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HIF-1α regulates bone formation after osteogenic mechanical loading
Ryan E. Tomlinson,
Matthew J. Silva
Department of Orthopedic Surgery
Center of Regenerative Medicine
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
Institute of Clinical and Translational Sciences (ICTS)
Division of Basic Research
DBBS - Molecular Cell Biology
DBBS - Human and Statistical Genetics
Research output
:
Contribution to journal
›
Article
›
peer-review
38
Scopus citations
Overview
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Keyphrases
Osteogenic
100%
Bone Formation
100%
Mechanical Loading
100%
Hypoxia-inducible factor-1α (HIF-1α)
100%
Woven Bone
33%
Lamellar Bone
33%
Ulna
25%
Non-damaging
25%
Periosteal
16%
Osteogenic Factor
16%
Microcomputed Tomography
8%
Wild Mice
8%
Immunohistochemistry
8%
Transcription Factor
8%
Osteoblast
8%
No Significant Difference
8%
Vascular Function
8%
Gene Transcription
8%
Ulnar
8%
Bone Cells
8%
Antiangiogenic Activity
8%
Hypoxic Condition
8%
Bone Volume
8%
Endosteum
8%
Diaphysis
8%
Osteocyte
8%
Basal Conditions
8%
Osteoblast Lineage
8%
Angiogenesis-related Genes
8%
Dynamic Histomorphometry
8%
Non-angiogenic
8%
Formation Parameters
8%
Veterinary Science and Veterinary Medicine
Mouse
100%
Ossification
100%
Lamellar Bone
50%
Ulna
37%
Osteoblast
25%
Diaphysis
12%
Vascularity
12%
Osteocyte
12%
Transcription Factors
12%
Morphometrics
12%
Morphometry
12%
Immunology and Microbiology
Ossification
100%
Ulna
37%
Wild Type
25%
Osteoblast
25%
Wild Type Mouse
12%
Transcription Factors
12%
Bone Mass
12%
Vascularization
12%
Lineages
12%
Bone Cell
12%
Genetic Transcription
12%
Diaphysis
12%
Osteocyte
12%
Medicine and Dentistry
Ossification
100%
Ulna
37%
Osteoblast
25%
Immunohistochemistry
12%
Vascularity
12%
Bone Mass
12%
Morphometrics
12%
Transcription Factors
12%
Genetic Transcription
12%
Diaphysis
12%
Osteocyte
12%
Mouse Study
12%
Biochemistry, Genetics and Molecular Biology
Ossification
100%
Wild Type
25%
Osteoblast
25%
Wild Type Mouse
12%
Transcription Factors
12%
Bone Mass
12%
Vascularization
12%
Genetic Transcription
12%
Osteocyte
12%
Pharmacology, Toxicology and Pharmaceutical Science
Wild Type Mouse
100%
Transcription Factors
100%