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Magnesium-phosphorus biocompatible coating on the surface of medical zinc-based materials and its preparation and application

A biocompatibility and coating technology, which is applied in the field of magnesium-phosphorus biocompatibility coating and its preparation and application, can solve the problems of rough surface morphology, vascular calcification, difficult regulation and so on, so as to improve biocompatibility , reduce initial corrosion, and have a wide range of applications

Active Publication Date: 2021-05-04
SHANGHAI JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The problem is that the solution contains nickel, manganese and other components, so that the final phosphate coating contains 0.5-3wt.% nickel, which is very harmful to the human body
The problem is that the composition of the surface regulator containing zinc phosphate is relatively complex, and the optimal pH is 7-10. Under the condition of overbasicity, the zinc ion reaches a saturated state, and it is easy to form precipitation in the form of zinc hydroxide, which cannot be guaranteed. The composition of the phosphate film layer, and the zinc hydroxide contained in it is poorly biocompatible
The main problem is that calcium salts are applied to implants such as vascular stents, which can easily lead to vascular calcification and affect the implantation effect of stents; secondly, the surface morphology is relatively rough, and it is difficult to control it to the submicron level

Method used

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  • Magnesium-phosphorus biocompatible coating on the surface of medical zinc-based materials and its preparation and application
  • Magnesium-phosphorus biocompatible coating on the surface of medical zinc-based materials and its preparation and application
  • Magnesium-phosphorus biocompatible coating on the surface of medical zinc-based materials and its preparation and application

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] A magnesium-phosphorus biocompatible coating was prepared on the surface of an extruded Zn-3wt%Cu (Zn-Cu system) alloy material. Specific steps are as follows:

[0038] 1) First, the extruded Zn-3wt% Cu alloy was made into a Φ10×3mm sample, which was polished with 320# and 1200# water sandpaper in sequence, and then ultrasonically cleaned with absolute ethanol, acetone, and absolute ethanol, respectively. 10min, blow dry, and then process the front and back sides of the sample with a UV-ozone cleaner for 10min each.

[0039] 2) Configure phosphate reaction solution: take MgSO 4 :NaH 2 PO 4 =1:1.5 (substance ratio, 0.2mol / L, 0.3mol / L respectively), add deionized water to dissolve, then add 1mol / L NaOH solution to adjust pH=4.0.

[0040] 3) Put the treated Zn-3Cu alloy sample into the above-mentioned phosphate reaction solution and let it soak for 6 hours at room temperature (25° C.).

[0041] SEM (such as figure 1 Shown) shows that the surface of the coating has a ...

Embodiment 2

[0043] Preparation of magnesium-phosphorus biocompatible coating on the surface of Zn-Mg alloy porous bone tissue engineering scaffold for tissue engineering. Specific steps are as follows:

[0044] 1) First, the Zn-Mg alloy porous bone tissue engineering scaffold for tissue engineering is made into a Φ10×3mm sample, and the porous surface is polished by electrolytic polishing process in turn, and ultrasonically cleaned with absolute ethanol, acetone, and absolute ethanol for 10 minutes each , blow dry, and then treat the sample with a UV-ozone cleaner for 10 minutes.

[0045] 2) Configure phosphate reaction solution: take MgSO 4 :NaH 2 PO 4 =1:1.5 (substance ratio, 0.2mol / L, 0.3mol / L respectively), add deionized water to dissolve, then add 1mol / L NaOH solution to adjust pH=5.0.

[0046] 3) Put the processed Zn-Mg alloy porous bone tissue engineering scaffold sample into the above-mentioned phosphate reaction solution and let it soak for 12 hours at a constant temperature ...

Embodiment 3

[0049] Preparation of magnesium-phosphorus biocompatible coating on the surface of cardiovascular stent processed by Zn-Mn alloy. Specific steps are as follows:

[0050] 1) Firstly, the Zn-Mn alloy is made into a Φ3×15mm sample, and the surface is polished successively by electrolytic polishing, and the anhydrous ethanol, acetone, and anhydrous ethanol are respectively ultrasonically cleaned for 10 minutes, dried, and then treated with an ultraviolet ozone cleaner Sample 10min.

[0051] 2) Configure phosphate reaction solution: take MgSO 4 :NaH 2 PO 4 =1:1.5 (substance ratio, respectively 0.3mol / L, 0.45mol / L), add deionized water to dissolve, then add 1mol / L NaOH solution to adjust pH=4.0.

[0052] 3) Put the treated Zn-Mn alloy stent sample into the above-mentioned phosphate reaction solution and let it soak for 1 hour at room temperature (25° C.).

[0053] The scanning electron microscope observed that the thickness of the magnesium-phosphorus coating was ~1.5 μm, the a...

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Abstract

The invention relates to the technical field of biomaterials, and provides a magnesium-phosphorus biocompatible coating on the surface of a medical zinc-based material, as well as its preparation and application. In the method, the zinc and the zinc alloy are pretreated on the surface, then soaked in a phosphate solution at a constant temperature, and the magnesium-phosphorus coating is formed by a chemical liquid phase deposition method. The invention proposes a simple and feasible liquid-phase chemical deposition method, which can realize the regulation and control of coating composition, thickness and surface appearance. The coating has high bonding strength with zinc and zinc alloy substrates, and can slow down the initial release rate of the degradation product zinc ions, and at the same time release an appropriate amount of bioactive magnesium ions, thereby significantly improving the biodegradable medical zinc-based materials and medical devices. biocompatibility.

Description

technical field [0001] The invention belongs to the technical field of biomedical materials, and in particular relates to a magnesium-phosphorus biocompatible coating on the surface of a medical zinc-based material, as well as its preparation and application. Background technique [0002] Degradable medical metal materials are a new type of biomedical materials, which means that after being implanted in the body, they can be gradually degraded in the body, and the degradation products will not cause serious host reactions, and as they complete the mission of assisting tissue repair, they can A class of metallic materials that are completely degraded and absorbed. Degradable magnesium alloys have been widely studied due to the osteogenic effect of magnesium ions and the promotion of endothelial cells within a certain concentration range, but the degradation rate of magnesium alloys is too fast. As new biodegradable medical metal materials, zinc and zinc alloys show good appl...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61L27/32A61L27/30A61L27/04A61L27/50A61L27/54A61L27/58A61L31/08A61L31/02A61L31/14A61L31/16A61L29/10A61L29/02A61L29/14A61L29/16C23C18/12
CPCA61L27/32A61L27/306A61L27/047A61L27/50A61L27/54A61L27/58A61L31/086A61L31/088A61L31/022A61L31/14A61L31/16A61L31/148A61L29/106A61L29/02A61L29/14A61L29/16A61L29/148C23C18/1204C23C18/1241A61L2300/602A61L2300/102A61L2400/18A61L2420/02A61L2420/06C23C18/04A61L2300/112A61L2430/02
Inventor 裴佳冯博玄周可袁广银
Owner SHANGHAI JIAOTONG UNIV