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Hypoxic chondrogenic differentiation of human embryonic stem cells enhances cartilage protein synthesis and biomechanical functionality
E. J. Koay
, K. A. Athanasiou
Image Guided Cancer Therapy Research Program
Radiation Oncology
Research output
:
Contribution to journal
›
Article
›
peer-review
125
Scopus citations
Overview
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Dive into the research topics of 'Hypoxic chondrogenic differentiation of human embryonic stem cells enhances cartilage protein synthesis and biomechanical functionality'. Together they form a unique fingerprint.
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Engineering & Materials Science
Stem cells
100%
Cartilage
92%
Proteins
64%
Collagen
56%
Cells
27%
Glycosaminoglycans
25%
Intercellular Signaling Peptides and Proteins
21%
Platelets
18%
Tissue engineering
17%
Scaffolds
16%
Elastic moduli
11%
Oxygen
11%
Availability
9%
Engineers
9%
Experiments
5%
Medicine & Life Sciences
Human Embryonic Stem Cells
85%
Cartilage
61%
Hypoxia
55%
Collagen
40%
Cell Differentiation
28%
Proteins
26%
Embryoid Bodies
23%
Platelet-Derived Growth Factor Receptors
23%
Chondrogenesis
22%
Differentiation Antigens
19%
Glycosaminoglycans
18%
Tissue Engineering
17%
Cultured Cells
14%
Stem Cells
13%
Oxygen
12%
Research Personnel
12%
Population
6%