UA7068U - Pad with hygienic and therapeutic effects - Google Patents

Abstract

The pad with hygienic and therapeutic effects consists of the upper layer with antibacterial coating, the absorptive layer, and the lower layer. The pad contains the additional absorptive structures comprising the special modified zeolites û mordenites.

Description

Description of the invention

The useful model relates to medicine, in particular, to personal hygiene products with a curative-prophylactic 2 effect and the production of prophylactic-medicinal products based on modified zeolites.

A well-known absorbent sanitary product (Application No. 2003043542, IPC 7 AbITE13/15, АЭ1И 15/46, issuance decision dated 08.10.03|, made in the form of a sanitary pad for women, which additionally contains an adsorbent. The adsorbent uses zeolite of the clinoptilolite class.

The well-known sorbent of the "Defosorb" brand, developed by the NGO "Ekran" MZ3 of the Russian Federation | All-Union Conference "Method and 70 Means of Sterilization and Disinfection in Medicine", theses! Dokdalov (September 28-October 2, 1992) V.I.

Prylutsky "Functional characteristics of sorbents with antioxidant activity of the brand "Cefosorb".

Sorbents are produced on the basis of zeolites, used for plasma sorption and application therapy.

The article "Removal of bacteria by modified natural zeolites" was published in the journal "Empigop Si Neaky" Rai A Toh Nagaga 5!tsbvi Epmigop Epd (2001), 36, (1073-87). 12 Antibacterial properties are described in "Maeda T apa Mose U: A pem/ apiirasiegiai adepi: apiirasiegiai! 7eoiye" (Maeda T. and Knows J. and others: New bactericidal agent: antibacterial zeolite). Agpii Ogdape 23:129-130, 1999.

The zeolite, which is mechanically processed using a special technology, acquires unique properties (Rameiis K,:

Mespapisayu igeagey paiishga! SiiporiyoIye seoiye - pem/ adipimapi adepi ip apii-sapseg (Shegaru (Pavelich K.;: Mechanically processed natural zeolite clinoptilolite - new adjuvant - agent in anticancer therapy). Journal Moi! Mea 78: 708-720, 20011.

According to foreign data, the list of areas and volumes of use of natural zeolites in industry, agriculture, and environmental protection is growing rapidly.

Scientific studies of the action of modified zeolites of clinoptilolites were published in the magazine "dbogpa! oi 29 Moiesciag Meaisipe", January, 2001. "Natural zeolite! clinoptilolite: new additional therapeutic measures in the treatment of cancer".

The well-known technology for the production of the medicinal product "Megamin" - a natural bioactive product that has unique properties due to the special technology of processing raw materials (zeolite clinoptilolite and auxiliary components): application "Device for micronization of materials and new possibilities of use with the micronization method of materials", registration in UUIRO (Umohiy Ogdapigavop og IpieMPesicha! Rgorepu "o - World Intellectual Property Organization) in Geneva (Switzerland) MORST/LV99/00757. TMA? - "tribomechanically activated zeolite" - natural zeolite of the clinoptilolite group, activated by fine grinding and micronization. This means of activation brings clinoptilolite to a new level of biological effects. It does not cause changes in the chemical composition of the natural mineral zeolite, but to some extent it changes the physico-chemical composition: particle size, electrostatic charge, ion exchange potential.

The properties of the medicinal product "Megamin" and the areas of its application are also given in the article "Megamin - a new antioxidant", E.V. Griroryev, "New Medicines" Mob, July 2003 (Russia). "

In connection with the beginning of the industrial use of zeolites, more than 2000 8 patents for the use and modification of zeolites were registered in the USA alone.

The closest technical materiality to the proposed useful model is a pad with hygienic and therapeutic effects, containing an upper, absorbent and lower layer, while the upper layer of the pad has

From" antibacterial coating, which is formed due to the use of micrometric fractions of sorbents, less than 5MkCM (Mo application No. 20031213062, 30.12.2003Zr., Mo708591.

The disadvantage of a sanitary pad with hygienic and therapeutic effects is the limited functional capabilities of the product, namely, the insufficient spectrum of medicinal and prophylactic action to ensure and prevent infectious diseases and inflammatory processes of the intimate sphere due to limited av! the possibilities of an antibacterial coating containing sorbents - zeolites.

The useful model is based on the task of creating a sanitary napkin with an absorbent structure that would contain modified zeolites that have a medicinal and preventive effect, namely: the creation of sanitary products, for example, a feminine sanitary napkin with hygienic and therapeutic effects, which would provide maximum some indicators of metabolic processes that occur when using a pad, due to the use of additional structures-layers, which are formed by modified sorbents - zeolites.

The task of creating a useful model is solved by the fact that a pad with hygienic and therapeutic effects, containing the upper layer of the pad, which has an antibacterial coating, which is formed due to

With the use of micrometric, less than 5 µM, fractions of sorbents, the sorbing and lower layers, according to the proposed useful model, contain additional absorbing structures that are formed by special modified zeolites - mordenites. Modification of mordenites is carried out according to a certain direction of ensuring therapeutic and preventive action. Absorbent structures can be made in the form of a sorption bandage and independent therapeutic and preventive means. 60 The set of essential features of the claimed utility model is not known from the prior art and can be used in such industries as the medical industry, the pharmaceutical and cosmetic industry, the industry of disposable hygiene products, and others.

Natural zeolites include about 30 minerals, however, only some of them are used and have industrial importance. Among these zeolites, the most widespread are clinoptilolites and mordenites, which belong to the bo class of aluminosilicates, the crystal structure of which is created by tetrahedra |i la and ILODIU, which are united by common vertices into a three-dimensional framework that has pores and channels.

Zeolites are the order and regularity of the structure, and therefore the properties. The most important feature of zeolites is the ability to change the chemical composition of crystals and geometric parameters (shape and size) inside the crystal pores, that is, the possibility of their structural and chemical modification. Moreover, it is possible to introduce other elements into the crystalline structure of aluminosilicates that modify the active centers located in zeolites. The adsorption properties of zeolites depend on this - which molecules and with what energy they can adsorb in the pores or on the surface, and which destructive transformations are carried out with these adsorbed molecules. 70 There are several ways to modify zeolites. Among them is thermal modification, which is carried out by heating to a temperature of 300-3502C for 30-45 minutes, after which the zeolite is converted into a powder with a fraction of 0.025-0.075 mm. Chemical modification is carried out with the help of treatment with acids - a direct method of transition, at the same time, zeolites are converted into hydrogen form, that is, metal ions are replaced by hydrogen ions. Only some types of zeolites, in particular, mordenites, can be transferred to the hydrogen form in such a direct way, since 75 ACIDS destroy their crystal lattice, especially, low-silica zeolites. The indirect method consists in the fact that ion exchange with ammonium salts is first carried out, after which ion decomposition is carried out during heating

MNYAA" on ammonia and hydrogen ion H". The effective diameters of the "windows" of zeolites can be adjusted by creating organometallic complexes, at the same time, the size of pores in zeolites is significantly reduced due to their blocking by these complexes. Through ion exchange, the transition of silver-containing derivatives of zeolites is possible. Such Ad- modified zeolites have the ability to concentrate micro impurities of carbon dioxide CO. Copper and silver modifications of zeolites are highly selective adsorption filters. One of the methods of modifying zeolites is dealumination. Treatment of zeolites with acids leads to the dissolution of tetrahedral aluminum in the lattice. This makes it possible to change the ratio of silicon and alumina within known limits tetrahedrons in zeolites without changing its crystal structure. All other things being equal, exchangeable cations are adsorption centers, they reveal the specificity of interaction when molecules of different composition and electronic structure are adsorbed on zeolites. By changing the nature and size of cation exchange, it is possible to strengthen or weaken the contribution of the specific interaction to the adsorption energy.

For the production of products that contain absorbent structures consisting of natural biologically active compositions based on crystalline sorbents, for example, zeolites, zeolitized tuff from the Zelenokamyanskyi (Vodytsia village) deposit (Ukraine, Zakarpattia region, Rakhivskyi district) was selected. From the geological report on the results of prospecting and evaluation works, it follows that the type of tuff at this deposit is psephyto-psamitic, green, and the content of zeolites varies from 41 to 9295, including mordenites - 6095, clinoptilolites - 20905. Zeolites ( av) of this deposit were chosen due to their unique properties, which allow them to be purposefully modified in order to obtain the necessary therapeutic and preventive means. The selected zeolites have wide pores in which, after dehydration (thermal modification), molecules of necessary substances, including medicinal ones, can penetrate. Exchangeable cations and the aluminosilicate framework can be modified by chemical treatment, which makes it possible to regulate the chemical forces acting on the sorbed molecules. "

The uniqueness of the selected zeolites is that they have a high ratio of 5I/AIII (5 for mordenite, 4.5 for clinoptilolite), the composition of the aluminum oxide composition of the framework of zeolites to a large extent reveals their properties.

The greater the ratio of 510 /AI»Ozv in zeolites, the more resistant they are to the action of acids. When most types of zeolites are treated with strong acids, they turn into gels. The zeolite of the mordenite group is resistant even to strong acids, during its processing, only cations are removed, while the hydrogen form "" of mordenite is formed. The proton (hydrogen ion) ensures the electroneutrality of the lattice, at the same time, it is a very mobile element that can, in its turn to be replaced in zeolite by a number of substances, including medicinal ones.

Mordenite has the following crystallographic properties: crystal shape: rhombic, a-18.1 angstroms, b-20.5 -i angstroms, c-7.5 angstroms; Stst, general chemical composition: MavAIvZildoOov-24 NoO. Mordenite is a zeolite with particularly narrow pores that surround the molecule as if in solution, possessing the properties of super-acidity and activity.

Mordenites have Brønsted and Lewis acid centers, which form two forms of adsorption (method (o) of acidity research according to Brønsted and Lewis). p. 50 Efferent means of treatment, which are based on the removal from the body of poisonous and ballast substances of exogenous and endogenous origin, are allocated to a separate section of the pharmacopoeia. Modified zeolites, including mordenites and clinoptilolites, are promising substances for medicine. They can be used not only as sorbents, but also as a carrier matrix in the creation of combined medicinal products. Methods of introducing target components into already formed matrix-carriers are especially suitable for substances that have a low thermal

Su 55 stability, for example, enzymes, biocidal preparations and the like. The mechanism of action of natural zeolite sorbents in the human body is sufficiently deciphered.

In the process of manufacturing a feminine sanitary pad, it additionally contains an absorbent structure containing a modified zeolite-mordenite. This modified mordenite additionally contributes to the curative and preventive effect of such a product, as it has the properties given to it of the medicinal product 60 that it receives during modification.

The lining of such a design has a medicinal and prophylactic effect with a prolonged effect due to the fact that natural biologically active compositions based on crystalline sorbents - modified mordenites introduced into it prevent the emergence of an environment for the development and reproduction of bacteria. The effect of these sorbents is based on the absorption of pathogenic microflora and unpleasant and toxic gases by the developed inner surface, which is significantly increased during the modification process.

Gaskets of the proposed design prevent the accumulation of a significant amount of conditionally pathogenic microflora on their surface. This allows the use of these pads for wide application in order to improve indicators of bacterial contamination of the vagina and prevention of inflammatory diseases.

Thus, the set of essential features of the claimed useful model makes it possible to apply Mordenite Zeolites for a new purpose, namely, to create a pad with new properties: hygienic and therapeutic effects. Additional structures that contain modified zeolite-mordenite can be part of a number of medical products, in particular, in a sorption bandage. Modified zeolites can be independent medicines.

The essence of a useful model is explained by the following examples: 70 Example Mo1

The zeolite-mordenite deposit of the village was crushed into fractions of 0.3-0.5 mm. Vodytsia, Transcarpathian region, was modified by treating its In with a solution of hydrochloric acid for two hours when heated to a temperature of 70-90 C.

After that, the zeolite was washed with water until a constant pH level of 3.5-4.5 was reached. All synthetic zeolites were destroyed under the conditions of such processing. As a result of chemical treatment, the adsorption capacity of 75 Mordenite rock significantly increased both for water and for benzene vapor (standard methods of analysis) compared to the unmodified rock. The zeolite modified in this way forms an additional absorbent structure in a sanitary product - a feminine sanitary pad. The gasket containing such a structure has increased sorption properties.

An example of Mo2

The properties of natural mordenite from the Transcarpathian deposit were investigated, p. Vodytsia, which consists of mordenite (72905) and clinoptilolite (2295). Zeolite has a porosity of 21-2796, which indicates the high strength of the rock. Crushed mordenite (grain fraction 0.25-1 mm) was modified by keeping it in a solution of hydrochloric acid of different concentrations (0.8; 1; 1.65 3.2 mol/l) for several (1, 3, 5) days with periodic shaking. After washing with water on a filter and drying, the zeolite was examined for its ability to absorb ammonia

From dilute solutions.

The dynamic capacity according to MH" increased to 117 Bmg-eq/l, compared to the indicator of unmodified no) mordenite, which is equal to 757 mg-eq/l.

The zeolite modified in this way forms an additional absorbent structure in a sanitary product - a feminine sanitary pad. A pad containing such a structure has increased sorption properties for absorbing unpleasant odors.

An example of MoZ3 i-oi

Acidic and cationic treatment of mordenite zeolites was carried out, which allows to give them new properties without changing the internal crystal structure. Hydrochloric acid was used for acid modification, thanks to its volatility it is easy to get rid of its traces after washing and heating. Chemical modification of t zeolite was carried out by keeping it at room temperature from 1 to 17 days in NOSI solutions, the concentration of which was from 0.1 to b.4 mol/l. At the same time, significant decationization (replacement of sodium, potassium, calcium and other cations) occurs, as well as dealumination with an increase in the silicate index "(5ИО2/А2Оз) from 9.8 to 15.1 in the zeolite. The surface of the obtained zeolite enters into an adsorption interaction with charged molecules and substances that form hydrogen bonds.

Example Мо4 с On mordenite modified according to Example Мо3, crystalline trypsin a (190 wt.) and borax (395 wt.) were mechanically immobilized. As a result, a wound-healing composition was obtained, an analogue of the well-known composition "Lysosil", the therapeutic effect of which is due to the complex action of its components . Zeolite binds and neutralizes microorganisms. At the same time, it is a matrix-carrier of medicines. The resulting composition is contained

In the structure of the sorption bandage in the form of an auxiliary structure. -I Example Мо5 o On the mordenite modified according to Example Мо3З, a microbicide solution, for example, an alcohol solution of chamomile extract, is applied by saturation. After drying, mordenite, which contains chamomile extract, contains in (is) an additional structure of a feminine hygiene pad, where this structure performs a medicinal - prophylactic effect. with 70

Claims (1)

The formula of the invention Pad with hygienic and therapeutic effects, containing the upper layer of the pad, which has (7 55 antibacterial coating, which is formed due to the use of micrometric, less than 5 µM, fractions of sorbents, sorbing and lower layers, which is characterized by the fact that the layers contain additional absorbent structures, which are formed by special modified zeolites - mordenites, selected according to a certain direction of providing therapeutic and preventive action. In the Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 6, 15.06. 2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. b5