Electrophoretic deposition of novel semi-permeable coatings on 3D-printed Ti-Nb alloy meshes for guided alveolar bone regeneration

Medicine & Life Sciences

• titanium-niobium alloy 100%
• Bone Regeneration 52%
• Doxycycline 35%
• Fourier Transform Infrared Spectroscopy 34%
• Fibroblasts 34%
• Nutrients 26%
• Niobium 26%
• Electrons 24%
• Alveolar Process 20%
• Freeze Drying 19%
• Elastic Modulus 18%
• Bone Development 17%
• Chitosan 17%
• Gelatin 16%
• Particle Size 16%
• Titanium 15%
• Freezing 15%
• Osteoblasts 14%
• Metals 13%
• Staphylococcus aureus 13%
• Permeability 13%
• Lasers 12%
• Bacteria 10%
• Anti-Bacterial Agents 10%
• Membranes 9%
• Growth 7%
• Infections 7%
• In Vitro Techniques 6%
• Therapeutics 2%

Engineering & Materials Science

• Niobium alloys 77%
• Titanium alloys 47%
• Bone 44%
• Coatings 34%
• Fibroblasts 22%
• Zeta potential 14%
• Nutrients 12%
• Fourier transform infrared spectroscopy 12%
• Infiltration 11%
• Electron microscopes 9%
• Staphylococcus aureus 8%
• Scanning 7%
• Osteoblasts 7%
• Cytotoxicity 7%
• Antibiotics 7%
• Chitosan 7%
• Cell culture 6%
• Niobium 6%
• Selective laser melting 6%
• Biocompatibility 6%
• Particle size analysis 5%
• Bacteria 5%
• Titanium 4%
• Drying 4%
• Yield stress 4%
• Tissue 4%
• Membranes 4%
• Elastic moduli 4%
• Substrates 3%
• Defects 3%
• Metals 3%

Chemistry

• Electrophoretic Deposition 55%
• Alloy 32%
• Coating Agent 27%
• Doxycycline 14%
• Nutrient 10%
• Zeta Potential 9%
• Porosity 8%
• Antibacterial 8%
• Particle Size Analysis 6%
• Yield Point 5%
• Fourier Transform Infrared Spectroscopy 5%
• Freeze Drying 5%
• Electron Particle 5%
• Gelatin 5%
• Melting 4%
• Chitosan 4%
• Permeability 4%
• Antimicrobial Agent 3%
• Metal 2%
• Surface 1%