UA144498U - AEROGEL BANDAGE BASED ON AMORPHOUS SILICON DIOXIDE WITH NB ₂ O ₅ GAS RESISTANT SENSOR AND POSSIBILITY OF INTRODUCTION - Google Patents

Abstract

Aerogel bandage containing a base, characterized in that the base consists of an aerogel part based on silicon dioxide, inside which are silicone channels (tubes) through which vitamin B3 is injected, and a resistive gas sensor Nb2O5, located on the outer 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 open wound defects with damage to the skin and underlying tissues.

The known device consists of a gauze base (a cut of sterile gauze), the use of which is as follows: the skin graft on the wound bed is fixed and adapted with the help of a gauze bandage treated with an antiseptic. And open wound defects that do not require plastic closure are also covered with sterile gauze bandages (71.

The disadvantage of the known method is the unsatisfactory fixation of the skin graft on the wound surface, as well as the inability to register and control gas emissions from the wound surface. When applying a gauze bandage, it is impossible to qualitatively fill the entire wound surface with dressing material, repeating its relief, and it is also impossible to introduce a therapeutic agent, vitamin VZ, into the wound directly without removing the gauze bandage.

The task is solved by the fact that, according to a useful model, the airgel bandage containing the base consists of an airgel part based on silicon dioxide, inside which there are silicone channels (tubes) through which vitamin B3 is administered, and a resistive gas sensor MbB2O5 placed on the outer surface...

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 (1, 3). Also, aerogels have good thermal insulation and hygroscopic properties, they are transparent and through them the condition of the wound bed or the degree of graft engraftment are clearly visible (1-4).

Silicone channels (through which medical agents are administered) in the form of tubes 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 VZ gradually enters the wound.

The use of water-soluble vitamin VZ stimulates metabolic and regenerative processes in the wound, reduces the intensity of the inflammatory process. Which in turn improves microcirculation in

From the tissues and shortens the course of the phases of the wound process, prevents drying of the wound (5, 61.

The resistive MB2O5 gas sensor is located on the outer surface of the bandage in the form of a sensitive structural film and serves to detect gas emissions from the wound surface.

The method is carried out as follows: an airgel bandage (based on amorphous silicon dioxide) is applied to the skin graft or directly to the open wound surface, containing silicone channels (tubes) inside, and a resistive MB2O5 gas sensor on the outer surface. Through the silicone channels, a medical agent, vitamin VZ is introduced, this bandage is fixed with a medical patch or a sterile gauze bandage.

Therefore, the proposed method of using an airgel bandage with vitamin BZ allows optimal fixation of the graft on the wound with the help of the plasticity of the material (airgel), which has significant hygroscopic and heat-insulating properties, it effectively fills the wound bed, perfectly repeating its entire surface, which makes it possible to create "pockets" between the wound and the graft or dressing material. The airgel bandage has good heat-insulating and hygroscopic properties, it is transparent, and through it the condition of the wound bed or the degree of graft engraftment can be clearly seen, and the resistive gas sensor MV2O5 built into its surface registers the indicators of gas emissions from the wound bed. Also, the proposed method ensures the introduction of therapeutic agents, vitamin B, during the time when the airgel dressing is directly on the wound or on the graft and, if necessary, allows to increase the dose of the drug.

Sources of information: 1. Ma, N. 5.; Rhemov, u. N.; Ushiep, A.; ZAPegeg, village M. Aotriieg vitsiaiop oi teANApilai zi Ashte-rgorepu geiIaiopz5pir oi aegode!5. U. Mop-Aguzi. ZoiiAv 2001, 285, 216-221. 2. Ettetpiypa, A.; EpAKe, u). Зааііпу ргорепіез апА 5ішАіШіге ой аегоде!5. U. ZoI-Sbe! 5AI.

TeApNpoi. 1997, 8, 781-788. 3. pEre:/Lymly.zrhipdegrgoiezziopa!. Av/ep/gyemivm-oi-aegode!I-bazeA-taiegia!5-ip-rioteAIiAai!- arriiAayop5/11742122. 4. pyrz poured. taAri.Aot/oigttai/de!5/5redia! izzyev/ayehode!v. 5. translated //uzeozuya. tsalirtatgy/riopitiApa-go!-myatipim-ia-miatiporo Aibpin-5roiShk-432.piti. 6. Gubsky Yu. I. Biological chemistry: Textbook. Kyiv-Ternopil: Ukrmedknyga, 2000. - 508 p. 7. per://teAiA!yv5.yAo2.peyipAeh/liAii romia2gok/0-24. (510)

Claims (1)

UTILITY MODEL FORMULA An airgel bandage containing a base, which differs in that the base consists of an airgel part based on silicon dioxide, inside of which there are silicone channels (tubes) through which vitamin B3 is administered, and on the outer surface of the bandage there is resistive Mr2gO5 gas sensor.