Add to ORKGEdited Abstract: Mechanotransduction is the process by which cells convert mechanical stimuli into an adaptive gene- and protein-level response, via signalling cascades or direct physical effects of the cytoskeleton on the nucleus, and appropriate mechanosignalling is crucial for tissue development and function. Most techniques currently used to study cellular mechanoresponses are relatively damaging to the cells. In contrast, topographically structured substrates, such as microgrooves, have great potential for use as non-invasive mechanostimuli. In this study, quartz microgrooved substrata (2 μm depth x 25 μm pitch) were used as platforms for the confinement and alignment of cells. A multi-layered approach was adopted to begin to in...
ABSTRACT Analysis of cellular mechanotransduc-tion, the mechanism by which cells convert mechanical ...
Topography and its effects on cell adhesion, morphology, growth and differentiation are well documen...
Mesenchymal stem cells (MSCs) are a promising cell source and widely used in a variety of regenerati...
The contact of cells and surface topography plays a major role in the control of cell growth, differ...
Living cells are constantly exposed to mechanical stimuli arising from the surrounding extracellular...
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminar...
Cells sense a variety of different mechanochemical stimuli and promptly react to such signals by res...
Studying a cell’s ability to sense and respond to mechanical cues has emerged as a field unto itself...
Our improved understanding of cell mechano-sensing has been enabled by developments in biomaterials ...
Mechanical stimuli regulate a variety of cell physiological functions including gene induction, prot...
Overall, the work presented in this thesis demonstrates the importance of topography, which mimic th...
Within the past decade, there has been abounding scientific evidences supporting the notion that mec...
Extracellular mechanophysical signals from both static substrate cue and dynamic mechanical loading ...
Cells are able to perceive complex mechanical cues from their microenvironment, which in turn influe...
ABSTRACT Analysis of cellular mechanotransduc-tion, the mechanism by which cells convert mechanical ...
Topography and its effects on cell adhesion, morphology, growth and differentiation are well documen...
Mesenchymal stem cells (MSCs) are a promising cell source and widely used in a variety of regenerati...
The contact of cells and surface topography plays a major role in the control of cell growth, differ...
Living cells are constantly exposed to mechanical stimuli arising from the surrounding extracellular...
The environment around a cell during in vitro culture is unlikely to mimic those in vivo. Preliminar...
Cells sense a variety of different mechanochemical stimuli and promptly react to such signals by res...
Studying a cell’s ability to sense and respond to mechanical cues has emerged as a field unto itself...
Our improved understanding of cell mechano-sensing has been enabled by developments in biomaterials ...
Mechanical stimuli regulate a variety of cell physiological functions including gene induction, prot...
Overall, the work presented in this thesis demonstrates the importance of topography, which mimic th...
Within the past decade, there has been abounding scientific evidences supporting the notion that mec...
Extracellular mechanophysical signals from both static substrate cue and dynamic mechanical loading ...
Cells are able to perceive complex mechanical cues from their microenvironment, which in turn influe...
ABSTRACT Analysis of cellular mechanotransduc-tion, the mechanism by which cells convert mechanical ...
Topography and its effects on cell adhesion, morphology, growth and differentiation are well documen...
Mesenchymal stem cells (MSCs) are a promising cell source and widely used in a variety of regenerati...