Add to ORKGEpithelial cells are mainly responsible for the formation of tissues that cover the external and internal surfaces of organs like skin, lining of the lungs and intestines. The cells must adhere to substrates and to each other in compliance with certain stimulus. In this way, adhesion properties can be regulated by the cell which simultaneously senses the chemical and mechanical properties of its environment. Their adhesion and growth on biomaterials depends on substrate properties such as surface wettability, topography and chemistry. The aim of this study is to investigate cell-surface interactions using several materials and different surfaces
Biocompatibility of biomaterials relates, amongst others, to the absence of adverse cellular reactio...
Biocompatibility of biomaterials relates, amongst others, to the absence of adverse cellular reactio...
This thesis concerns cell adhesion to polymer surfaces with an experimental emphasis on hydrogels. T...
Epithelial cells are mainly responsible for the formation of tissues that cover the external and int...
Generally, cell interactions with the surface of biomaterials are mediated by chemical groups and bi...
Cell adhesion is a basic requirement for anchorage-dependent cells to survive on the matrix. It is t...
Surface interaction at the biomaterial–cell interface is essential for a variety of cellular functio...
Cell-substrate interactions play a crucial role in the design of better biomaterials and integration...
Cell adhesion is a multi-process phenomenon involving physical, physico-chemical and biological mech...
In complex organisms, cells are often dependent on their extracellular matrix (ECM) for structural i...
Cells can interpret information from their extracellular environment by turning physical cues into b...
The mechanical interactions of cells are mediated through adhesive interactions. In this study, we e...
Cell adhesion is the first step of cell response to materials and the extracellular matrix (ECM), an...
Cell adhesion to biomaterials is an important prerequisite of tissue cells in successful incorporati...
Based on the hypothesis that material substrates are able to trigger the regeneration of a cell popu...
Biocompatibility of biomaterials relates, amongst others, to the absence of adverse cellular reactio...
Biocompatibility of biomaterials relates, amongst others, to the absence of adverse cellular reactio...
This thesis concerns cell adhesion to polymer surfaces with an experimental emphasis on hydrogels. T...
Epithelial cells are mainly responsible for the formation of tissues that cover the external and int...
Generally, cell interactions with the surface of biomaterials are mediated by chemical groups and bi...
Cell adhesion is a basic requirement for anchorage-dependent cells to survive on the matrix. It is t...
Surface interaction at the biomaterial–cell interface is essential for a variety of cellular functio...
Cell-substrate interactions play a crucial role in the design of better biomaterials and integration...
Cell adhesion is a multi-process phenomenon involving physical, physico-chemical and biological mech...
In complex organisms, cells are often dependent on their extracellular matrix (ECM) for structural i...
Cells can interpret information from their extracellular environment by turning physical cues into b...
The mechanical interactions of cells are mediated through adhesive interactions. In this study, we e...
Cell adhesion is the first step of cell response to materials and the extracellular matrix (ECM), an...
Cell adhesion to biomaterials is an important prerequisite of tissue cells in successful incorporati...
Based on the hypothesis that material substrates are able to trigger the regeneration of a cell popu...
Biocompatibility of biomaterials relates, amongst others, to the absence of adverse cellular reactio...
Biocompatibility of biomaterials relates, amongst others, to the absence of adverse cellular reactio...
This thesis concerns cell adhesion to polymer surfaces with an experimental emphasis on hydrogels. T...