Material Science
Materials Property
77%
Nacre
66%
Stem Cell
63%
Composite Material
62%
Tensile Property
55%
Biopolymer
50%
Biocompatibility
46%
Biomaterial
44%
Morphology
38%
Fibroblast
38%
Biodegradation
37%
Surface (Surface Science)
37%
Polyethylene Terephthalate
33%
Confocal Microscopy
33%
Polyester
33%
Work Hardening
33%
Nanoparticle
33%
Silane
33%
Biocomposites
33%
Film
33%
Matrix Composite
33%
Nanocomposite
33%
Plasticizer
33%
Finite Element Methods
22%
Osteoblast
13%
Bone Substitutes
12%
Surface Roughness
8%
Phosphatase
8%
Coupling Agent
5%
Rough Surface
5%
Medicine and Dentistry
Bone Regeneration
100%
In Vitro
55%
Orthopedics
41%
Stem Cell
37%
Mechanical Stimulation
33%
Cortical Bone
33%
Tissue Adhesive
33%
Total Knee Arthroplasty
33%
Adhesive Agent
33%
Rotator Cuff
33%
Osteoarthritis
33%
Cell Growth
33%
Barrier Membrane
33%
Bone Mineral
33%
Tricalcium Phosphate
33%
Bone Defect
31%
Tendinosis
27%
Galactose
18%
Collagen Fibril
16%
Clinical Study
14%
Biocompatibility
13%
Collagen Type 1
11%
Bone Substitutes
11%
Apatite
11%
Clinician
9%
Oral Implants
9%
Magnetic Resonance Imaging
7%
Arm
7%
Precursor
5%
Surgical Technique
5%
Extracellular Matrix
5%
Pathological Process
5%
Cell Expansion
5%
Fibrillar Collagen
5%
Tendon Disease
5%
Scanning Electron Microscopy
5%
Sensitive Detection
5%
Stem Cell Culture
5%
Alveolar Bone
5%
Edentulousness
5%
Immunohistochemistry
5%
Tendon Injury
5%
Cell Differentiation
5%
Real Time Polymerase Chain Reaction
5%
Ascorbic Acid
5%
Osteoblast
5%
Cancellous Bone
5%
Bone Matrix
5%
Aragonite
5%
Biological Activity
5%
Engineering
Bone Substitutes
36%
Degradation Rate
36%
Low Tensile Strength
33%
Limiting Factor
33%
Biofabrication
33%
Economic Feasibility
33%
Expert Opinion
33%
Caprolactone
33%
Tissue Regeneration
33%
Biological Property
33%
Finite Element Analysis
33%
Biodegradation
22%
Compression Strength
19%
Porosity
19%
Bioreactor
16%
Tensile Stiffness
16%
Native Tissue
16%
Biodegradable Scaffold
16%
Internal Architecture
16%
Aligned Fiber
16%
Derived Stem Cell
16%
Mesenchymal Stem Cell
16%
Osteoblast Cell
16%
Structural Integrity
16%
Million Year
16%
Osteogenic Differentiation
16%
Bioactivity
16%
Elongation at Break
11%
Cement Composite
11%
Biomedical Application
11%
Engineering Strategy
8%
Ligament Tissue
8%
Tendon Tissue
8%
Complex Structure
8%
Fabrication Technique
8%
Past Decade
8%
Surgical Intervention
8%
Degradation Time
5%
Bulk Erosion
5%
Mouse Fibroblast
5%
Suture Application
5%
Absorbable Suture
5%
Biodegradable Material
5%
Tensile Property
5%
Crystallinity
5%
Tendon Tissue Engineering
5%
Hardening Effect
5%
Surface Erosion
5%
Toughening
5%
Strain Hardening
5%
