Cdd

Human postnatal dental pulp cells co-differentiate into osteoblasts and endotheliocytes: a pivotal synergy leading to adult bone tissue formation

Immunology / Stem Cells / Cancer / Flow Cytometry / Transmission Electron Microscopy / Stem Cell / Apoptosis / Stem Cell Transplantation / Biological Sciences / Cell Differentiation / Humans / Animals / Cell Death / Cdd / Neurons / Differentiation / Chip / Rats / Adult / Endothelial cell / Time Factors / Adipocytes / Stromal Cells / Three Dimensional / Wistar Rats / Osteogenesis / Angiotensin Converting Enzyme / Osteoblasts / Gene expression profiling / Cell Growth / Stem Cell / Apoptosis / Stem Cell Transplantation / Biological Sciences / Cell Differentiation / Humans / Animals / Cell Death / Cdd / Neurons / Differentiation / Chip / Rats / Adult / Endothelial cell / Time Factors / Adipocytes / Stromal Cells / Three Dimensional / Wistar Rats / Osteogenesis / Angiotensin Converting Enzyme / Osteoblasts / Gene expression profiling / Cell Growth

Human postnatal dental pulp cells co-differentiate into osteoblasts and endotheliocytes: a pivotal synergy leading to adult bone tissue formation

Immunology / Stem Cells / Cancer / Flow Cytometry / Transmission Electron Microscopy / Stem Cell / Apoptosis / Stem Cell Transplantation / Biological Sciences / Cell Differentiation / Humans / Animals / Cell Death / Cdd / Neurons / Differentiation / Chip / Rats / Adult / Endothelial cell / Time Factors / Adipocytes / Stromal Cells / Three Dimensional / Wistar Rats / Osteogenesis / Angiotensin Converting Enzyme / Osteoblasts / Gene expression profiling / Cell Growth / Stem Cell / Apoptosis / Stem Cell Transplantation / Biological Sciences / Cell Differentiation / Humans / Animals / Cell Death / Cdd / Neurons / Differentiation / Chip / Rats / Adult / Endothelial cell / Time Factors / Adipocytes / Stromal Cells / Three Dimensional / Wistar Rats / Osteogenesis / Angiotensin Converting Enzyme / Osteoblasts / Gene expression profiling / Cell Growth

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