UA135836U - METHOD OF BIOPHORESIS OF WOUND SURFACES BY VITAMIN D AEROGEL BANDINGS WITH SILVER HEMISPHERE - Google Patents

Abstract

The method of biophoresis of wound surfaces with vitamin D aerogel dressings is that two electrodes of dissimilar metals are applied to the wound and connected by an electrical conductor, which causes a unidirectional circular motion of electrons, and there is a direct galvanic current of 5-80 μA. An airgel bandage based on amorphous silicon dioxide containing silicone tubes, through which vitamin D is injected, is applied to the wound surface.

Description

The useful model belongs to the field of medicine, namely to general surgery, combustiology, traumatology, field trauma, and can be used for the purpose of adapting a skin graft on a wound bed, as well as in the treatment of wound defects with damage to the skin and underlying tissues.

The known method is as follows: for the purpose of biophoresis, two electrodes made of dissimilar metals are applied to the affected limb or part of the body and connected by an electrical conductor, which causes a unidirectional circular movement of electrons and a constant galvanic current with a strength of 5-80 μA appears. The current ionizes liquid therapeutic substances, gives unidirectional ions movement, which is used for therapeutic purposes 1-2.

The disadvantage of the known method is the impossibility of controlling the dosage of the medicinal substance, namely the preparation of vitamin ХО directly during the process of biophoresis of the wound surface, and the wound dressing does not provide optimal pressure on the wound. When applying a gauze bandage, it is impossible to qualitatively fill the entire wound surface by repeating its relief, and it is also impossible to introduce a therapeutic agent, vitamin 0, into the wound without directly removing the gauze bandage, and the wound bandage does not provide constant antiseptic conditions.

The task is carried out by applying, during biophoresis of wound surfaces, an airgel bandage (based on amorphous silicon dioxide) with silver hemispheres, which contains silicone tubes for the introduction of a therapeutic agent, vitamin 0, both during and after the treatment procedure.

Airgel (based on amorphous silicon dioxide) is a unique material - a gel in which the liquid phase is completely replaced by a gaseous one. This material has a record low density and exhibits a number of unique properties: hardness, transparency, heat resistance, etc. Airgel belongs to the class of mesoporous materials, with the structure of a tree-like network of nanoparticles 2-5 nm in size and pores up to 100 nm in size combined into clusters (I3-6). Also, aerogels have good thermal insulation and hygroscopic properties, they are transparent and through them the state of the wound bed and the features of the wound process are clearly visible. Silicone tubes (through which medical agents are administered) are located in the thickness of the airgel bandage, they have one external outlet on the surface of the bandage and pores in its base, from where the OO gradually enters the wound.

The use of vitamin U stimulates metabolic and regenerative processes in the wound, reduces

From the intensity of the inflammatory process. Which, in turn, improves microcirculation in the tissues and shortens the course of the phases of the wound process, prevents drying of the wound (7-9). And the silver hemispheres in the airgel bandage provide constant antiseptic conditions for wound surfaces.

The method is carried out as follows: wound defects are first treated with dry sterile napkins, maximally adsorbing the wound contents, then the wound is treated with sterile napkins moistened with an aqueous solution of chlorhexidine. After treatment of wound defects, the wound is covered with a sterile napkin and an airgel bandage based on amorphous silicon dioxide with silver hemispheres is placed on top of it. A medical substance, namely vitamin O, is injected directly into the silicone tubes of the airgel bandage. After vitamin Y is injected into the silicone tubes, one tube remains connected to the syringe, and the other is closed with a plug. An electrode (anode) is placed on top of the plate.

During biophoresis, the anode (positive electrode) is placed over the wound defects, and the cathode (negative electrode) is placed under the affected area (extremity) or on the opposite side of the anode.

The strength of the current that acts on wound defects is from 5 to 80 μA, the current ionizes vitamin 0, gives ions a unidirectional movement into the wound for therapeutic purposes. Without stopping the treatment procedure of biophoresis, after the end of vitamin ХО, you can wash the wound surface with an antiseptic solution, injecting it with a syringe through a silicone tube into an airgel bandage, having previously removed the plug. Under the action of galvanic current, part of the drug will fall directly to the wound surface through the pores in the lower surface, and part will leave the cavity of the plate through the outlet tube.

So, the method of biophoresis of wound surfaces with vitamin Y using airgel bandages based on amorphous silicon dioxide enables control over its introduction during the wound galvanization procedure, and if necessary, allows to increase the dose of the drug directly during the procedure. The method improves the deposition of antiseptic and vitamin O in the wound tissues, stimulates microcirculation in the affected tissues, reduces microbial contamination of secretions from the wound, and the silver hemispheres create constant antiseptic conditions in the wound, which makes it possible to shorten the patient's stay in hospital treatment.

Sources of information: 1. Lisovska T.V., Husakivska O.V. Biophoresis and biopuncture of biological medicine preparations as an alternative to traditional treatment of chronic endometritis //Ukrainian medical almanac. - 2012. - Volume 15, Issue 6. - P. 107-108. 2. por/lLymly gadiivz.rm/yKuradez/eIesitorpogeviv.. PIti

Z. Ma, N.5.; Rhemovi, U.N.; UShep, A. 5APegeg, village of M/. Aotryieg vzitshianyop oi teANApilai zi Ashte-rgorepu geiIayopz5pir oi aegode!5. U. Mop-Aguzi. ZoiiAv 2001, 285, 216-221. 4. Eyettegpipod, A.; EpAKe, U. Zaaiipud rgoregie5z apA v5igiAiiige oi aegodei!5. 9). ZoI-Se! 5AI.

TeApNpoi. 1997,8,781-788. 5. pOrz lim. vrhipdegrgoiezziopa!.Av/ep/hemivm-oi-aegode!-bazeA-taiegia!5-ip-biotelAiAai!- arriiAayopv/11742122 b. pre //lmlum.taAri.Aot/oigpai/de!v/5redia!. izztsevz/ayegode!yiv 7. pybrv5 //uzeozuya. tsalirtati/riopitiApa-goI-uyatipim-ia-miatiporoAiBpin-5roishk-432.piti 8. Gubskyi Y.I. Biological chemistry: Textbook. Kyiv-Ternopil: Ukrmedknyga, 2000. - 508 p. 9. per:/teAiA ev. iAo2.peyipAeh/miAi. romia2ok/0-24.

Claims (1)

USEFUL MODEL FORMULA The method of biophoresis of wound surfaces with vitamin Y airgel bandages, which consists in the fact that two electrodes made of dissimilar metals are applied to the wound and connected by an electrical conductor, which causes a unidirectional circular movement of electrons, and a constant galvanic current with a strength of 5-80 μA appears , which differs in that an airgel bandage based on amorphous silicon dioxide is applied to the wound surface, containing silicone tubes inside, through which vitamin O is injected.