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Osteogenic differentiation of placenta-derived multipotent cells in vitro
Chih Chien Cheng
,
Chih Ang Chung
, Li Chiu Su
, Chih Cheng Chien
, Yu Che Cheng
Department of Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
7
Scopus citations
Overview
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Dive into the research topics of 'Osteogenic differentiation of placenta-derived multipotent cells in vitro'. Together they form a unique fingerprint.
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Biochemistry, Genetics and Molecular Biology
Alkaline Phosphatase
100%
Osteoblast
100%
Osteocalcin
100%
Gene Expression
50%
Stem Cell
50%
Transcription Factors
50%
Germ Layer
50%
Ascorbic Acid
50%
Glycerol
50%
Bone Development
50%
Osteocyte
50%
Messenger RNA
50%
Dexamethasone
50%
Keyphrases
Osteogenic Differentiation
100%
Multipotent Cells
100%
Placenta
100%
Osteogenic Medium
37%
Calcium Deposition
25%
Alkaline Phosphatase Activity
25%
Osteodifferentiation
25%
Cbfa1
25%
Gene Expression
12%
Ascorbic Acid
12%
Stem Cells
12%
Cell-derived
12%
Transcription Factor
12%
Biomolecules
12%
Therapeutic Use
12%
Three Germ Layers
12%
Osteoblast
12%
Bioengineering
12%
Alizarin Red Staining
12%
Osteogenesis
12%
Osteoblast Cells
12%
Clinical Treatment
12%
Osteocalcin Gene
12%
Osteocalcin
12%
Sequential Time
12%
Phosphate Acid
12%
Medium Induction
12%
β-glycerophosphate
12%
Calcium Coordination
12%
Osteocyte
12%
Messenger RNA Expression
12%
Term Placenta
12%
Medicine and Dentistry
In Vitro
100%
Placenta
100%
Isotopes of Calcium
37%
Alkaline Phosphatase
25%
Osteoblast
25%
Osteocalcin
25%
Bone Development
12%
Gene Expression
12%
Transcription Factors
12%
Alizarin
12%
Ascorbic Acid
12%
Glycerophosphate
12%
Germ Layer
12%
Osteocyte
12%
Dexamethasone
12%
Messenger RNA
12%
Stem Cell
12%
Therapeutic Use
12%
Veterinary Science and Veterinary Medicine
Germ Layer
12%