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Osteocyte dysfunction in joint homeostasis and osteoarthritis
Lanlan Zhang
,
Chunyi Wen
Department of Biomedical Engineering
The Hong Kong Polytechnic University
Research output
:
Journal article publication
›
Review article
›
Academic research
›
peer-review
42
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Citations (Scopus)
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Dive into the research topics of 'Osteocyte dysfunction in joint homeostasis and osteoarthritis'. Together they form a unique fingerprint.
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Keyphrases
Osteoarthritis
100%
Osteocyte
100%
Joint Homeostasis
100%
Subchondral Bone
40%
Trabecular Bone
20%
Allometry
20%
Sclerostin
20%
Preosteoblast
20%
Structural Disturbance
20%
Aging
10%
Microcracks
10%
Growth Factors
10%
Insulin-like
10%
Functional Disturbances
10%
Abnormal Metabolism
10%
Bone Formation
10%
Signaling Molecules
10%
Wnt Signaling
10%
Transforming Growth Factor-β
10%
Mechanical Loading
10%
Osteoblast
10%
Lacunae
10%
Bone Volume Fraction
10%
Bone Remodeling
10%
Extracellular Matrix
10%
Negative Regulator
10%
Receptor Activator of nuclear factor-κB Ligand (RANKL)
10%
Mechanobiology
10%
Osteoblast Differentiation
10%
Runt-related Transcription Factor 2 (Runx2)
10%
Cystic Lesion
10%
Mechanosensory
10%
Osteophyte Formation
10%
Reparative Process
10%
Bone Homeostasis
10%
Aberrant Expression
10%
Bone-forming
10%
Sclerotic
10%
Periostin (POSTN)
10%
Dentin Matrix Protein 1 (DMP1)
10%
Osteocyte Lacunae
10%
Molecular Signaling Mechanism
10%
Matrix Extracellular Phosphoglycoprotein
10%
Load-bearing
10%
Lesion Formation
10%
Medicine and Dentistry
Osteoarthritis
100%
Osteocyte
100%
Homeostasis
100%
Osteoblast
36%
Sclerostin
18%
Allometry
18%
Pathophysiology
9%
Ossification
9%
Cancellous Bone
9%
Bone Mass
9%
Somatomedin C
9%
Signaling Molecule
9%
Osteoclast Differentiation Factor
9%
Trabecula
9%
Osteoplasty
9%
Extracellular Matrix
9%
Signaling Mechanism
9%
Transcription Factor RUNX2
9%
Mechanobiology
9%
Osteophyte
9%
Dentin Matrix Protein 1
9%
Matrix Extracellular Phosphoglycoprotein
9%
Wnt Signaling
9%
Osteoclast
9%
Transforming Growth Factor Beta
9%
Bone Remodeling
9%
Bone Homeostasis
9%
Immunology and Microbiology
Osteocyte
100%
Homeostasis
100%
Osteoarthritis
100%
Osteoblast
36%
Extracellular Matrix
18%
Wnt Signaling
9%
Matrix Protein
9%
Osteoclast
9%
Signaling Mechanism
9%
Trabecular Bone
9%
Ossification
9%
Somatomedin C
9%
Bone Mass
9%
Bone Remodeling
9%
RANKL
9%
Transcription Factor RUNX2
9%
Transforming Growth Factor Beta
9%
Dentin
9%
Bone Homeostasis
9%
Biochemistry, Genetics and Molecular Biology
Homeostasis
100%
Osteocyte
100%
Osteoblast
36%
Sclerostin
18%
Periostin
9%
Metabolic Pathway
9%
Wnt Signaling Pathway
9%
Signaling Mechanism
9%
Bone Remodeling
9%
Matrix Protein
9%
Ossification
9%
Bone Mass
9%
Synapsin I
9%
Insulin-Like Growth Factor 1
9%
RANKL
9%
Osteoclast
9%
Transforming Growth Factor Beta
9%