RU2114625C1 - Method of biostimulating agent preparing - Google Patents

Abstract

FIELD: medicine, pharmaceutical technology. SUBSTANCE: invention relates to technology of drug preparing, in part, drugs based on mineral and vegetable substances. Minerals exhibiting ion-exchange and sorption property and dry vegetable raw and their combinations and mixtures taken at different ratio of components are ground and sown. The parent raw used: zeolites of clinoptilolite-heulandite composition and grain bran. Then stages of magnet removal of foreign inclusions, calcination, components dosing and mixing are carried out up to preparing the homogeneous mass. EFFECT: improved method of preparing. 12 cl

Description

 The invention relates to medicines, namely to medicines using natural plant and mineral substances.

 It is known to use various natural minerals as biostimulating additives in the diet of birds and higher animals (ed. St. USSR N 1666630, class A 23 K 1/16, 1991; USSR N 1635955, class A 21 K 1) 175, 1991) .

 It is also known to use zeolite-containing nature - shivirtuin, which has ion-exchange and sorption properties, as a food supplement that reduces the intake of cationic and anionic radioactive isotopes (RF patent N 2012340, class A 61 K 35/02, 1991). This additive is recommended for use in agricultural enterprises and on personal farms of collective farmers in areas contaminated and contaminated with radionuclides.

 In this case, finely ground (commercially available) shivyrtuin is added to the main diet of animals at the rate of 1% of the dry weight of the food. To feed cattle, pigs, sheep, the daily dose of shivyrtuin is mixed with wet food: silage, haylage. For birds, shivirtuin is introduced into the feed composition.

 The use of shivyrtuin as a dietary supplement in the feed of farm animals reduces the incidence, mortality of young animals, increases the gain, promotes the absorption of feed.

 In addition, it is proposed to use shivirtuin as a means for the prevention of radiation damage to the population.

 However, this technical solution does not solve the problem of creating a method for producing biostimulating agents based on natural minerals that fully implements their properties and capabilities, as biostimulants, of living organisms for use in therapeutic and prophylactic purposes.

 The basis of the invention is the creation of a method for producing biostimulating agents based on natural minerals with ion-exchange and sorption properties, for use in therapeutic and prophylactic purposes.

 The problem is solved due to the fact that in the method for producing biostimulating agents from a feedstock containing minerals having ion-exchange and sorption properties, including grinding of feedstock constituents, according to the invention, feedstock constituents are sieved, magnetically removed foreign matter is then calcined, and then dosed in accordance with the recipe and mixed until a homogeneous mass.

 In addition, the composition of the feedstock further includes dry plant material.

In addition, the homogeneous mass obtained after mixing is held for 12-24 hours, and then tabletted by direct compression at 120-150 ^° C, a pressing pressure of 60-100 MPa for 1 minute.

It is advisable to calcine the components of the feedstock for 30-60 minutes, plant materials at 130-150 ^o C, minerals at 200-300 ^o C.

 It is also advisable to grind the initial mineral raw materials to a thickness of not more than 0.1 mm.

 At the same time, cereal bran or oats, or reindeer moss, or bracken, or edible mushrooms are used as dry plant materials.

 Moreover, in one embodiment of the method, zeolites of clinoptilolite-heylandite composition, wheat bran and rye bran are used as constituents of the feedstock, with the following ratio of components in the final product, wt. %: zeolite 49 - 51; wheat bran 26 - 24; rye bran 19 - 21; water the rest.

 In addition, zeolites of clinoptilolite-heylandite composition, montmorillonites and oats are used as constituents of the feedstock, with the following ratio of components in the final product, wt.%: Zeolite 29 - 31; montmorillonite 31 - 29; oats 34 - 36; water the rest.

 In addition, zeolites of clinoptilolite-heylandite composition and monmorillonite are used as constituents of the feedstock, with the following ratio of components in the final product, wt.%: Zeolite 49 - 51; montmorillonite 46 - 44; water the rest.

 As components of the feedstock, clinoptilolite-heylandite zeolites are used, edibles and edible mushrooms, in the following ratio of components in the final product, wt.%: Zeolite 29 - 31; Opalite 56 - 54; edible mushrooms 9 - 11; water the rest.

 In addition, as components of the feedstock use zeolites clinoptilolite-heilandite composition and moss in the following ratio of components in the final product, wt.%: Zeolite 64 - 66; moss 31 - 29; water the rest.

 As components of the feedstock, hydromica and bracken are used, with the following ratio of components in the final product, wt. %: hydromica 69 - 71; bracken fern 26-24; water the rest.

 In addition, montmorillonite can be used as feedstock.

 The essence of the invention is to create a special technical process for producing bio-stimulating agents based on minerals with ion-exchange and sorption properties, their combinations and mixtures with certain types of plant materials.

 Thus obtained natural compositions containing a complex of various vital trace elements, when ingested, ensure the normal functioning and regulation of the basic functions of the body, such as immunity, metabolism, and digestion.

 Example 1. The specific implementation of the method will be considered on the example of obtaining a biostimulating agent using zeolites of clinoptilolite-heilandite composition and plant materials — bran bran, as the mineral raw material, in the following ratio of components in the final product, wt.%: Zeolite 50; wheat bran 25; rye bran 20; water the rest.

 The method is implemented in the following sequence of operations.

 The feedstock is subjected to crushing or grinding to a thickness of 0.05 mm. Carry out visual control of bran and minerals for foreign inclusions.

Then sieving of components (zeolites) is carried out through sieves with 0.05 x 0.05 mm cells and bran through sieves with 1 x 1 mm cells. Then, with the help of a permanent magnet, magnetic processing of the components is carried out - magnetic removal of any foreign impurities. After that, the components for their dehydration, gas purification and disinfection are calcined in an oven-thermostat for 60 minutes, zeolites at t = 230 - 260 ^o C, bran at t = 130 - 150 ^o C. The resulting components are dosed in accordance with the recipe and mixed in a special mixer until a homogeneous mass. The final product in the form of a powder before further packaging is subjected to additional sterilization for 30 minutes at t = 120 ^o C.

 To obtain the final product in the form of tablets carry out the following operations.

 The resulting dry, homogeneous mass in the form of a powder is held up to natural moisture saturation (5-8%) for 12-24 hours, periodically mixing.

Then, its pressing was carried out on standard equipment at 130-150 ^° C, pressure 60-60 MPa for 1 min. The implementation of the method upon receipt of the final product with the recipe according to other variants of the method is similar to that described above, only the composition of the dry components varies.

 Example 2. As components of the feedstock, a zeolite of clinoptilolite-heilandite composition and montmorillonite are used with a ratio of components providing the following composition of the final product, wt.%: Zeolite 50; montmorillonite 45; water the rest. The example is implemented in the conditions of example 1. The results of clinical trials of the products obtained in examples 1 and 2, are similar.

 Below are the results of clinical trials of a biostimulating agent based on zeolite and bran bran.

The objectives of the clinical trials were
the study of the therapeutic effectiveness of the composition in immunodeficiency states and allergic diseases;
study of patient tolerance of the composition;
study of the frequency of possible adverse reactions and complications in patients when taking the compositions.

 The beginning of clinical trials 03/21/1995; completion of clinical trials 03/01/1996.

 In the testing process, modern clinical and laboratory methods were used.

The main criterion for inclusion of patients in the group of subjects was the presence of a typical picture of the disease associated with immunopathology, in total 62 patients with the following diagnoses participated in clinical trials:
Pollinosis, rhinoconjunctival form - 8
Chronic relapsing urticaria - 12
Atonic Dermatitis - 14
Bronchial asthma, atopic variant - 12
True Eczema - 2
Allergic Rhinitis - 4
Structural immunodeficiency, infectious syndrome, damage to the ENT organs and bronchopulmonary system - 10
Sexual composition of patients - 39 women, 23 men.

 Age: from 17 to 62 years old.

 Duration of the disease: from 2 months to 30 years.

 In a specific allergological examination, cause-effect allergens (pollen, epidermal, domestic, food, mold, bacterial and pathogenic fungi) were identified in 74% of patients.

 Directions for use: the composition was prescribed in a dose of 1 teaspoon 1.5 to 2 hours after eating 3 times a day with a treatment course of 30 days; reception of the composition was carried out against the background of concomitant therapy, adequate to the nosological form of the disease.

The criteria for the effectiveness of the composition were
complete regression of signs of the disease;
partial regression of the disease;
relief of side effects of drugs etiopathogenetic therapy.

 The tolerance of the test composition was normal. Side effects and complications in the form of exacerbation of the underlying disease during the entire period of clinical trials were not observed, with the exception of one case in a patient with food and drug intolerance (allergic dermatitis, allergic pharyngolaryngitis). The patient has a history of intolerance to B vitamins, the clinical manifestations of which were different, including anaphylactoid states. It is likely that the aggravation of the process in this case could be associated with the consumption of wheat bran containing a relatively large amount of B vitamins in the composition.

The results of clinical trials allowed us to distinguish the following groups according to the clinical effects of the composition, people:
Clinical Recovery - 14
Significant improvement - 26
Improvement - 19
No effect - 2
Similar action - 2
Thus, according to the results of clinical trials, the following main conclusions can be drawn:
a biostimulating agent based on zeolite and bran bran is well tolerated and sufficiently effective in the complex treatment of patients with immunopathology;
the composition is simple and convenient to use, has no side effects associated directly with the features of its effect on the body.

 The use of other various combinations of the components of the feedstock expands the overall composition of trace elements, while due to their mutual influence, the manifestation of certain properties of the feedstock is enhanced. As a result, biostimulating preparations of a wide spectrum of action are obtained.

 The use of zeolite, montmarillonite in combination with oats provides a biostimulating agent that normalizes the liver.

 A biostimulating agent based on zeolite in combination with reindeer moss is effective for normalizing the tone of the vascular system, improves muscle tissue metabolism, normalizes energy processes, and disrupts the reproduction of viruses.

 As experimental studies have shown, combinations of zeolite, opalite and edible mushrooms (e.g. honey mushrooms) are effective in particular in acute chronic renal failure, carbon monoxide poisoning, with increased physical exertion, and with cardiac conduction disturbances in a number of other cases.

 Hydromica in combination with bracken, due to the unique properties of the latter, can be recommended as a means of neutralizing the adverse effects of carcinogens, radioactive substances, and biological poisons.

 Thus, the proposed method due to optimally selected processing modes of the feedstock and the ratios of the components used allows you to get a number of biostimulating drugs with a wide spectrum of action, effective in medical practice.

Claims (12)

 1. A method of obtaining a biostimulating agent from a feedstock containing a mineral having ion-exchange and sorption properties, including grinding the components of the feedstock, characterized in that after grinding the components of the feedstock are sieved, magnetically remove foreign matter, then calcined, then dosed and mixed until obtaining a homogeneous mass.  2. The method according to claim 1, characterized in that the composition of the feedstock further includes dry plant material. 3. The method according to PP.1 and 2, characterized in that after mixing the obtained homogeneous mass is kept for 12-24 hours, and then tabletted by direct compression at a temperature of 120-150 ^o C, pressure 60-100 MPa for 1 min . 4. The method according to PP.1 and 2, characterized in that the calcination of the components of the feedstock is carried out for 30-60 minutes, with minerals at a temperature of 200-300 ^o C, plant materials at a temperature of 130-150 ^o C.  5. The method according to claim 1, characterized in that the grinding of minerals is carried out to a particle size of not more than 0.1 mm  6. The method according to claim 2, characterized in that the cereal bran or oats, or reindeer moss, or bracken, or edible mushrooms are used as dry plant materials.  7. The method according to PP. 1 and 2, characterized in that the zeolites of clinoptilolite-heilandite composition, wheat bran and rye bran are used as constituents of the feedstock at a ratio of components that provides the following composition of the final product, wt.%: Zeolites - 49-51, wheat bran - 26- 24, rye bran - 19-21, water - the rest.  8. The method according to claims 1 and 2, characterized in that clinoptilolite-heylandite composition, montmorillonites, oats are used as components of the feedstock, with a ratio of components providing the following composition of the final product, wt.%: Zeolite - 29-31, montmorillonites - 31 -29, oats - 34-36, water - the rest.  9. The method according to PP. 1 and 2 characterized in that as components of the feedstock use zeolites, clinoptilolite-heilandite composition and montmorillonite with a ratio of components that provides the following composition of the final product, wt. %: zeolite - 49-51, montmorillonite - 46-44, water - the rest.  10. The method according to PP. 1 and 2, characterized in that as constituents of the feedstock, clinoptilolite-heilandite zeolites are used, edible and fungi are edible at a ratio of components that provides the following composition of the final product, wt.%: Zeolite - 29-31, opalite - 56-54, mushrooms edible - 9-11, water - the rest.  11. The method according to PP. 1 and 2, characterized in that the zeolites of clinoptilolite-heilandite composition and moss are used as components of the feedstock with a ratio of components that provides the following composition of the final product, wt.%: Zeolite - 64-66, moss - 31-29, water - the rest.  12. The method according to PP. 1 and 2, characterized in that hydromica and bracken are used as components of the feedstock with a ratio of components providing the following composition of the final product, wt.%: Hydromica - 69-71, bracken - 26-24, water - the rest.