Ionic crosslinked PVA (polyvinyl alcohol) mandruka and preparation method and application thereof

A technology of porous sponge and ion cross-linking, applied in the field of ion-cross-linked PVA porous sponge and its preparation, can solve the problems of weak intermolecular force, poor mechanical properties, human body harm, etc., and achieve high biological safety and reduce cross-linking. Infection, the effect of improving utilization efficiency

Inactive Publication Date: 2013-05-08
GUANGZHOU MEDICAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The disadvantage is that the intermolecular force is relatively weak and the stability of the gel is poor.
The disadvantage is that chemical components such as aldehydes, inorganic acids and epichlorohydrin are added, and the residual components are difficult to completely remove, which may be harmful to the human body and affect the biosafety performance of the final product to a certain extent
This method is also divided into two types, one is the PVA hydrogel that does not add cross-linking agent radiation cross-linking, the hydrogel biosafety obtained in this way is also better, but the mechanical properties are very poor; the second is adding PVA gel obtained by radiation crosslinking of crosslinking agent, this method has similar advantages and disadvantages to chemical method
[0009] In summary, PVA hydrogels prepared by chemical methods (including adding radiation cross-linking agents) have residual components that are difficult to completely remove, and there are biological safety issues in the use of human nasal cavity hemostasis.
The PVA hydrogel prepared by the conventional physical freezing-thawing method has good biological safety, but has the problem of poor mechanical properties

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040] An ionically cross-linked PVA porous sponge, prepared from the following components by weight percentage: 5-15% polyvinyl alcohol, 10-20% absolute ethanol, 40-80% deionized water, and 10% ion cross-linking agent -30%, foaming agent 1-10%, inorganic acid 1-10%. The degree of alcoholysis of polyvinyl alcohol in the present embodiment is 95-99%, the degree of polymerization of polyvinyl alcohol is 2000-20000, the ionic cross-linking agent is calcium gluconate, the glucose segment and the PVA molecule are entangled with each other, formed by calcium ions The crosslinking point, the foaming agent is sodium bicarbonate, and the inorganic acid is citric acid.

[0041] The polyvinyl alcohol in the present embodiment is 10g, absolute ethanol is 10g, deionized water is 70g, then polyvinyl alcohol is dissolved in the mixed solvent of absolute ethanol and deionized water, temperature is 50 ℃, stirs 90 minutes to The polyvinyl alcohol is completely dissolved; then add 6g of calcium...

Embodiment 2

[0046] An ionically cross-linked PVA porous sponge, prepared from the following components by weight percentage: 5-15% polyvinyl alcohol, 10-20% absolute ethanol, 40-80% deionized water, and 10% ion cross-linking agent -30%, foaming agent 1-10%, inorganic acid 1-10%. The degree of alcoholysis of polyvinyl alcohol in the present embodiment is 95-99%, the degree of polymerization of polyvinyl alcohol is 2000-20000, the ionic cross-linking agent is calcium gluconate, the glucose segment and the PVA molecule are entangled with each other, formed by calcium ions The crosslinking point, the foaming agent is sodium bicarbonate, and the inorganic acid is citric acid.

[0047] The polyvinyl alcohol in the present embodiment is 15g, absolute ethanol is 15g, deionized water is 56g, then polyvinyl alcohol is dissolved in the mixed solvent of absolute ethanol and deionized water, temperature 80 ℃, stir 20 minutes to The polyvinyl alcohol is completely dissolved; then add 4g of calcium glu...

Embodiment 3

[0053] An ionically cross-linked PVA porous sponge, prepared from the following components by weight percentage: 5-15% polyvinyl alcohol, 10-20% absolute ethanol, 40-80% deionized water, and 10% ion cross-linking agent -30%, foaming agent 1-10%, inorganic acid 1-10%. The degree of alcoholysis of polyvinyl alcohol in the present embodiment is 95-99%, the degree of polymerization of polyvinyl alcohol is 2000-20000, the ionic cross-linking agent is calcium gluconate, the glucose segment and the PVA molecule are entangled with each other, formed by calcium ions The crosslinking point, the foaming agent is sodium bicarbonate, and the inorganic acid is citric acid.

[0054] The polyvinyl alcohol in the present embodiment is 10g, absolute ethanol is 20g, deionized water is 54g, then polyvinyl alcohol is dissolved in the mixed solvent of absolute ethanol and deionized water, temperature is 90 ℃, stirs 60 minutes to The polyvinyl alcohol is completely dissolved; then add 10g of calciu...

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Abstract

The invention provides ionic crosslinked PVA (polyvinyl alcohol) mandruka which is prepared from the following components in percentage by weight: 5-15% of PVA, 10-20% of absolute ethyl alcohol, 40-80% of deionized water, 10-30% of ionic crosslinking agent, 1-10% of foaming agent and 1-10% of inorganic acid. The invention also provides a preparation method of the ionic crosslinked PVA mandruka. The invention further provides application of the ionic crosslinked PVA mandruka. The preparation method provided by the invention solves the problem that harmful substances such as acid, aldehyde and the like are left in PVA hydrogel by a chemical crosslinking method in the prior art; the ionic crosslinked PVA mandruka has the characteristics of convenience in use, high biosafety performance, good hemostatic effect, no adhesion, good mechanical performance and the like, and is applicable to the patients of all ages with different nasal cavity sizes; and moreover, the comfort of the patient is greatly improved, the convenience in doctor operation is enhanced, and the risk of cross infection is reduced.

Description

technical field [0001] The invention belongs to the field of biomedical materials, and relates to an ion-crosslinked PVA porous sponge, a preparation method and application thereof. Background technique [0002] Hydrogel (Gel) refers to a three-dimensional network structure polymer containing a large number of solvents. Its network consists of a macromolecular backbone and contains hydrophilic (polar) groups and hydrophobic (non-polar) groups, or has The side chain composition of the dissociative group. [0003] According to the different bonding modes of hydrogel network, it can be divided into physical gel and chemical gel. Physical gel is formed by physical forces such as electrostatic interaction, hydrogen bonding, chain entanglement, etc. This kind of gel is non-permanent and can be transformed into a solution by heating the gel, so it is also called pseudogel or thermoreversible gel. Chemical gel is a three-dimensional network polymer formed by cross-linking chemica...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L29/04C08K5/098C08K5/092C08J3/24C08J3/075C08J9/08C08J7/04A61L31/04A61L31/16A61B17/24A61M31/00
Inventor 阳范文陈晓明朱继翔彭晔田秀梅
Owner GUANGZHOU MEDICAL UNIV
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