Keyphrases
Culture Studies
100%
Biocompatibility
100%
Phosphate Glass
100%
Bone Tissue
100%
Glass Microspheres
100%
Modular Bone Tissue Engineering
100%
Dynamic Culture
100%
Osteoblastic Cells
66%
Cell Proliferation
66%
Cell Growth
66%
Rutile
66%
Agitation
66%
Vascular Endothelial Growth Factor
66%
Cobalt
66%
Microcarriers
66%
Cobalt Oxide
66%
Phosphate
33%
Osteoblast
33%
Angiogenesis
33%
Dynamic Environment
33%
Vascularization
33%
Bioactive Glass
33%
Vascularized
33%
Hypoxic Condition
33%
Static Culture
33%
MG-63
33%
Cell Aggregates
33%
Vascularized Bone
33%
High Surface Area
33%
Oxide Content
33%
Cell Metabolism
33%
Unmet
33%
Surface-to-volume Ratio
33%
Tissue Formation
33%
Scalable Fabrication
33%
Modular Approach
33%
Clinical Requirements
33%
All-glass
33%
Cobalt Doping
33%
Micro-units
33%
Osteoblast Maturation
33%
Culture Assay
33%
Aggregate Formation
33%
Osteoblast Precursors
33%
Orbital Shaker
33%
Human Osteosarcoma Cell Line
33%
Immunology and Microbiology
Tissue Regeneration
100%
Microsphere
100%
Bone Tissue
100%
Cell Proliferation
50%
Cell Growth
50%
Osteoblast
50%
Vasculotropin
50%
Solution and Solubility
25%
Precursor
25%
Upregulation
25%
Vascularization
25%
Angiogenesis
25%
Maturation
25%
Cell Metabolism
25%
Osteosarcoma Cell Line
25%
Cell Aggregation
25%
Surface Area
25%
Engineering
Phosphate Glass
100%
Microsphere
100%
Bone Tissue Engineering
100%
Mols
66%
Microcarrier
66%
Phase Composition
33%
Larger Quantity
33%
High Surface Area
33%
Dynamic Condition
33%
Volume Ratio
33%
Static Condition
33%
Doped Glass
33%
Pharmacology, Toxicology and Pharmaceutical Science
Microsphere
100%
Vasculotropin
66%
Doping
66%
Titanium Dioxide
66%
Microcarrier
66%
Biocompatibility
33%
Osteosarcoma
33%
Bioactive Glass
33%
Material Science
Microsphere
100%
Cobalt
100%
Osteoblast
40%
Cell Proliferation
40%
Cell Growth
40%
Oxide Compound
40%
Titanium Dioxide
40%
Biocompatibility
20%
Bioglass
20%
Glass Composition
20%