A roadmap of osteogenic differentiation in human mesenchymal stem cells assessed by protein multiplex analysis

INIS

• alizarin 22%
• alkaline phosphatase 11%
• angiogenesis 22%
• bones 33%
• calcium 22%
• coatings 11%
• comparative evaluations 22%
• control 11%
• data 22%
• dexamethasone 11%
• humans 100%
• in vitro 33%
• in vivo 11%
• inflammation 11%
• ions 11%
• mineralization 11%
• phenotype 11%
• phosphates 11%
• proteins 100%
• regeneration 22%
• stains 22%
• stem cells 100%

Keyphrases

• Alizarin Red S 22%
• Alkaline Phosphatase Assay 11%
• Angiogenesis 11%
• Angiogenesis-related Genes 11%
• Angiogenic Markers 11%
• Biological Data 11%
• Bone Morphogenetic protein-2 (BMP-2) 11%
• Bone Regeneration 22%
• Calcium Ion 11%
• Differentiation in Vitro 11%
• Differentiation Strategy 11%
• Distinct Mechanism 11%
• Human Mesenchymal Stem Cells (hMSCs) 100%
• Improved Methodology 11%
• In Vitro Model 11%
• Increased Effect 11%
• Inflammatory Markers 11%
• Marker Expression 11%
• Multiplex Analysis 100%
• Multiplex Assay 11%
• Omics Technologies 11%
• Osteogenesis 11%
• Osteogenic Differentiation 100%
• Osteogenic Phenotype 11%
• Phosphate Ion 11%
• Protein Pattern 11%
• Target Molecule 11%

Biochemistry, Genetics and Molecular Biology

• Alkaline Phosphatase 11%
• Angiogenesis 22%
• Bone Development 11%
• Bone Morphogenetic Protein 2 11%
• Bone Regeneration 22%
• Dexamethasone 11%
• Mineralization 11%
• Stem Cell 100%
• Tamsulosin 11%