| 主权项 |
1. A method for fabricating a gene delivery stent using titanium oxide thin film coating, the method comprising:
a) a titanium oxide coating step of coating a surface of a metal stent with a titanium oxide thin film consisting of titanium oxide (TiO2), TiO2-xNx wherein 0.001<x<1, or a mixture thereof; b) a surface modifying step of modifying the surface of the coated titanium oxide thin film to introduce a hydroxyl group; c) a drug adhering step of adhering drugs onto the titanium oxide thin film surface-modified by binding a functional group of the drug to the hydroxyl group of the titanium oxide thin film to form a drug layer; and d) an oligonucleotide adhering step of adhering oligonucleotide onto the drug layer by binding oligonucleotide to the drug to form an oligonucleotide layer wherein in step b), the surface of the titanium oxide thin film is modified for 10 minutes to 2 hours by transferring water vapor, or oxygen and hydrogen into a plasma vacuum chamber and generating non-thermal plasma, and wherein applied discharge power is in the range of 20-50 W, wherein in step b), when water vapor is used, the water vapor is transferred from an external introduction tube connected to the plasma vacuum chamber into the plasma vacuum chamber at a reduced pressure of 1×10−3 to 1 torr, wherein in step a) the titanium oxide thin film is coated onto the surface of the metal stent for 1 to 6 hours by transferring a titanium precursor, carrier gas, and reaction gas and generating plasma in a plasma vacuum chamber, wherein the carrier as is at least one selected from the group consisting of nitro en argon, and helium, wherein the reaction gas is at least one selected from the group consisting of water vapor, ozone, and oxygen, and wherein as the drug in step c), at least one of abciximab, alpha lipoic acid, and heparin is selected to thereby be adhered. |
