Add to ORKGBiological recognition mediates cell and tissue interactions with biomaterials, be the materials employed in a biotechnical environment in vitro or a biomedical environment in vivo. These interactions are typically mediated by proteins that have adsorbed to the biomaterial surface. The principles of protein adsorption and biological recognition are described. Polymer surface modifications to reduce protein adsorption upon biomaterial surfaces are summarized, as are modifications to enhance the irreversible adsorption of proteins. Using these approaches, it may be possible to reduce the extent to which the biomaterial surface and the protein-biomaterial surface are recognized by cells and tissues. Polymer surface modifications to incorporate...
New-generation biomaterials are information-rich and incorporate biologically active components deri...
It is well known that the interaction between a surface and blood components is greatly influenced b...
For many biomedical applications, material surfaces should not only prevent unspecific protein adsor...
Biological recognition mediates cell and tissue interactions with biomaterials, be the materials emp...
This review describes different strategies of surface elaboration for a better control of biomolecul...
In various applications it is desired that biological cells or protein molecules are immobilized at ...
Growing demand for ideal materials in biomedical field not only explores novel approaches, but also ...
We present many examples of surface engineered polymeric biomaterials with nanosize modified layers...
The ability to control the interaction between proteins and cells with biomaterials is critical for ...
Understanding and controlling the interactions between synthetic and biol. materials is of great imp...
A platform capable of integrating variable molecular recognition moieties, having tunable function a...
Stimuli-responsive macromolecules (i.e., pH-, thermo-, photo-, chemo-, and bioresponsive polymers) h...
Materials used for medical applications are required to be compatible with the biological systems in...
Dear Colleagues, Polymer biointerfaces are considered a suitable alternative to the improvement and ...
Control over cell-material surface interactions is the key to many new and improved biomedical devic...
New-generation biomaterials are information-rich and incorporate biologically active components deri...
It is well known that the interaction between a surface and blood components is greatly influenced b...
For many biomedical applications, material surfaces should not only prevent unspecific protein adsor...
Biological recognition mediates cell and tissue interactions with biomaterials, be the materials emp...
This review describes different strategies of surface elaboration for a better control of biomolecul...
In various applications it is desired that biological cells or protein molecules are immobilized at ...
Growing demand for ideal materials in biomedical field not only explores novel approaches, but also ...
We present many examples of surface engineered polymeric biomaterials with nanosize modified layers...
The ability to control the interaction between proteins and cells with biomaterials is critical for ...
Understanding and controlling the interactions between synthetic and biol. materials is of great imp...
A platform capable of integrating variable molecular recognition moieties, having tunable function a...
Stimuli-responsive macromolecules (i.e., pH-, thermo-, photo-, chemo-, and bioresponsive polymers) h...
Materials used for medical applications are required to be compatible with the biological systems in...
Dear Colleagues, Polymer biointerfaces are considered a suitable alternative to the improvement and ...
Control over cell-material surface interactions is the key to many new and improved biomedical devic...
New-generation biomaterials are information-rich and incorporate biologically active components deri...
It is well known that the interaction between a surface and blood components is greatly influenced b...
For many biomedical applications, material surfaces should not only prevent unspecific protein adsor...