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Preparation method for medical gauze for promoting healing

A technology of gauze and preparation steps, which is applied in the field of preparation of medical gauze for promoting healing, can solve the problems of not being able to promote granulation growth and skin regeneration, and not be able to effectively block the invasion of bacteria and harmful particles, so as to shorten the wound healing time and achieve the effect of wound healing Excellent and safe to use

Inactive Publication Date: 2017-02-22
CHANGZHOU DINGRI ENVIRONMENTAL PROTECTION TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem mainly solved by the present invention: aiming at the defects that the current traditional medical gauze cannot effectively block the invasion of bacteria and harmful particles, cannot promote granulation growth and skin regeneration, accelerate healing, and reduce scars, the present invention firstly prepares magnetic far-infrared ceramics, Soak micro-rot in biogas liquid rich in microorganisms, freeze and pulverize with liquid nitrogen, modify its surface with natural resin peach gum, add natural resin particles on the surface, improve the compatibility between powder and polyester matrix, and then The magnetic far-infrared polyester fiber is prepared by melt spinning, and finally woven into medical gauze. The invention utilizes the gauze to simultaneously emit far-infrared rays and magnetic field lines, and synergistically promotes blood vessel expansion in wound tissue, accelerates metabolism, and promotes blood microcirculation and interstitial inflammation. The absorption of exudate can promote the growth of granulation and epithelial cells, thereby promoting wound healing, and has excellent application prospects

Method used

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Examples

Experimental program
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Effect test

example 1

[0019] In parts by weight, weigh 10 parts of silicon dioxide, 5 parts of aluminum oxide, 10 parts of manganese dioxide, 10 parts of dichromium trioxide, 5 parts of titanium dioxide, 5 parts of zirconium dioxide, 10 parts of ferric oxide and 40 parts 1 part of ferroferric oxide was put into a ball mill and ground for 1 hour to obtain a mixed powder; the above mixed powder was mixed with deionized water of equal mass to obtain a slurry, which was injected into a stainless steel mold, pressed with 8MPa pressure for 5 minutes, and then put into a In a Furnace, heat up to 1100°C and heat-preserve and calcinate for 24 hours to obtain magnetic far-infrared ceramics; soak the above-mentioned magnetic far-infrared ceramics in biogas liquid in a biogas tank for 10 hours, take them out, and immediately spray and freeze them with liquid nitrogen for 2 minutes, and the freezing is over. Finally, put it into a hydraulic crusher for crushing for 10 minutes, then put the crushed crumbs into an...

example 2

[0022]In parts by weight, weigh 15 parts of silicon dioxide, 10 parts of aluminum oxide, 20 parts of manganese dioxide, 20 parts of dichromium trioxide, 10 parts of titanium dioxide, 10 parts of zirconium dioxide, 20 parts of ferric oxide and 50 parts 2 parts of ferroferric oxide were put into a ball mill and ground for 2 hours to obtain mixed powder; the above mixed powder was mixed with deionized water of equal mass to obtain a slurry, which was poured into a stainless steel mold, pressed with 10MPa pressure for 10min, and then put into a In a Furnace, heat up to 1200°C and heat-preserve and calcinate for 36 hours to obtain magnetic far-infrared ceramics; soak the above-mentioned magnetic far-infrared ceramics in biogas liquid in a biogas tank for 12 hours, take them out, and immediately spray and freeze them with liquid nitrogen for 3 minutes, and the freezing is over. Finally, put it into a hydraulic crusher for crushing for 20 minutes, then put the crushed crumbs into an a...

example 3

[0025] In parts by weight, weigh 13 parts of silicon dioxide, 7 parts of aluminum oxide, 15 parts of manganese dioxide, 15 parts of dichromium trioxide, 7 parts of titanium dioxide, 7 parts of zirconium dioxide, 15 parts of ferric oxide and 45 parts Parts of ferroferric oxide were put into a ball mill and ground for 1.5 hours to obtain a mixed powder; the above mixed powder was mixed with deionized water of equal mass to obtain a slurry, which was poured into a stainless steel mold, pressed with a pressure of 9 MPa for 7 minutes, and then put into In a muffle furnace, heat up to 1150°C and heat-preserve and calcinate for 29 hours to obtain magnetic far-infrared ceramics; soak the magnetic far-infrared ceramics obtained above with biogas liquid in a biogas tank for 11 hours, take them out, and immediately spray and freeze them with liquid nitrogen for 2.5 minutes. After freezing, put it into a hydraulic crusher for crushing for 15 minutes, then put the crushed crumbs into an air...

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Abstract

The invention discloses a preparation method for medical gauze for promoting healing and belongs to the technical field of medical supplies. The method comprises the following steps: firstly, preparing a magnetic far infrared ceramic; soaking and slightly corroding with marsh gas rich in microorganisms; performing liquid nitrogen freezing and crushing; modifying the surface with natural resin peach gum; adding natural resin grains on the surface, thereby increasing the compatibility between the powder and the polyester matrix; performing melt spinning, thereby acquiring a magnetic far infrared polyester fiber; and finally, weaving into the medical gauze. According to the invention, the medical gauze is utilized to simultaneously emit far infrared rays and magnetic lines which can synergistically promote the wound tissue angiectasis, quicken metabolism, promote blood microcirculation and absorption of inflammatory exudates between tissues and accelerate growth of granulation and epithelial cells, so that the medical gauze can promote the wound healing and has excellent application prospects.

Description

technical field [0001] The invention discloses a preparation method of medical gauze for promoting healing, which belongs to the technical field of medical supplies. Background technique [0002] Traditional trauma dressings are mostly pure cotton products, which are cooked with lye at high temperature, rinsed, and dried to obtain degreased gauze. In clinical practice, this kind of degreased gauze is used to bandage the wound of the wounded. It absorbs, dries and hardens in a short period of time, and becomes a stiff plate, which makes the gauze adhere to the new granulation. These plates not only compress the wound surface and affect tissue growth, but also destroy the healing wound when changing the dressing, causing secondary trauma and adding new pain to the wounded. [0003] At present, the materials used to load antibacterial drugs to treat wounds mainly include: chitosan, alginate, gelatin, etc., because chitosan and its derivatives have good hemostatic, analgesic an...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61L15/44A61L15/18A61L15/28A61L15/26A61F13/00A61N5/06A61N2/08
CPCA61L15/44A61F13/00987A61L15/18A61L15/26A61L15/28A61N2/002A61N2/004A61N2/06A61N5/06A61N2005/0645A61N2005/066C08L5/00C08L67/02
Inventor 周丽花张晶陆娜
Owner CHANGZHOU DINGRI ENVIRONMENTAL PROTECTION TECH
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