RU189141U1 - Drainage and sorption container - Google Patents

Abstract

The invention relates to medicine and veterinary medicine, namely to the treatment of purulent, purulent-necrotic wounds, mainly due to exudate sorption, as well as tissue decomposition products, and can be used in surgical practice in the treatment of wounds, as well as infected burns, abscesses, cellulitis and others. A drainage-sorption container containing a zeolite sorbent based on zeolites of a volcanogenic-sedimentary type, placed in the cavity of a shell of a flexible permeable porous material smaller than the size of the sorbent particles, characterized in that as a permeable shell using filter paper made of quartz fiber with a permeability of the membrane 0.1-0.5 microns. In addition, zeolite tuffs from the Khonguruu deposits were used as a sorbent. The use of this utility model contributes to the good absorption of liquid exudate, eliminating additional injury when used without sticking, and the supply of mineral substances from the sorbent. 1 il.

Description

The utility model relates to medicine and veterinary medicine, namely, to the treatment of purulent, purulent-necrotic wounds, mainly due to sorption of exudate, as well as tissue decay products, and can be used in surgical practice in the treatment of wounds, as well as infected burns, abscesses, phlegmon, etc.

There is a method of treating peritonitis (see RU No. 2123361, CL A61M 31/00, AC61K 33/06, publ. 12/20/1998), including, inter alia, sanitation of the abdominal cavity by washing with antiseptics, drainage, peritoneosorption with a sorbent on the basis of granules Chivartuin, pre-saturated with sodium hypochlorite (NaClO) in a ratio of 3: 1 and administered as a suspension in a mesh container made of synthetic fabric.

The disadvantage of this sorption container is a permeable synthetic mesh membrane of nylon filaments, during which it sticks to the wound and causes unwanted injury. At the same time, the size of the sorbent fraction may be smaller than the pores of the shell, which will lead to the penetration of the sorbent into the wound, which will subsequently lead to incorporation into the skin structure and excessive tissue injury, lengthening of the healing process.

A sorption container is known (RU No. 2219887, cl. A61F 13/36, publ. 12.27.2003), including a zeolite sorbent — clinoptilolite tuff with a grinding degree up to 0.01 mm, placed in a cavity of a flexible permeable inelastic porous material — a cellophane dialysis shell film, medical or food film, the pore size of which is smaller than the size of the sorbent particles.

A disadvantage of the known device is the use of cellophane shell, the sorption rate through which is quite small, which also reduces the diffusion rate of many substances.

A sorption container is known (see RU No. 2442450, class A61F 13/36, A61P 39/00, publ. 10.06.2012), including a zeolite sorbent placed in the cavity of a shell of a flexible non-elastic porous material - a dialysis film, the pore sizes of which are smaller particle size of the sorbent, while the dispersion of the sorbent is 0.15-10.0 microns.

The known device is ineffective in the treatment of purulent wounds, because cellophane films and tubes are not able to pass pus, as exudate containing protein fluid.

The task, which the claimed solution is aimed at, is expressed in the creation of a highly efficient sorption container for the treatment of mainly purulent, purulent-necrotic wounds.

The technical effect obtained by solving the problem, expressed in increasing the efficiency of the sorption container, mainly due to the use of the shell with high hydrophilicity, which, in turn, provides high permeability and, thus, significantly increases the adsorption capacity of the container, as well as due to the dispersion of the sorbent (the size of the sorbent does not exceed 1.0 μm), which significantly increases the specific surface of the zeolite micropowder.

To solve this problem, a drainage-sorption container containing a zeolite sorbent based on zeolites of a volcanogenic-sedimentary type, located in the shell cavity of a flexible permeable porous material, the pore size of which is smaller than the size of sorbent particles, is used as a permeable membrane filter paper from quartz fiber with membrane permeability from 0.1 to 0.5 microns. In addition, zeolite tuffs from the Khonguruu deposits were used as a sorbent.

Comparative analysis of the signs of the claimed solution with known signs indicates the compliance of the stated decision to the criterion "novelty".

The set of features of the utility model provides a solution to the stated technical problem, namely, the creation of a sorption container for the treatment of purulent wounds, contributing to the good absorption of liquid exudate, eliminating additional trauma when used without sticking, and the supply of mineral substances from the sorbent, which is used as a natural zeolite deposit Honguruu ", known for its unique ion-exchange and ion-selective properties.

At the same time, the increased specific surface area of the sorbent, which is achieved by finer grinding of zeolite particles, with other things being equal, reduces the number of sorption containers used, as a result, reduces the complexity of the treatment process and accelerates wound healing.

The sorption container includes a Honguruu zeolite sorbent, housed in a quartz fiber filtered paper envelope, for example, MN QF-10, Advantec QR-100, etc., with a permeability of the membrane from 0.1 to 0.5 μm, while particle size of the sorbent. The casing of quartz fiber filtered paper has chemical resistance to most organic and inorganic solvents, relatively high strength, elasticity, hydrophilicity and heat resistance (up to 1000 ^o C).

The natural zeolite of the Khonguruu volcanic-sedimentary type (Republic of Sakha (Yakutia), Suntarsky region, the village Kempendyay, the Khonguruu area) is used as a sorbent with a grinding degree of up to 0.6-1.0 μm, which exceeds the pore sizes of the shell material.

For the manufacture of the claimed rectangular drainage-sorption container, three side seams 3 are formed on the previously prepared billet, after which micropowder 2 of zeolite sorbent is poured with grinding degree to 0.6-1.0 μm (see Fig.). After that, "stitch" the remaining side seam. The seams 3 can be formed by gluing, soldering or piercing the material of the sheath 1. In the manufacture of sorption containers take known measures to ensure their sterility.

A quartz fiber filter paper jacket provides contact between the sorbent and the exudate released, which is well absorbed and penetrates through the pores of the paper. On the other hand, the shell provides reverse flow of various (mineral, organic and biological) substances from the sorbent. The shell is chemically resistant to most organic and inorganic solvents and does not contribute to the adhesion of the container to the surface of the wound.

The hydrophilicity of the shell material provides high permeability, effective retention of the sorbent within the container shell, while increasing the efficiency of the “work” of the sorbent, the dispersion of the sorbent does not exceed 0.1 μm, which significantly increases its specific working surface.

Use as a sorbent of natural zeolite deposits Honguruu ensures the absence of harmful mineral and chemical impurities in the material. Its unique ion-exchange and ion-selective properties of zeolite help to supply the wound with the chemical elements necessary to stimulate the wound healing process. Particle sizes increase the specific surface of the sorbent, which reduces the number of container shifts and shortens the healing time of the wound.

The sorption container is used as follows.

The shape and size of the drainage-sorption container used in the work is determined by the type of purulent lesions. For example, for a purulent wound, a boil the most suitable container in the form of a rectangular envelope, with the cover of the latter with a dressing material (see Fig.). In case of wounds with a wound canal, a fistula is necessary to use a drainage-sorption container in the form of a sleeve. In this case, the length and width of the container varies depending on the depth and cross-sectional dimensions of the wound. In this case, it is possible to combine with a rubber-gauze graduate.

Drainage-sorption container is placed on the wound surface or immersed in the wound cavities (channels). Duration of use - no more than 24 hours. Further, during the bandaging the container must be replaced with a new one. With abundant purulent discharge, the drainage container should be changed as it is filled and soaked. On average, a course of treatment will require from 2 to 8 dressings.

In practice, a pronounced adsorption, deodorizing, biostimulating effect of zeolite in containers has been established. In the experimental group of animals, granulation tissue appears on average one day earlier than in the comparison group. There is experience in treating patients with purulent-inflammatory wounds of various localization, while the timing of the appearance of granulation tissue in patients in the experimental group was significantly less compared with the clinical control group. The shell of the drainage-sorption container did not stick to the surface of the wound, which significantly improved the patient's ligation process.

Thus, the use of the declared drainage-sorption container facilitates the rapid healing of purulent, purulent-necrotic wounds, mainly due to the effective sorption of the exudate, as well as tissue breakdown products, while eliminating additional injury to the wounds.

Claims (1)

Drainage-sorption container, including a fine zeolite sorbent based on zeolites of a volcanogenic-sedimentary type, placed in a cavity of a flexible permeable porous material, the pore size of which is smaller than the size of sorbent particles, characterized in that the permeable membrane used is quartz fiber filter paper with a membrane permeability of 0.1-0.5 microns.

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