Bioactive artificial joint capable of slowly releasing trace element selenium
A technology of artificial joints and trace elements, applied in medical science, prostheses, coatings, etc., to achieve high bonding strength, improve the body's immunity, and promote the effects of deposition and growth
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Embodiment 1
[0024] (1) First choose Ti6Al4V alloy to process the artificial joint;
[0025] (2) Hydrothermal treatment of the artificial joint surface: the artificial joint is ground and polished, then ultrasonically cleaned with acetone, 70% alcohol, and distilled water, and the hydrothermal reaction is carried out with a sodium hydroxide aqueous solution with a concentration of 10mol / L, and the working temperature is 120 degrees Celsius. The time is 6 hours, and a sodium titanate bioactive coating with a microporous structure is obtained on the surface of the artificial joint;
[0026] (3) Centrifugal loading treatment of trace amounts of sodium selenite and BMP: fix the artificial joint of the sodium titanate bioactive coating with microporous structure on the surface in the centrifugal cylinder, pour 5 × 10 -3 mol / L sodium selenite, 0.1-50 mg / L bone morphogenetic protein and 0.1 mol / L phosphate-buffered saline solution, and submerge more than twice the height, and work at a centrifuga...
Embodiment 2
[0029] (1) First choose Ti6Al4V alloy to process the artificial joint;
[0030] (2) Hydrothermal treatment of the artificial joint surface: the artificial joint is ground and polished, then ultrasonically cleaned with acetone, 70% alcohol, and distilled water, and the hydrothermal reaction is carried out with a sodium hydroxide aqueous solution with a concentration of 10mol / L, and the working temperature is 120 degrees Celsius. The time is 6 hours, and a sodium titanate bioactive coating with a microporous structure is obtained on the surface of the artificial joint;
[0031] (3) Centrifugal loading treatment of trace amounts of sodium selenite and BMP: fix the artificial joint of the sodium titanate bioactive coating with microporous structure on the surface in the centrifugal cylinder, pour 5 × 10 -3 mol / L sodium selenite, 0.1-50 mg / L bone morphogenetic protein and 0.1 mol / L phosphate-buffered saline solution, and submerged more than twice the height, and worked at a centrif...
Embodiment 3
[0034] (1) First choose Ti6Al4V alloy to process the artificial joint;
[0035] (2) Hydrothermal treatment of the artificial joint surface: the artificial joint is ground and polished, then ultrasonically cleaned with acetone, 70% alcohol, and distilled water, and the hydrothermal reaction is carried out with a sodium hydroxide aqueous solution with a concentration of 10mol / L, and the working temperature is 150 degrees Celsius. The time is 72 hours, and a sodium titanate bioactive coating with microporous structure is obtained on the surface of the artificial joint, and its SEM photos and XRD spectra are shown in figure 1 and figure 2 ;
[0036] (3) Centrifugal loading treatment of trace amounts of sodium selenite and BMP: fix the artificial joint of the sodium titanate bioactive coating with microporous structure on the surface in the centrifugal cylinder, pour 5 × 10 -3 mol / L sodium selenite, 0.1-50 mg / L bone morphogenetic protein and 0.1 mol / L phosphate-buffered saline sol...
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