Keyphrases
Bone Tissue Engineering
100%
Starch-based Scaffolds
100%
Endothelialization
100%
Endothelial Cells
66%
Surface Roughness
66%
Plasma Modification
66%
Surface Properties
66%
Protein Adsorption
66%
Adhesive Protein
66%
Pre-coating
66%
Surface Characterization
33%
In Vitro Study
33%
Surface Chemistry
33%
Surface Changes
33%
Clinical Application
33%
Cellular Level
33%
Vascularization
33%
Blood Vessel Formation
33%
Biomaterials
33%
Cell Growth
33%
Vascularized
33%
Engineering Approach
33%
Endothelial Markers
33%
PECAM-1
33%
Polymeric Materials
33%
Cobblestone
33%
High Oxygen Content
33%
Human Umbilical Vein
33%
Positive Control
33%
Adsorption Profiles
33%
Vitronectin
33%
Neighboring Cells
33%
Vascularization Strategies
33%
Ar Plasma
33%
Argon Plasma Treatment
33%
Suitable Method
33%
Endothelial Cell Behaviour
33%
Plasma-modified
33%
Engineering
Modified Surface
100%
Bone Tissue Engineering
100%
Protein Adsorption
100%
Endothelialization
100%
Plasma Treatment
50%
Clinical Application
50%
Neighboring Cell
50%
Ar Plasma
50%
Adsorption
50%
Oxygen Content
50%
Positive Control
50%
Immunology and Microbiology
Surface Property
100%
Bone Tissue
100%
Blood Plasma
57%
Vascularization
28%
Topography
14%
Cell Function
14%
Cell Level
14%
Platelet Endothelial Cell Adhesion Molecule 1
14%
Polymerization
14%
Cell Growth
14%
Angiogenesis
14%
Umbilical Vein
14%
Material Science
Surface Property
100%
Surface Roughness
100%
Biomaterial
50%
Cell Growth
50%
Polymer
50%
Pharmacology, Toxicology and Pharmaceutical Science
Adsorption
100%
Adhesive Agent
66%
Biomaterial
33%
Polymer
33%
Platelet Endothelial Cell Adhesion Molecule 1
33%
Vitronectin
33%