The raw data of "Biomineralization and Osteogenic Differentiation Modulated by Substrate Stiffness"
Cell differentiation, proliferation and migration are essential processes in tissue regenera-tion. E...
Skeletal muscle differentiation was proven to be influenced by changes in the substrate stiffness. H...
Osteogenic differentiation of cells has considerable clinical significance in bone defect treatment,...
The raw data of "Biomineralization and Osteogenic Differentiation Modulated by Substrate Stiffness"
Substrate stiffness is emerging as an effective tool for the regulation of cell behaviours such as l...
Osteogenic cells respond to mechanical changes in their environment by altering their spread area, m...
Extrinsic mechanical signals have been implicated as key regulators of mesenchymal stem cell (MSC) d...
AbstractOsteogenic cells respond to mechanical changes in their environment by altering their spread...
<div><p>Extrinsic mechanical signals have been implicated as key regulators of mesenchymal stem cell...
Raw data underpinning the publication "A Quantitative In Vitro Model of Human Bone Remodelling using...
It is widely believed that the activities of bone cells at the tissue scale not only govern the size...
OBJECTIVE: Engineering bone in 3D is important for both regenerative medicine purposes and for the d...
Skeletal muscle differentiation was proven to be influenced by changes in the substrate stiffness. H...
Osteocytes are terminally differentiated bone cells, derived from osteoblasts, which comprise over 9...
Construction and adjustment substrate stiffness for expanding cancer stem cells in vitr
Cell differentiation, proliferation and migration are essential processes in tissue regenera-tion. E...
Skeletal muscle differentiation was proven to be influenced by changes in the substrate stiffness. H...
Osteogenic differentiation of cells has considerable clinical significance in bone defect treatment,...
The raw data of "Biomineralization and Osteogenic Differentiation Modulated by Substrate Stiffness"
Substrate stiffness is emerging as an effective tool for the regulation of cell behaviours such as l...
Osteogenic cells respond to mechanical changes in their environment by altering their spread area, m...
Extrinsic mechanical signals have been implicated as key regulators of mesenchymal stem cell (MSC) d...
AbstractOsteogenic cells respond to mechanical changes in their environment by altering their spread...
<div><p>Extrinsic mechanical signals have been implicated as key regulators of mesenchymal stem cell...
Raw data underpinning the publication "A Quantitative In Vitro Model of Human Bone Remodelling using...
It is widely believed that the activities of bone cells at the tissue scale not only govern the size...
OBJECTIVE: Engineering bone in 3D is important for both regenerative medicine purposes and for the d...
Skeletal muscle differentiation was proven to be influenced by changes in the substrate stiffness. H...
Osteocytes are terminally differentiated bone cells, derived from osteoblasts, which comprise over 9...
Construction and adjustment substrate stiffness for expanding cancer stem cells in vitr
Cell differentiation, proliferation and migration are essential processes in tissue regenera-tion. E...
Skeletal muscle differentiation was proven to be influenced by changes in the substrate stiffness. H...
Osteogenic differentiation of cells has considerable clinical significance in bone defect treatment,...