INIS
engineering
100%
evaluation
100%
in vitro
100%
bone tissues
100%
carbon nanotubes
100%
glycolic acid
77%
genes
44%
microspheres
33%
regeneration
22%
growth
22%
proliferation
22%
cell proliferation
22%
morphology
22%
bones
22%
adhesion
22%
applications
11%
comparative evaluations
11%
interactions
11%
surfaces
11%
matrices
11%
shape
11%
packing
11%
randomness
11%
compression strength
11%
mechanical tests
11%
Material Science
Tissue
100%
Composite Material
100%
Carbon Nanotubes
100%
Microsphere
66%
Cell
55%
Mechanical Strength
22%
Cell Proliferation
22%
Morphology
22%
Adhesion
22%
Surface
11%
Mechanical Testing
11%
Biocompatibility
11%
Compressive Strength
11%
Physics
Tissue Engineering
100%
Evaluation
100%
Bone
100%
Growth
22%
Adhesion
22%
Utilization
11%
Shapes
11%
Matrix
11%
Spacing
11%
Compressive Strength
11%
Biocompatibility
11%
Pharmacology, Toxicology and Pharmaceutical Science
Single Walled Nanotube
100%
Glycolic Acid
77%
Microsphere
33%
Cell Proliferation
22%
Survival
22%
Biocompatibility
22%
Nursing and Health Professions
Single Walled Nanotube
100%
Glycolic Acid
77%
Medicine and Dentistry
Single Walled Nanotube
100%
Microsphere
33%
MC3T3
33%