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Micro/nano-fiber bone repairing scaffold and production method thereof

A micro-nano fiber and bone repair technology, applied in fiber treatment, spinning solution preparation, medical science and other directions, can solve the problem of reduced repair effect, and achieve the effect of being conducive to repair, high activity, and optimized release conditions

Active Publication Date: 2012-09-19
MEDPRIN REGENERATIVE MEDICAL TECH +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0011] The purpose of the present invention is to overcome the deficiencies of the prior art and provide a micro-nanofiber bone repair scaffold, which contains composite particles with a medical biodegradable inorganic salt as the shell, and the composite particles are embedded and fixed In the fiber, and can be loaded with growth factors and / or drugs, it can improve the bone repair performance of bone repair materials, in addition, by wrapping polymer particles or bone-like structure biomimetic active microstructures prepared from polymer materials alone The medical degradable inorganic salt shell on the outer surface of the ball solves the disadvantage that the polymer particles made of polymer materials or the biomimetic active microspheres with bone-like structure on the microscopic scale dissolve in the electrospinning solution, resulting in a decrease in the repair effect

Method used

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  • Micro/nano-fiber bone repairing scaffold and production method thereof
  • Micro/nano-fiber bone repairing scaffold and production method thereof
  • Micro/nano-fiber bone repairing scaffold and production method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0062] Preparation of the internal oil phase: Weigh 10 μg of growth factor BMP-2 and fully dissolve it in 1 g of aqueous solution; weigh 0.5 g of polylactic acid and dissolve it in 10 g of oil phase with a volume ratio of dichloromethane to acetone of 2 / 1. Mix the two solutions of water phase and oil phase to form a mixture, and fully emulsify with a high-speed homogenizer for 1 min. Add the emulsion to 50 g aqueous solution of polyethylene glycol containing 0.3 g, slowly add and ultrasonically disperse, and then stir at a low speed for 3 hours in an environment of 25° C. to volatilize the organic solvent to obtain polylactic acid particles containing growth factors.

[0063] Put the polylactic acid particles into a 25% isopropanol mixed aqueous solution containing 350 mM sodium chloride, 15 mM calcium chloride, 10 mM disodium hydrogen phosphate, 20 mM sodium bicarbonate, and 15 mM magnesium chloride. After standing for 24 hours, a layer of calcium phosphate shell was formed o...

Embodiment 2

[0067] a, the preparation sodium dodecyl sulfonate content is 20mM, the solution that chitosan or gelatin content is 0.15g / L, adjusts pH value to 10.5, obtains solution A;

[0068] b. Prepare a calcium salt solution with a calcium ion concentration of 500 mM, adjust the pH value to 10.5, and obtain solution B;

[0069] c. Prepare a sodium dihydrogen phosphate solution with a sodium dihydrogen phosphate content of 500 mM, add 0.3 times the relative volume of isopropanol, adjust the pH value to 10.5, and obtain solution C;

[0070] d. According to the volume ratio A:B:C=2:1:1, add solution B into solution A, after stirring evenly, slowly add solution C dropwise, the addition speed of solution C is 1ml / min, the dropwise addition process The middle stirring speed is controlled to 500rpm until no more precipitation occurs, and the precipitation is polymer particles with an intercalation structure.

[0071] Put the polymer particles with intercalation structure into sodium ...

Embodiment 3

[0075] a, preparing sodium dodecyl sulfonate content is 20mM, chitosan or gelatin content is 0.15g / L solution, and add the growth factor of BMP-7, adjust pH value to 10.5, obtain solution A;

[0076] b. Prepare a calcium salt solution with a calcium ion concentration of 500 mM, adjust the pH value to 10.5, and obtain solution B;

[0077] c. Prepare a sodium dihydrogen phosphate solution with a sodium dihydrogen phosphate content of 500 mM, add 0.3 times the relative volume of isopropanol, adjust the pH value to 10.5, and obtain solution C;

[0078] d. According to the volume ratio A:B:C=2:1:1, add solution B into solution A, after stirring evenly, slowly add solution C dropwise, the addition speed of solution C is 1ml / min, the dropwise addition process The middle stirring speed is controlled to 500rpm until no more precipitation occurs, and the precipitation is polymer particles with an intercalation structure.

[0079] Put the polymer particles with intercalation stru...

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Abstract

The invention discloses a micro / nano-fiber bone repairing scaffold. The scaffold is obtained by adding composite particles to degradable polymers of engineering scaffolds for bone repair and producing micro / nano-fibers. The composite particles are provided with a core-shell structure, the core is a polymer particle prepared by high polymer materials or a bionic active microsphere similar to a bone structure in a micro-scale, the shell is medical biodegradable inorganic salt, and the bionic active microsphere similar to the bone structure in the micro-scale is composed of high polymer materials and inorganic salt. The micro / nano-fiber bone repairing scaffold has high activity and is capable of better absorbing and inducing cells to grow; the medical biodegradable water insoluble inorganic salt shell can protect collagen, growth factors and / or medicine in the composite particles, and repair of bone tissue is facilitated due to the bionic active microsphere similar to the bone structure in the micro-scale with an inorganic-organic intercalated structure and a human body simulation structure.

Description

technical field [0001] The invention relates to a tissue repair material, in particular to a micro-nano fiber bone repair bracket embedded with composite particles and a preparation method thereof. Background technique [0002] Bone defects due to disease and trauma are a common orthopedic problem. Autologous bone, allogeneic bone and artificial bone filling tissue engineering materials are three types of materials commonly used in bone repair surgery. Autologous bone has a good repair effect without rejection, but autologous bone filling needs to be collected from healthy bone tissue, which has the disadvantages of damage and insufficient bone mass. Especially when large-scale bone filling is required, it is difficult to harvest autogenous bone of appropriate size and shape. In the prior art, natural bovine bone or other animal bones are used as materials, the antigenicity of cartilage and bone are removed by decellularization, and a scaffold suitable for bone tissue gro...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61L27/44A61L27/50A61L27/16A61L27/18A61L27/20A61L27/22A61L27/24D01D1/02D01D5/00
Inventor 王国帅徐弢袁玉宇
Owner MEDPRIN REGENERATIVE MEDICAL TECH
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