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Porous spherical calcium phosphate filling material and preparing method thereof

A technology of calcium phosphate bone and filling material, applied in medical science, prosthesis, etc., can solve the problems of unfavorable material degradation of bone tissue ingrowth, irregular shape of calcium phosphate particles, dense particles or low porosity, etc. Conducive to the supply of nutrients and oxygen, the circulation of body fluids, and the effect of meeting clinical needs

Active Publication Date: 2015-04-29
SICHUAN UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Using the mold method to prepare calcium phosphate bone filling materials with different regular shapes requires the design of molds with different regular shapes, and the processing technology is complicated. At the same time, the bone filling materials prepared by the mold method generally have low porosity, which is not conducive to the degradation of the material when implanted in the body. and bone ingrowth, slower rate of bone repair
The crushing method mainly produces granular bone filling materials by crushing block materials, so the obtained calcium phosphate particles have irregular shapes and poor particle uniformity. In clinical practice, bone filling materials with more uniform particle sizes are needed to achieve good results. bone repair effect
The granulation method is mainly to pass the powder material through a granulation machine to obtain a granular bone filling material. Although the shape of the granular bone filling material prepared by the granulation method is relatively regular, and the particle size can be controlled, the internal structure of the obtained particles is dense. Or the porosity is low, there is no porous through-through structure, and the bone repair ability is poor
In addition, the grain size of the calcium phosphate ceramics prepared in the prior art is mostly micron-scale, and the grain size is too large and uncontrollable. However, the research results show (Materials Science and Engineering R 2010; 70:225-242), Calcium phosphate ceramics with nanostructured grains have higher biological activity than calcium phosphate ceramics with micronized grains

Method used

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  • Porous spherical calcium phosphate filling material and preparing method thereof
  • Porous spherical calcium phosphate filling material and preparing method thereof
  • Porous spherical calcium phosphate filling material and preparing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 3

[0031] The hydroxyapatite (calcium, phosphorus atomic molar ratio Ca / P=1.67) slurry used in Example 3 was prepared by liquid phase co-precipitation method, and the specific steps were as follows: Measure 160 mL of calcium nitrate solution with a concentration of 1.0 mol / L In a beaker, control the reaction temperature at 60°C, add ammonia water dropwise to the calcium nitrate solution under stirring to adjust the pH value to 9.0, and at the same time add dropwise 100 mL of diammonium hydrogen phosphate solution with a concentration of 1mol / L and ammonia water to make the reaction system The pH value was maintained at 9.0. After the dropwise addition, continue to stir for 30 minutes, and then let it stand for 24 hours to form a hydroxyapatite slurry. The hydroxyapatite slurry is centrifugally cleaned to a pH value of 7.0 and a concentration of 1 g / mL. The SEM photo is as follows: figure 1 shown. Hydroxyapatite (Ca / P=1.67) slurries with a concentration of 0.5 g / mL and 2 g / mL wer...

Embodiment 1

[0032] Embodiment 1, embodiment 2, embodiment 6, embodiment 7, embodiment 8 used hydroxyapatite (calcium, phosphorus atom molar ratio Ca / P=1.67) powder, embodiment 4 used nanostructure tricalcium phosphate (calcium, phosphorus atom molar ratio Ca / P=1.50) powder, the biphasic calcium phosphate used in embodiment 5 (calcium, phosphorus atom molar ratio Ca / P=1.60, HA:TCP=6:4) powder are commercially available sale.

[0033] The particle size of the calcium phosphate in the calcium phosphate powder or the calcium phosphate slurry is ≤100nm.

[0034] The microwave frequency of the microwave sintering furnace is 2400-2500MHz, the central wavelength is 0.122m, and the power of the microwave sintering furnace is 2KW, 4KW, 6KW, which is adjustable.

Embodiment 1

[0036] The preparation process of the porous spherical calcium phosphate bone filling material in this example is as follows:

[0037](1) 5 g of hydroxyapatite (calcium, phosphorus atomic molar ratio Ca / P=1.67) powder with nanostructure, 10 mL of sodium alginate aqueous solution with a mass concentration of 6%, and 2 mL of polyethylene glycol with a mass concentration of 6% Glycol solution (adhesive) and 4mL deionized water are mixed uniformly, then add 5mL hydrogen peroxide with a volume fraction of 30%, and mix uniformly to obtain a mixed slurry;

[0038] (2) The mixed slurry obtained in step (1) is evenly added dropwise to the calcium chloride solution with a mass concentration of 5% with a peristaltic pump to form composite gel microspheres. The amount of the calcium chloride solution can form The composite gel microspheres are completely submerged to the limit. After the dropwise addition, the composite gel microspheres formed continue to be soaked in the calcium chloride...

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Abstract

A preparing method of a porous calcium phosphate filling material sequentially comprises the following technical steps: 1, uniformly mixing 5-15 parts by mass of calcium phosphate powder or 10-50 parts by volume of calcium phosphate slurry, 10-50 parts by volume of a sodium alginate water solution, 1-10 parts by volume of an adhesive and 1-20 parts by volume of deionized water, then adding 1-5 parts by volume of hydrogen peroxide or 1-50 parts by mass of a solid pore forming agent, and carrying out uniform mixing to obtain mixed slurry; 2, dripping the mixed slurry obtained in step 1 to a soluble calcium salt solution with 1-10% mass concentration to form a complex gel microsphere, and then curing, washing and drying the complex gel microsphere; 3, presintering the complex gel microsphere obtained in step 2 at 500-800 DEG C for 1-5 hours, then sintering at 900-1200 DEG C, and cooling to a room temperature after finishing sintering. The calcium phosphate filling material prepared according to the method is adjustable in grain size and controllable in crystalline grain size, and accordingly, is convenient to implant in clinic.

Description

technical field [0001] The invention belongs to the technical field of biological material preparation, in particular to a porous spherical calcium phosphate bone filling material and a preparation method thereof. Background technique [0002] With the aging population, bone defects caused by osteoporosis, congenital bone disease or infection, bone tumor and accidental injury are increasing day by day, which has become a major problem affecting human life and health, and the demand for bone filling materials is also increasing day by day. [0003] Calcium phosphate bioceramics is a bone filling material widely used clinically at present, but the existing granular calcium phosphate bone filling materials are usually formed by mold method, crushing method or granulation method. Using the mold method to prepare calcium phosphate bone filling materials with different regular shapes requires the design of molds with different regular shapes, and the processing technology is compl...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61L27/56A61L27/12A61L27/20
Inventor 肖玉梅李向锋朱向东樊渝江张兴栋
Owner SICHUAN UNIV
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