This communication reports the first comparative study addressing the effects of both structural architecture and mechanical loading on human mesenchymal stem cells (hMSC) positioned at the interface of a 3D in vitro model composed of a nanofibre/hydrogel laminate composite. hMSC phenotype was affected by both stimuli over a seven-day period. Cells were orientated parallel to the underlying fibre direction irrespective of environment (electrospun 2D fibre sheet or laminate 2D sheet with collagen gel layer). Application of cyclical tensile force (5% strain, 1 Hz, 1 h per day) encouraged hMSCs to remain at the fibre/gel interface, whereas cells cultured in static conditions migrated from the interface to the upper hydrogel layer. Depending on...
Many studies have shown the influence of soluble factors and material properties on the differentiat...
Surface micro-fabrication techniques have been widely used for spatial control of cells in culture a...
That mechanical properties of the extracellular environment can influence cell behaviour has already...
This communication reports the first comparative study addressing the effects of both structural arc...
This communication reports the first comparative study addressing the effects of both structural arc...
Interactions between cells and the microenvironment have been demonstrated to be key factors in cell...
Human mesenchymal stem cells (hMSCs) have the potential to differentiate into numerous cell types in...
Mounting evidence indicated that human mesenchymal stem cells (hMSCs) are responsive not only to bio...
Numerous studies have demonstrated that the differentiation potential of human mesenchymal stem cell...
The Effect of Mechanical Stimulation on PEG-Encapsulated Mesenchymal Stem Cells By: BROOKE MCCLARREN...
In order to effectively incorporate stem cells into tissue engineering solutions, a deeper understan...
In order to effectively incorporate stem cells into tissue engineering solutions, a deeper understan...
Keeping the stemness of human mesenchymal stem cells (hMSCs) and their adipocyte differentiation pot...
Tissue engineering has played a more and more important role in current research field and medical a...
Mechanical stimuli are an integrant component of the microenvironment controlling the differentiatio...
Many studies have shown the influence of soluble factors and material properties on the differentiat...
Surface micro-fabrication techniques have been widely used for spatial control of cells in culture a...
That mechanical properties of the extracellular environment can influence cell behaviour has already...
This communication reports the first comparative study addressing the effects of both structural arc...
This communication reports the first comparative study addressing the effects of both structural arc...
Interactions between cells and the microenvironment have been demonstrated to be key factors in cell...
Human mesenchymal stem cells (hMSCs) have the potential to differentiate into numerous cell types in...
Mounting evidence indicated that human mesenchymal stem cells (hMSCs) are responsive not only to bio...
Numerous studies have demonstrated that the differentiation potential of human mesenchymal stem cell...
The Effect of Mechanical Stimulation on PEG-Encapsulated Mesenchymal Stem Cells By: BROOKE MCCLARREN...
In order to effectively incorporate stem cells into tissue engineering solutions, a deeper understan...
In order to effectively incorporate stem cells into tissue engineering solutions, a deeper understan...
Keeping the stemness of human mesenchymal stem cells (hMSCs) and their adipocyte differentiation pot...
Tissue engineering has played a more and more important role in current research field and medical a...
Mechanical stimuli are an integrant component of the microenvironment controlling the differentiatio...
Many studies have shown the influence of soluble factors and material properties on the differentiat...
Surface micro-fabrication techniques have been widely used for spatial control of cells in culture a...
That mechanical properties of the extracellular environment can influence cell behaviour has already...
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