickly and almost completely (up to 93%) absorbed by the body and in a short time replenishes calcium deficiency, normalizes osteosynthesis, exhibits antioxidant properties, participates in the synthesis with ATP, normalizes the permeability of membranes and blood vessels, improves immunity, and restores cholesterol and mineral metabolism.

Claims (2)

CLAIM 1. The method of obtaining calcium-containing biologically active additives by mixing calcium carbonate (CaCO ₃ ) and magnesium (MdSO ₃ ) with water and citric acid, characterized in that the water is pre-treated with ultraviolet radiation with a wavelength from 0.27 to 0.4 μm with by simultaneously changing the temperature from 0 to 100 ° C for 45 minutes and from 100 to 0 ° C for 45 minutes, preventing freezing and boiling of water, and when mixed, add magnesium carbonate and affect the mixture with infrared radiation with a wavelength of 2 up to 40 microns, p Food follows mixture is maintained at a temperature of 10-50 ° C for at least 24 hours. 2. The method according to claim 1, characterized in that the mixture is sequentially exposed to infrared radiation for at least three sessions with a duration of 25-45 minutes