Keyphrases
Composite Scaffold
100%
Bi-layered
100%
Osteochondral Tissue Engineering
100%
Osteochondral Composite
83%
Poly(L-lactide-co-ε-caprolactone)
50%
Poly(lactide-co-glycolide)
50%
Biological Properties
33%
β-tricalcium Phosphate (β-TCP)
33%
Mechano-active
16%
Mechanical Properties
16%
Extracellular Matrix
16%
Electron Microscopy
16%
Tensile Test
16%
Bone Regeneration
16%
Sintering Process
16%
Regeneration
16%
Cartilage
16%
Chondrogenic Differentiation
16%
Osteogenic Differentiation
16%
In Vivo Experiment
16%
Pressing Process
16%
Highly Elastic
16%
Cartilage Regeneration
16%
Skin Layer
16%
Tissue Ingrowth
16%
Chondral
16%
Osteoconduction
16%
Physiological Properties
16%
Porosimetry
16%
Interconnected Porous Structure
16%
Osteochondral Scaffold
16%
Composite Tissue
16%
Complex Composites
16%
β-tricalcium Phosphate Scaffold
16%
Active Properties
16%
Scaffold Surface
16%
Bone Tissue Formation
16%
Material Science
Electron Microscopy
100%
Tensile Property
100%
Bioceramic
100%
Porosimetry
100%
Surface (Surface Science)
100%
Sintering
100%
Engineering
Composite Scaffold
100%
Osteochondral Tissue Engineering
100%
Caprolactone
50%
Glycolide
50%
Biological Property
33%
Tensile Test
16%
Porous Structure
16%
Seeded Cell
16%
Chondrogenic Differentiation
16%
Osteogenic Differentiation
16%
Bone Tissue Formation
16%
Osteochondral Scaffold
16%
Scaffold Surface
16%
Sintering
16%
Chemistry
Biological Property
100%
Porosity
50%
Electron Microscopy
50%
Osteogenic
50%
Bioceramic
50%
formation
50%
Sintering
50%
Biochemistry, Genetics and Molecular Biology
Tissue Regeneration
100%
Tricalcium Phosphate
100%
Maturation
33%
Bone Regeneration
33%
Electron Microscopy
33%
Bone Conduction
33%
Porosity
33%