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Orthopedic tissue regeneration: cells, scaffolds, and small molecules
Ok Hee Jeon
, Jennifer Elisseeff
*
*
Corresponding author for this work
Research output
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Contribution to journal
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Review article
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peer-review
35
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Keyphrases
Small Molecules
100%
Tissue Regeneration
100%
Cell Scaffold
100%
Orthopedics
100%
Osteoporosis
66%
Osteoarthritis
66%
Cartilage
66%
Three-class
33%
Cartilage Tissue Engineering
33%
Articular Cartilage
33%
Biomaterials
33%
Stem Cells
33%
Mechanical Integrity
33%
Bone Tissue Engineering
33%
Regeneration
33%
Targeted Therapeutics
33%
Cartilage Tissue
33%
High Load-bearing
33%
Bioresorbable Scaffold
33%
Aging Population
33%
Tissue Function
33%
Pharmacological Intervention
33%
Bone Cartilage
33%
Damaged Tissue
33%
Surgical Intervention
33%
Degenerative Bone Disease
33%
Mechanical Cues
33%
New Advances
33%
Regenerative Approach
33%
Cartilage Diseases
33%
Structural Cues
33%
Aging Patients
33%
Medicine and Dentistry
Orthopedics
100%
Tissue Regeneration
100%
Biocompatible Material
66%
Osteoarthritis
66%
Osteoporosis
66%
Disease
33%
Ex Vivo
33%
Stem Cell
33%
Cartilage
33%
Articular Cartilage
33%
Engineered Tissue
33%
Bone Disease
33%
Chondropathy
33%
Engineering
Tissue Regeneration
100%
Stem Cell
50%
Promote Regeneration
50%
Regenerative Approach
50%
Biochemistry, Genetics and Molecular Biology
Tissue Regeneration
100%
Small Molecule
100%
Stem Cell
50%
Material Science
Biomaterial
100%
Stem Cell
50%