MEDICAL MATERIAL FOR PROMOTING CELL GROWTH AND INHIBITING BACTERIAL ADHESION AND MACHINING METHOD THEREOF

Abstract

Provided are a medical material for promoting cell growth and inhibiting bacterial adhesion and a machining method thereof. The machining method comprises: modifying a surface component of the medical material; preparing a micro-nano structure formed by superposing multiple levels of sizes; and selecting one of the two steps above, or carrying out component modification on a surface of the medical material first and then forming the micro-nano structure by superposing the multiple levels of sizes. The micro-nano structure formed by superposing the multiple levels of sizes comprises a first-level structure which is a micron-level groove structure, a second-level structure which is a submicron-level stripe structure or an array protrusion structure and a third-level structure which is a nano-level protrusion structure, the second-level structure is distributed on a surface of the first-level structure, and the third-level structure is distributed on a surface of the second-level structure.

Description

Claims

1. A medical material, wherein a structure for promoting cell growth and inhibiting bacterial adhesion is prepared on a surface of the material, the structure is a micro-nano structure formed by superposing multiple levels of sizes, the micro-nano structure formed by superposing the multiple levels of sizes comprises a first-level structure which is a micron-level groove structure, a second-level structure which is a submicron-level stripe structure or an array protrusion structure and a third-level structure which is a nano-level protrusion structure, the second-level structure is distributed on a surface of the first-level structure, and the third-level structure is distributed on a surface of the second-level structure; the groove of the first-level structure has a width of 20 µm to 500 µm and a depth of 0.5 µm to 10 µm;the submicron-level stripe of the second-level structure has a width of 100 nm to 1,000 nm and a height of 100 nm to 300 nm; and the array protrusion has a height of 20 nm to 500 nm;the nano-level protrusion of the third-level structure is one form or a combination of two or more forms of nano particle, nano rod, nano cone, nano mesh, nano sheet and nano tube of 1 nm to 200 nm; anda machining method of the medical material comprises: carrying out modification on a surface of the medical material first; andpreparing a micro-nano structure formed by superposing multiple levels of sizes subsequently;wherein the modification refers to preparing at least one of a coating and a plating on the surface of the medical material, and the plating comprises one or two or more elements of Ca, Zn, Fe, Ta, Mo, Ti, Au, Pt, Cu, Ag, P, Se, B, C, N, Ar and He; and the coating comprises one or two or more compounds of hydroxyapatite, TiO2, SiO2 and ZrO2, a thickness of at least one of the coating and the plating is 10 nm to 500 µm, and a height difference between a highest point and a lowest point of the micro-nano structure formed by superposing the multiple levels of sizes is less than the thickness of at least one of the coating and the plating.

2. The medical material according to claim 1, wherein at least one of the coating and the plating is prepared by one method or a combination of two or more methods of plasma injection, plasma sputtering coating, plasma spraying, laser cladding, pulse laser deposition, laser alloying, sol-gel method, electrochemical deposition, electrophoretic deposition, anodic oxidation or micro-arc oxidation.

3. The medical material according to claim 1, wherein the micro-nano structure formed by superposing the multiple levels of sizes is prepared by one method or a combination of two or more methods of pulse laser machining, electrochemical surface processing, machining, NaOH hydrothermal method, sandblasting and acid etching, physical vapor deposition, chemical vapor deposition and nano imprinting.

4. The medical material according to claim 1, wherein the medical material is a medical metal material, a medical ceramic material or a medical polymer material.