Keyphrases
Cell-to-cell
100%
3D Scaffold
100%
Endothelial Cells
100%
Additive Manufacturing
100%
Cu2+
100%
Polycaprolactone
100%
Glass Architecture
100%
Bone Marrow Cells
100%
Copper-doped Bioactive Glass
100%
Architecture Engineering
100%
Bioactive Glass Scaffolds
41%
Polycaprolactone Scaffold
25%
Human Mesenchymal Stem Cells (hMSCs)
25%
Osteocalcin
16%
Marker Genes
16%
Osteogenic Markers
16%
High-level Expression
16%
Dlx5
16%
Antiangiogenic Activity
16%
Strut
16%
Porosity
8%
Bone Tissue Engineering
8%
Mechanical Properties
8%
Biocompatibility
8%
Young's Modulus
8%
Gene Expression
8%
Hydroxyapatite
8%
Simulated Body Fluid
8%
Human Umbilical Vein Endothelial Cells (HUVECs)
8%
Dose Effect
8%
Cytotoxicity
8%
Osteogenic Differentiation
8%
Acetone
8%
Direct Ink Writing
8%
3D Printing
8%
Dissolution Behavior
8%
Ion Dissolution
8%
Local Delivery
8%
Stem Cell Culture
8%
Glass Content
8%
Strut Diameter
8%
Ethanol Bath
8%
Content-dependent
8%
Osteogenic Gene
8%
Apparent Porosity
8%
Suppressing Effect
8%
Biochemistry, Genetics and Molecular Biology
Coculture
100%
Marker Gene
100%
DLX5
100%
Porosity
100%
Hematopoietic Cell
100%
Gene Expression
50%
Liquid
50%
Cytotoxicity
50%
Young Modulus
50%
Tissue Regeneration
50%
Stem Cell Culture
50%
Three Dimensional Printing
50%
Engineering
Engineering
100%
Additive Manufacturing
100%
Bone Marrow Stem Cell
100%
Young's Modulus
50%
Bone Tissue Engineering
50%
Printed Scaffold
50%
Osteogenic Differentiation
50%
Strut Diameter
50%
Apparent Porosity
50%
Glass Content
50%
Dependent Mechanical Property
50%
Porosity
50%
Three Dimensional Printing
50%
Material Science
Stem Cell
100%
Three Dimensional Printing
100%
Bioglass
100%
Young's Modulus
11%
Body Fluid
11%
Gene Expression
11%
Direct Ink Writing
11%
Surface (Surface Science)
11%
Pharmacology, Toxicology and Pharmaceutical Science
Bioactive Glass
100%
Polycaprolactone
100%
Cuprous Ion
85%
Hydroxyapatite
7%
Stem Cell Culture
7%
Doping
7%
Cytotoxicity
7%
Chemical Engineering
Polycaprolactone
100%
Hydroxyapatite
7%
Direct Ink Writing
7%