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Injection moldable bone repair composite material and preparation method thereof

A composite material and injection molding technology, which is applied in the field of medical composite materials, can solve the problems of uncontrollable degradation rate, uncontrollable degradation rate, and inability to provide mechanical strength of calcium sulfate bone substitutes, so as to achieve adjustable degradation rate and reduce medical expenses , fewer complications

Inactive Publication Date: 2010-06-02
SICHUAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the degradation rate of injectable calcium sulfate bone substitutes cannot be adjusted, and the absorption rate in the body is relatively fast. It is not suitable for repairing large bone defects and bone defects with long healing time, and is generally not used for the treatment of diaphysis fracture defects. , not to use it instead of internal fixation or external fixation
[0006] Although injectable calcium phosphate has good biocompatibility and osteoconductivity, and can be freely plasticized, its shortcomings of high brittleness, slow degradation, uncontrollable degradation rate, and insufficient mechanical properties also limit its clinical application.
Some gel-type injectable bone repair materials can hardly provide any mechanical strength

Method used

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  • Injection moldable bone repair composite material and preparation method thereof
  • Injection moldable bone repair composite material and preparation method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0022] Take 105g, 11g, 4g, and 3g of ε-aminocaproic acid, glycine, phenylalanine, and proline respectively, add them to a 250ml three-necked bottle, add 50ml of distilled water, protect with nitrogen, stir and heat up to 180°C to 200°C °C for dehydration. After the dehydration is completed, continue to heat up to 210°C to melt, then heat up to 220°C, carry out prepolymerization for one hour, add 89g of calcium sulfate dihydrate, continue to react at 220°C to 250°C for 2 to 3 hours, and then stop to obtain calcium sulfate 40% matrix composite material.

[0023] Crush the above matrix composite material to 120 mesh to 200 mesh, take 50g of it, add 54g of α-calcium sulfate hemihydrate, compound and prepare composite material powder. Use 60ml of sodium chloride injection to reconcile the composite material powder into a paste to obtain an injectable rapid prototyping calcium sulfate / quaternary amino acid copolymer composite material with a calcium sulfate content of 70%, and the ...

Embodiment 2

[0025] Take 105g, 11g, 4g, and 3g of ε-aminocaproic acid, glycine, phenylalanine, and proline respectively, add them to a 250ml three-necked bottle, add 50ml of distilled water, protect with nitrogen, stir and heat up to 180°C to 200°C °C for dehydration. After the dehydration is completed, continue to heat up to 210°C to melt, then heat up to 220°C, carry out prepolymerization for one hour, add 89g of calcium sulfate dihydrate, continue to react at 220°C to 250°C for 2 to 3 hours, and then stop to obtain calcium sulfate 40% matrix composite material.

[0026] Crush the above matrix composite material to 120 mesh to 200 mesh, take 50g of it, add 107g of α-calcium sulfate hemihydrate, compound and prepare composite material powder. Use 94ml of sodium chloride injection to reconcile the composite material powder into a paste to obtain an injectable rapid prototyping calcium sulfate / quaternary amino acid copolymer composite material with a calcium sulfate content of 80%, and the...

Embodiment 3

[0028] Take 105g, 11g, 4g, and 3g of ε-aminocaproic acid, glycine, phenylalanine, and proline respectively, add them to a 250ml three-necked bottle, add 50ml of distilled water, protect with nitrogen, stir and heat up to 180°C to 200°C °C for dehydration. After the dehydration is completed, continue to heat up to 210°C to melt, then heat up to 220°C, carry out prepolymerization for one hour, add 89g of calcium sulfate dihydrate, continue to react at 220°C to 250°C for 2 to 3 hours, and then stop to obtain calcium sulfate 40% matrix composite material.

[0029] Crush the above matrix composite material to 120 mesh to 200 mesh, take 50g of it, and take another 267g of α-calcium sulfate hemihydrate, compound and prepare composite material powder. Use 190ml of glucose injection to reconcile the composite material powder into a paste to obtain an injectable rapid prototyping calcium sulfate / quaternary amino acid copolymer composite material with a calcium sulfate content of 90%, a...

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Abstract

The invention relates to an injection moldable bone repair composite material and a preparation method and a using method thereof. The composite material is a powder material consisting of a copolymer of multiple amino acids and a sulfate component of calcium, the sulfate component of the calcium accounts for 60-95% of total weight of the component material, and the balance is the copolymer of the multiple amino acids. The sulfate component of the calcium comprises alpha-hemihydrated calcium sulfate which accounts for 15%-60% of the total weight of the composite material and the balance of other sulfates of the calcium. The copolymer of the multiple amino acids is formed by polymerizing epsilon-aminocaproic acid and at least two types of other amino acids, and the molar ratio of each amino acid in the other amino acids is not less than 1% of the total weight of the amino acids. When in preparation, an intermediate parent body is obtained by in-situ polymerization and composition of other sulfates of the calcium and the amino acid monomers under inert gas protection and heating, and the composite material is prepared by smashing and then being composed with the alpha-hemihydrated calcium sulfate. The composite material powder is mixed with curing liquid, and then the composite material can be used by injection. The composite material can be fast molded after the injection and has the strength which is equivalent to that of cancellous bone, good biocompatibility and adjustable degradation speed, thereby being applicable to fixation and repair of clinical orthopedic complicated and irregular traumas.

Description

technical field [0001] The invention relates to a medical composite material which can be used as a bone tissue repair and reconstruction material, in particular to a bone repair composite material which can be used for injection and rapid prototyping and its preparation and use method. Background technique [0002] Due to trauma, infection, tumor or congenital diseases and other reasons, it can cause bone defects or atrophy in people of all ages, especially the elderly, which will cause serious dysfunction and deformity. Although the use of autologous bone or allogeneic bone has its own advantages in the clinical operation of bone defect and osteonecrosis repair, there are also many problems and difficulties. Therefore, people have been looking for other substitutes for bone repair / reconstruction. [0003] Most of the bone repair materials currently on the market, including natural polymer materials, synthetic polymer materials, inorganic materials and composite materials, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61L27/42A61L27/58
Inventor 严永刚李鸿曹侠吕国玉杨爱萍唐贤华史芳罗琳
Owner SICHUAN UNIV
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