RU2545711C1 - Enterosorbent and method of its obtaining - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: method includes milling glauconite with the content of rock from 20 to 95%, selection of a fraction of 1.0-10 mcm, preparation of a 40-80% suspension of glauconite in water. The obtained suspension is processed by ultrasound with a frequency of 15-25 kHz for 2-5 minutes. As a result obtained is a glauconite-based enterosorbent, which represents a 40-80% suspension of the glauconite 1.0-10 mcm fraction in water.

EFFECT: obtaining the glauconite-based enetrosorbent, which has the increased sorption ability in the form of a stable water suspension of glauconite.

2 cl, 2 tbl, 2 ex

Description

The invention relates to the field of biotechnology, namely to enterosorbents and the technology for their preparation, and is intended for use in healthcare to normalize the gastrointestinal tract (GIT) and other body systems, as well as related industries (veterinary medicine, chemistry, cosmetology, pharmacy and Food Industry).

Enterosorbents are products used to bind metabolites, toxins and other substances in the digestive tract. They are used, as a rule, in solving problems of optimizing the nutrition of humans and animals, as well as to reduce the intake of environmentally harmful substances (including radionuclides, pesticides, heavy metals), the prevention and treatment of a number of diseases, such as dysentery, viral hepatitis, drug and food allergies, asthma, diabetes, impaired fat metabolism.

Various minerals, such as zeolites, bentonites, activated carbon, microcrystalline cellulose, zeolites, lignins and their derivatives, are currently widely used as enterosorbents.

It is best known to use activated charcoal as an enterosorbent (VIDAL Handbook. Medicinal Products in Russia. - M.: OVPEE - Astra Farm Service, 2000 - C.E-8), which is widely used in chemical, food, and pharmaceutical industries and in medicine. However, it has a relatively small sorption activity and low selectivity of sorption action to substances such as cholesterol, bilirubin, urea, uric acid, which are usually removed from the body by excretory organs. With its use, constipation, diarrhea are possible; and with prolonged use - hypovitaminosis, malabsorption of nutrients from the gastrointestinal tract. Activated carbon is contraindicated in ulcerative lesions of the gastrointestinal tract, with gastric bleeding.

Known drug (RU 2124358, 1999) for the treatment of gastrointestinal diseases with aluminum phosphate as an active agent, however, it has an effect only on reducing acidity and is ineffective for removing toxic substances from the body. A preparation is also known (BG 61500, 1997), in which a mixture of aluminum hydroxide and magnesium in combination with lysozyme is used as an enterosorbent. It has bactericidal properties due to the presence of lysozyme, but cannot absorb and remove harmful toxic substances from the body, as well as normalize the functions of the gastrointestinal tract.

It is known to use shungite as enterosorbents (RU 2423984, 2011) with a silica content of from 20 to 50 wt.%, While the average median particle size of enterosorbent is 15.0 · 10 ^-6 m zeolite based on opal cristobolite rock (RU 2319488 , 2008). Sorbents are effective for use in combined radiation-thermal damage to humans and animals, for the removal of alcohol and drug intoxication, as an antibacterial agent as a means for the prevention and treatment of gastrointestinal diseases of farm animals and birds, but their effectiveness is not high enough.

One of the promising enterosorbents is glauconite. The name glauconite comes from the Greek "glaucos" - bluish-green. Glauconite is a clay mineral of variable composition with a high content of ferrous and trivalent iron, calcium, magnesium, potassium, phosphorus, which, as a rule, contains more than fifty trace elements, including copper, silver, nickel, cobalt, manganese, zinc, molybdenum, arsenic , chromium, tin, beryllium, cadmium and others (http: www.saratov-bi.ru/news/2013-04-16-000000). Fluctuations in composition are associated with isomorphic substitutions. According to the decision of the International Nomenclature Committee, glandular dioctahedral mica should be called glauconite. The content of the main components is usually in the range,%: Si ₂ - 47-50.5; Al ₂ O ₃ - 5-10; Fe ₂ O ₃ - 15-22; FeO - 2-4; MgO - 3-4; CaO - 0-0.8; Na ₂ O - 0-0.5; K ₂ O - 6-8; H ₂ O - 7-9 (RU 2291702, 2007).

All trace elements are in easily removable form of exchangeable cations, which are replaced by elements in excess in the environment. This property explains the high sorption properties of glauconite in relation to toxins, petroleum products, heavy metals, radionuclides.

It is known the use of glauconite as a reagent in the processing of drinks with the aim of clarifying them (RU 94021998, 1996), in foundry molding mixtures as a substance intended to increase the compliance of the mixture in order to improve the quality of foundry cores and molds / SU 1388184, 1988); to reduce water hardness, soil fertilizer, paint production (SES, Moscow, "Soviet Encyclopedia", 1990, p. 313). In crop production, it is used to reduce the pesticides in plants, improve seed germination, increase the biological mass of plants, as a complex fertilizer of gradual action for many crops (rice, millet, wheat, potatoes, corn, tomatoes and others), to increase the green mass of annuals herbs, to improve the water-physical regime of the soil, enhance the vital functions of soil microflora, increase the germination and productivity of legumes, root crops, tomatoes, cucumbers (Atlas of non-traditional types of agrokh mineral raw materials of the USSR / Ministry of Geology of the USSR; All-Union Scientific and Research Institute of Geology and Non-Metallic Minerals; Compiled by P.O. Ablamitov, A.I. Burov, I.S. Guziev, etc. Edited by UG Distanov, AS Filko, VF Semenov. - M .: Nedra, 1989, 64 pp., Srodnykh O.E., Kovalchuk A.I. opal-cristobolite rocks for growing plants / Report: NPO Sredneuralskoye (UralNII Agricultural Agricultural Institute, IGG RAS, Ekaterinburg, 1998). Studies conducted on laboratory animals by scientists of the Ural State Academy of Veterinary Medicine found that glauconite does not have a toxic effect and, according to the classification of chemicals according to hazard, in accordance with GOST 12.1.007.76, belongs to class 4 - slightly hazardous substances (Maltseva L.F. , Sunagatullin F.A., Ovchinnikov A.A., Raschectaev S.A. Irritant and allergenic effect of glauconite of the Kariyskoye deposit // Mat. Dokl. All-Russian Conf. Lyabinsk. - 1999. - p. 115-116, Sunagatullin F.A., Ovchinnikov A.A., Rashchektayev S.A., Maltseva L.F. Acute and chronic toxicity of glauconite // Mat. Dokl. All-Russian Conf. ., dedicated to the 20th anniversary of Uralsk. Branch of VNIIVSGE. - Moscow, Chelyabinsk. - 1999, - p. 152-154).

Currently, in medicine and veterinary medicine, glauconite is used mainly as a component of various complex preparations used in veterinary medicine. So, it is proposed to use it as part of a feed additive containing glauconite and the probiotic Biosporin (RU 2319391, 2008) to increase the defenses and natural resistance of the pig organism.

A suspension of glauconite in an aqueous agar solution is proposed for the treatment of calves with dyspepsia (RU 2188652, 2002). For the prevention and treatment of diseases of the gastrointestinal tract, the drug "Toxi-BioVit" (RU 2475254, 2012) is proposed, containing sterilized culture fluid of a number of microorganisms, 50.0-55.0% glauconite and excipients.

The disadvantage of these drugs is the instability during storage caused by the large specific gravity of glauconite, as well as insufficient efficiency due to the insufficiently developed surface of glauconite.

The closest in technical essence to the claimed invention is enterosorbent (RU 2204396, 2003), consisting of a concentrate of glauconite, used as an active substance for the prevention and treatment of diseases of the gastrointestinal tract. It can be used both independently and as part of: drugs for the treatment of gastrointestinal diseases and feed for the prevention of gastrointestinal diseases in animals. Glauconite concentrate is used in the form of powders, suspensions, emulsions, but suspensions of glauconite are unstable due to the high density of the mineral.

Closest to the claimed method for producing enterosorbent is the technology by which glauconite is obtained by grinding in a mill, a fraction with a particle size of 0.01-0.1 mm (RU 2188652, 2002) is selected, followed by preparation in a 0.5% aqueous agar solution.

The disadvantages of the known enterosorbents based on glauconite and the method for their preparation are the problem of their suspension in pure form and the instability of the resulting suspension due to its high density, as well as the lack of effectiveness of the resulting preparation.

The technical task of the invention is the creation of a new enterosorbent based on glauconite, with increased sorption ability in the form of a stable aqueous suspension of glauconite, which does not require special storage conditions (including freezing and thawing).

The technical result with respect to the sorbent was achieved by creating an enterosorbent, which is a 40-80% suspension in water of a fraction of 1.0-10 μm glauconite activated by ultrasonic cavitation.

Suspension with a concentration of glauconite less than 40% does not allow using the sorption capabilities of the sorbent in the maximum volume, a suspension with a concentration of glauconite more than 80% is unstable during storage. The use of a coarse-grained fraction reduces the stability of the suspension, the use of particles with a size of less than 0.1 microns is difficult for technological reasons.

The technical result in relation to the method of producing enterosorbent is to grind glauconite with a rock content of 20 to 95% in a ball mill with the selection of fractions of 0.001-0.01 mm, mixing it with water and processing the resulting mixture with ultrasound at a frequency of 15-25 kHz for 2 -5 minutes.

The ultrasound frequency of 15-25 kHz is selected experimentally, based on the technical capabilities of the author. Processing less than 2 minutes reduces the resulting specific surface area of the enterosorbent, processing more than 5 minutes does not give a significant effect.

The result is a stable suspension, characterized by high sorption properties due to the increase in the specific surface of the glauconite granules, the convenience and effectiveness of the suspension and the ability to store in a wide temperature range from minus 30 to plus 50 ° C.

The use of ultrasound in dispersion is due to specific cavitation phenomena that accompany the propagation of ultrasonic vibrations in liquid media (en.wikipedia.org/wiki/Cavitation). In this case, gas bubbles (cavities) are formed in the liquid, in which, as it is believed, electric discharges occur, ionization of molecules and atoms, increase in pressure and temperature occur. Gas (cavitation) bubbles more easily form at the boundary between liquid and solid, energetically affecting the surface of the latter. In the process of ultrasonic treatment, the surface of the suspended mineral changes, and the finely dispersed products obtained in this case sharply differ both in composition and in branching of the surface.

The presence of the layered structure of glauconite, in contrast to zeolites, which are characterized by a skeleton structure, leads to the fact that part of the intramolecular forces is not balanced by interaction with ions contained in solution or air. As a result, they accumulate on the active surfaces of the plates making up the crystal, so that after the cavitation treatment the active surface area of the sorbent increases significantly.

The essence and advantages of the method are illustrated by the following examples.

Example 1. Glauconite is crushed in a ball mill, selected to a size of 1-10 microns, then subjected to magnetic separation on magnetic drum separators of the SMBM type produced by NPO Erga with adjustable induction, from 200 to 250 mT and field gradient from 50 to 70 mT / cm for the selection of rocks containing from 20 to 95% of the content of glauconite.

Then purified water is poured into the container and the prepared glauconite is poured in proportions by weight 70 / 30-40 / 60-50 / 50-80 / 20-85 / 15, and then the mixture is exposed to ultrasound at a frequency of 15-25 kHz, the processing time is 2- 5 minutes. The power of ultrasound is 3 W / cm ² . The moisture content of the resulting suspension lies in the range from 25 to 65%.

The sorption activity of the resulting enterosorbent, an ionite suspension (IS), is determined by the specific surface that determines its activity. The specific surface of the sorbent during sorption of nitrogen, calculated by the BET method (the method proposed by Brunauer, Emmett and Taylor), is shown in table 1.

Table 1 Effect of production conditions on the properties of enterosorbent The ratio of green earth: water Processing conditions The specific surface of the sorbent, m ² / g Duration of storage without delamination, days Frequency Processing time, min 30:70 15-25 kHz four 73.2 ± 5.2 eleven 40:60 15-25 kHz four 80.2 ± 3.0 10 50:50 15-25 kHz four 81.2 ± 3.0 10 80:20 15-25 kHz four 76.3 ± 3.4 9 85:15 15-25 kHz four 81.15 ± 3.04 6 50:50 15-25 kHz one 57.5 ± 2.1 3 50:50 15-25 kHz 2 79.3 ± 3.2 10 50:50 15-25 kHz 5 81.2 ± 3.04 10

Example 2. The determination of adsorption activity was carried out in relation to the dye methylene blue (marker of low molecular weight toxins) and to the dye Congo red. The results are shown in table 2:

table 2 Adsorption activity of enterosorbent (ratio glauconite: water 50:50) Product Adsorption activity, mg / g Serum albumin (HSA 0.5% aqueous solution) at an initial concentration of a protein solution of 1000 mg / l methylene blue Congo Red Enterosorbent 550 ± 19.0 6.2 ± 0.3 62 ± 9.5

Enterosgel 18.2 ± 1.0 17.4 ± 0.7 12 ± 1.5 Noolite 37.1 ± 0.5 3.8 ± 0.5 65.3 ± 9.4 Zeolite 510 ± 15.0 4.8 ± 0.5 72 ± 8.5 Smectite 577 ± 11.0 45.5 ± 0.2 85.5 ± 6.1 Activated carbon 200.2 ± 9.8 1.1 ± 0.1 61.6 ± 9.7 Polyphepan 48.9 ± 9.9 2.5 ± 0.4 84.6 ± 6.5 Polysorb 41.7 ± 5.0 1.5 ± 0.3 372.5 ± 7.3

According to the results of the experiments, the IP in adsorption activity significantly exceeds the sorption activity of industrially produced analogues.

The suspension, consisting of natural dispersed glauconite, has a high enterosorbing ability, nonspecific detoxification effect and probiotic activity. It binds and removes pathogenic bacteria and bacterial toxins, drugs, poisons, heavy metal salts, alcohol, allergens, as well as an excess of certain metabolic products, including bilirubin, cholesterol, urea, metabolites responsible for the development of endogenous toxicosis. Unlike antibacterial agents, it does not lead to the development of dysbiosis. It is non-toxic, non-absorbable, completely excreted from the intestine within 24 hours.

Claims (2)

1. A method for producing an enterosorbent based on glauconite, including grinding of glauconite, selecting its fraction, mixing with the liquid phase and suspending the resulting mixture, characterized in that after grinding of glauconite with a rock content of 20 to 95%, a fraction of 1.0-10 is taken μm, a 40-80% suspension of glauconite in water is prepared, and then the resulting mixture is treated with ultrasound at a frequency of 15-25 kHz for 2-5 minutes. 2. Enterosorbent based on glauconite, obtained by the method according to claim 1, which is a 40-80% suspension in the water fraction of 1.0-10 microns glauconite, activated by ultrasonic cavitation.