Low-pressure foaming: A novel method for the fabrication of porous scaffolds for tissue engineering

Keyphrases

• Low Pressure 100%
• Scaffold for Tissue Engineering 100%
• Hydroxyapatite Nanocrystals 100%
• Porous Scaffold 100%
• Poly(1,8-octanediol-co-citrate) 88%
• Porosity 55%
• Mechanical Properties 22%
• Human Mesenchymal Stem Cells (hMSCs) 22%
• Pore Size 22%
• Nucleation Site 22%
• Viscosity 22%
• Alkaline Phosphatase Activity 22%
• Prepolymer 22%
• Compression Modulus 22%
• Histology 11%
• Cell Seeding 11%
• Rabbit Model 11%
• Fabrication Methods 11%
• Elastomer 11%
• Cell Infiltration 11%
• Drying Conditions 11%
• Trabecular Bone 11%
• Wet Condition 11%
• Tissue Infiltration 11%
• Tissue Engineering Applications 11%
• Interconnected Pores 11%
• Particle Content 11%
• Cell Attachment 11%
• Tissue Ingrowth 11%
• Tissue Vascularization 11%
• Osteoconductivity 11%
• Salt Leaching 11%
• Air Bubbles 11%
• Osteochondral Defect 11%
• Porogen Leaching 11%
• Pore nucleation 11%
• Polymer Mixing 11%
• Interconnected Porous Scaffold 11%

Material Science

• Nucleation 100%
• Prepolymer 100%
• Scaffold for Tissue Engineering 100%
• Pore Size 100%
• Stem Cell 100%
• Phosphatase 100%
• Composite Material 50%
• Elastomer 50%

Engineering

• Porous Scaffold 100%
• Octanediol 100%
• Tissue Regeneration 100%
• Porosity 75%
• Nucleation Site 25%
• Mesenchymal Stem Cell 25%
• Fluid Viscosity 25%
• Fabrication Method 12%
• Great Extent 12%
• Great Distance 12%
• Dry Condition 12%
• Engineering Application 12%
• Elastomer 12%
• Osteochondral Defect 12%
• Porogen Leaching 12%