Add to ORKGa b s t r a c t In this study, we have used nanoimprinting to create a range of micro-and nanoscale gratings, or their combination, in bulk polystyrene plates to investigate anisotropic cell behaviors of human dermal fibroblasts with respect to the aspect ratio (depth/width) of gratings. The depth and width of the polystyrene gratings both show strong effects individually on cell alignment and elongation that are qualitatively similar to the results of other studies. However, consistent quantitative comparison of these individual parameters with different studies is complicated by the diversity of combinations of width and depth that have been tested. Instead, the aspect ratio of the gratings as a unified description of grating topography i...
The organization of cells and extracellular matrix (ECM) in native tissues plays a crucial role in t...
Aim: Topographically modified substrates are increasingly used in tissue engineering to enhance biom...
The natural environment of a living cell is not only organized on a micrometer, but also on a nanome...
Contains fulltext : 36616.pdf (publisher's version ) (Closed access)The difference...
<p>NIH-3T3 fibroblasts on nano-patterns were investigated based on their elongation and orientation ...
In this paper, we report on the influence of shallow micro-and nanopatterned substrata on the attach...
Nano-scale pattern templates have been manufactured in order to study the differences in cell behavi...
Cell culture substrates for contact guidance studies can be developed through polymer processing to ...
Laser holography and microelectronic fabrication techniques have been employed to make grating surfa...
The natural environment of a living cell is not only organized on a micrometer, but also on a nanome...
Traditionally, cell studies have focused mainly on the effects of biochemical signals on cellular be...
Micropatterning is a powerful technique to custom-make and precisely control the surface topography ...
The effect of grating textures on the alignment of cell shape and intracellular actin cytoskeleton h...
The effect of grating textures on the alignment of cell shape and intracellular actin cytoskeleton h...
Cells in their native microenvironment interact with three-dimensional (3D) nanofeatures. Despit...
The organization of cells and extracellular matrix (ECM) in native tissues plays a crucial role in t...
Aim: Topographically modified substrates are increasingly used in tissue engineering to enhance biom...
The natural environment of a living cell is not only organized on a micrometer, but also on a nanome...
Contains fulltext : 36616.pdf (publisher's version ) (Closed access)The difference...
<p>NIH-3T3 fibroblasts on nano-patterns were investigated based on their elongation and orientation ...
In this paper, we report on the influence of shallow micro-and nanopatterned substrata on the attach...
Nano-scale pattern templates have been manufactured in order to study the differences in cell behavi...
Cell culture substrates for contact guidance studies can be developed through polymer processing to ...
Laser holography and microelectronic fabrication techniques have been employed to make grating surfa...
The natural environment of a living cell is not only organized on a micrometer, but also on a nanome...
Traditionally, cell studies have focused mainly on the effects of biochemical signals on cellular be...
Micropatterning is a powerful technique to custom-make and precisely control the surface topography ...
The effect of grating textures on the alignment of cell shape and intracellular actin cytoskeleton h...
The effect of grating textures on the alignment of cell shape and intracellular actin cytoskeleton h...
Cells in their native microenvironment interact with three-dimensional (3D) nanofeatures. Despit...
The organization of cells and extracellular matrix (ECM) in native tissues plays a crucial role in t...
Aim: Topographically modified substrates are increasingly used in tissue engineering to enhance biom...
The natural environment of a living cell is not only organized on a micrometer, but also on a nanome...