Keyphrases
Human Mesenchymal Stem Cells (hMSCs)
100%
Chondrogenic Differentiation
100%
Surface Chemistry
100%
Nanofibers
100%
Plasma-induced
100%
Polycaprolactone Nanofibers
100%
Carboxylic Acids
33%
Collagen II
33%
Chondroinductive
33%
Inductive Effect
33%
Plasma Polymerization
33%
Cyclopropylamine
33%
High-level Expression
16%
Group by
16%
Polymerized
16%
Cell Culture
16%
Chemical Composition
16%
Hypertrophic Markers
16%
Chondrogenic
16%
Modification Strategies
16%
Chondrogenesis
16%
Glycosaminoglycans
16%
Electrospun
16%
Extracellular Matrix Protein 1 (ECM1)
16%
Positive Impact
16%
Cartilage Regeneration
16%
Collagen I
16%
Surface Properties
16%
Amines
16%
Aggrecan
16%
Cell Phenotype
16%
Polar Groups
16%
Acrylic Acid
16%
Strategy Use
16%
Chondroitin Sulfate
16%
Hydrophilicity
16%
Surface Roughness
16%
Surface Modification
16%
Nanomorphology
16%
Poly(ε-caprolactone)
16%
Chondrogenic Cells
16%
Cell Proliferation Rate
16%
Chemical Techniques
16%
Differentiation Potential
16%
Biomolecule Immobilization
16%
Coating Deposition
16%
Controlled Differentiation
16%
Intrinsic Potential
16%
Plasma Technology
16%
Medium Pressure Plasma
16%
Full-thickness Cartilage Defect
16%
Polar Functional Groups
16%
SRY-box Transcription Factor 9 (SOX9)
16%
Surface Modification Strategy
16%
INIS
humans
100%
stem cells
100%
chemistry
100%
surfaces
100%
plasma
100%
nanofibers
100%
bone marrow
71%
modifications
57%
collagen
42%
matrices
28%
phenotype
28%
polymerization
28%
cartilage
28%
carboxylic acids
28%
availability
14%
production
14%
cell cultures
14%
proteins
14%
thickness
14%
morphology
14%
defects
14%
sulfates
14%
regeneration
14%
roughness
14%
cell proliferation
14%
plasma technology
14%
deposition
14%
chemical composition
14%
coatings
14%
monomers
14%
surface properties
14%
amines
14%
medium pressure
14%
acrylic acid
14%
pressure (plasma)
14%
chondroitin
14%
Engineering
Mesenchymal Stem Cell
100%
Nanofiber
100%
Chondrogenic Differentiation
100%
Induced Surface
100%
Plasma Polymerization
28%
Electrospun
14%
Differentiation Potential
14%
Monomer
14%
Functional Group
14%
Biomolecule
14%
Caprolactone
14%
Downregulation
14%
Plasma Technology
14%
Coating Deposition
14%
Pressure Plasma
14%
Polar Group
14%
Glycosaminoglycan
14%
Hydrophilicity
14%
Biochemistry, Genetics and Molecular Biology
Stem Cell
100%
Stromal Cell
100%
Blood Plasma
100%
Downregulation
20%
Surface Property
20%
Cell Culture
20%
Aggrecan
20%
Cell Proliferation
20%
Chondrogenesis
20%
Extracellular Matrix Proteins
20%
Scleroprotein
20%
Chemical Procedures
20%
Hydrophilicity
20%
Glycosaminoglycan
20%
Chondroitin Sulfate
20%
Chemical Engineering
Polymerization
100%
Carboxylic Acid
100%
Polycaprolactone
100%
Functional Group
50%
Plasma Technology
50%
Material Science
Stem Cell
100%
Nanofiber
100%
Surface (Surface Science)
100%
Plasma Polymerization
28%
Surface Modification
28%
Surface Property
14%
Surface Roughness
14%
Cell Proliferation
14%
Pharmacology, Toxicology and Pharmaceutical Science
Nanofiber
100%
Polycaprolactone
100%
Carboxylate
28%
Glycosaminoglycan
14%
Cell Culture
14%
Aggrecan
14%
Scleroprotein
14%
Acrylate
14%
Functional Groups
14%
Chondroitin Sulfate
14%