Mechanical properties and osteogenic potential of hydroxyapatite-PLGA-collagen biomaterial for bone regeneration

Engineering & Materials Science

• Collagen 100%
• Hydroxyapatite 98%
• Biomaterials 92%
• Bone 73%
• Stem cells 53%
• Mechanical properties 48%
• Cell culture 24%
• Minerals 19%
• Tensile strength 15%
• Grafts 12%
• Phase separation 12%
• Hydrolysis 11%
• Polymerization 10%
• Strength of materials 9%
• Deposits 9%
• Cells 9%
• Repair 7%
• Fabrication 6%
• Composite materials 5%

Medicine & Life Sciences

• Bone Regeneration 85%
• Durapatite 80%
• Biocompatible Materials 77%
• Collagen 57%
• Mesenchymal Stem Cells 34%
• Tensile Strength 22%
• Minerals 18%
• hydroxyapatite-polylactide 17%
• Polylactic Acid-Polyglycolic Acid Copolymer 12%
• Bone Development 10%
• Cancellous Bone 9%
• Polymerization 9%
• Hydrolysis 8%
• Osteogenesis 8%
• Transplants 5%
• Bone and Bones 5%
• Population 3%

Chemical Compounds

• Osteogenic 96%
• Biomaterial 64%
• Liquid Film 36%
• Tensile Strength 25%
• Mineral 24%
• Multicomponent Reaction 13%
• Phase Separation 13%
• Strength 9%
• Hydrolysis 9%
• Composite Material 7%