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Preparation method of porous hydroxyapatite and strontium oxide composite bone repair material

A technology of hydroxyapatite and strontium oxide, which is used in the manufacture of tools, ceramic products, applications, etc., can solve the problem that the porous HA bone repair material cannot fully meet the requirements of clinical use, the degradation rate of the bone tissue crawling replacement rate does not match, and the reduction Material biocompatibility and osteogenic activity, etc., to achieve good osteogenic induction ability, improve osteogenic induction ability, and controllable pore parameters.

Active Publication Date: 2016-06-29
KUNMING UNIV OF SCI & TECH +1
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Problems solved by technology

However, the above method has the following problems: (1) In order to improve the mechanical properties of the material and obtain a stable porous structure, the preparation process of the above method often requires a long-term high-temperature sintering process for the material
Excessively high sintering temperature and long holding time will cause partial decomposition of HA. Because the decomposition products of HA are inconsistent with the degradation rate of HA, the degradation rate of the material does not match the crawling replacement rate of bone tissue, resulting in bone defects of the material. (2) In the process of preparing materials by the above method, binders (such as polyvinyl alcohol, sodium silicate, etc.) need to be added. Although most of the binders will decompose and volatilize during high-temperature sintering, there are still A small amount of binder remains in the material
These residual binders such as sodium silicate will not degrade, will affect the ingrowth of microvessels and bone tissue, and reduce the biocompatibility and osteogenic activity of the material, while polyvinyl alcohol has been proved to be toxic to liver and gallbladder tissue; (3) The above method is easy to introduce impurities in the process of preparing porous HA materials, which will adversely affect the biocompatibility of materials
Therefore, the porous HA bone repair material prepared by the above method cannot fully meet the requirements of clinical use, and it is necessary to find a new preparation method to overcome the problems existing in the above preparation method
[0005] In addition to many deficiencies in the preparation technology of porous HA-based bone repair materials, it has also been found in clinical experiments that although it has a certain osteogenic induction activity, its ability to promote osteogenesis and inhibit osteoclastosis needs to be improved.

Method used

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  • Preparation method of porous hydroxyapatite and strontium oxide composite bone repair material
  • Preparation method of porous hydroxyapatite and strontium oxide composite bone repair material
  • Preparation method of porous hydroxyapatite and strontium oxide composite bone repair material

Examples

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Effect test

Embodiment 1

[0036] In this example, the process steps of preparing porous HA / SrO composite bone repair material by spark plasma sintering are:

[0037] (1) According to the mass percentage of 99% hydroxyapatite and 1% strontium oxide, weigh hydroxyapatite with a purity of ≥99.7% and an average particle size of 100nm and strontium oxide powder with a purity of ≥99.7% and an average particle size of 5μm ;

[0038] (2) Put the hydroxyapatite powder and strontium oxide powder weighed in step (1) into the agate ball milling tank of the ball mill, add agate balls at a ball-to-material ratio of 3:1, then add absolute ethanol, and then ball mill and mix powder for 3 hours, and grind the slurry after ball milling to obtain mixed powder A;

[0039] (3) According to the mass percentage of mixed powder A 70% and ammonium bicarbonate 30% obtained in step (2), weigh mixed powder A and ammonium bicarbonate powder whose purity is analytically pure and whose average particle size is 300 μm;

[0040] (4) P...

Embodiment 2

[0046] In this example, the process steps of preparing porous HA / SrO composite bone repair material by spark plasma sintering are:

[0047] (1) According to the mass percentage of 90% hydroxyapatite and 10% strontium oxide, respectively weigh hydroxyapatite with a purity of 99.7% and an average particle size of 100nm and strontium oxide powder with a purity of ≥99.7% and an average particle size of 10μm ;

[0048] (2) Put the hydroxyapatite powder and strontium oxide powder weighed in step (1) into the agate ball milling tank of the ball mill, add agate balls at a ball-to-material ratio of 3:1, then add absolute ethanol, and then ball mill and mix powder for 3 hours, and grind the slurry after ball milling to obtain mixed powder A;

[0049] (3) According to the mass percentage of mixed powder A50% and ammonium bicarbonate 50% obtained in step (2), weigh mixed powder A and ammonium bicarbonate powder whose purity is analytically pure and has an average particle size of 400 μm;...

Embodiment 3

[0055] In this example, the process steps of preparing porous HA / SrO composite bone repair material by spark plasma sintering are:

[0056] (1) According to the mass percentage of 95% hydroxyapatite and 5% strontium oxide, weigh hydroxyapatite with a purity of ≥99.7% and an average particle size of 80nm and strontium oxide powder with a purity of ≥99.7% and an average particle size of 15μm ;

[0057] (2) Put the hydroxyapatite powder and strontium oxide powder weighed in step (1) into the agate ball milling tank of the ball mill, add agate balls at a ball-to-material ratio of 3:1, then add absolute ethanol, and then ball mill and mix Powder 5h, grind the slurry after ball milling after drying to obtain mixed powder A;

[0058] (3) According to the mass percentage of mixed powder A 40% and ammonium bicarbonate 60% obtained in step (2), weigh mixed powder A and ammonium bicarbonate powder whose purity is analytically pure and has an average particle size of 500 μm;

[0059] (4...

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Abstract

The invention relates to a preparation method of a porous hydroxyapatite and strontium oxide composite bone repair material, and belongs to the technical field of biomedical material preparation. The method comprises the steps that 88%-99% by mass of hydroxyapatite and 12%-1% by mass of strontium oxide ceramic powder are weighed and ball-milled, and mixed powder is obtained; 40%-70% by mass of the mixed powder and 60%-30% by mass of ammonium bicarbonate pore-forming agent powder are mixed to be uniform and mechanically pressed into a block pressed blank; the pressed blank is put into a graphite mold, then the graphite mold is put into a discharging plasma sintering furnace for sintering, the sintered mold is naturally cooled to room temperature along with the furnace, demolding is conducted, and the porous hydroxyapatite and strontium oxide composite bone repair material is obtained. According to the porous hydroxyapatite and strontium oxide composite bone repair material prepared through the preparation method, any binding agent and templating agent do not need to be added, the components are pure, harmful impurities do not exist, the porosity is controllable between 20% and 50%, the degradation rate is appropriate, good osteogenic induction capacity is achieved, the technology is simple and easy to carry out, and the porous hydroxyapatite and strontium oxide composite bone repair material can be used for a bone defect repair material for hard tissue regeneration or reconstruction of organisms.

Description

technical field [0001] The invention relates to a preparation method of a porous hydroxyapatite / strontium oxide composite bone repair material, belonging to the technical field of preparation of biomedical materials. Background technique [0002] In the clinical medical process, it is often encountered in the reconstruction or regeneration of bone defects caused by disease or trauma, which requires a large number of bone defect repair materials. At present, the most widely used bone defect repair materials in clinical practice are autologous bone and allogeneic bone. Among them, autologous bone is the most ideal material for bone defect repair, but there are problems such as insufficient sources and complications in the donor area, which limit its application; and Allograft bone has problems such as graft rejection, disease transmission, and long fusion time. Therefore, there is a need to research and develop new artificial bone repair materials to meet a large number of cl...

Claims

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Application Information

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IPC IPC(8): C04B38/02C04B35/447C04B35/64B28B7/24A61L27/12A61L27/54A61L27/56
CPCA61L27/12A61L27/54A61L27/56C04B35/447C04B35/64C04B38/02B28B7/24A61L2430/02A61L2300/102C04B2235/5454C04B2235/5436C04B2235/666C04B2235/6581C04B2235/656C04B2201/50C04B2235/3213C04B38/0074C04B38/0051
Inventor 张玉勤孟增东王成健罗丽琳秦利波刘伟
Owner KUNMING UNIV OF SCI & TECH
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