Add to ORKGBiologically inspired materials are being developed with the aim of improving the integration of medical implants and minimizing non-desirable host reactions. A promising strategy is the design of topographically patterned surfaces that resemble those found in the extracellular environment. Nanoporous alumina has been recognized as a potential biomaterial and as an important template for the fabrication of nanostructures. In this thesis in vitro studies were done to elucidate the role of alumina nanoporosity on the inflammatory response. Specifically, by comparing alumina membranes with two pore sizes (20 and 200 nm in diameter). Complement and platelet activation were evaluated as well as monocyte/macrophage behaviour. Whole blood was incu...
This thesis describes a method of growing a highly adherent nano-porous alumina coating on titanium ...
Membranes made from nanoporous alumina exhibit interesting properties for their use in biomedical re...
The osteoimmune environment plays indispensable roles in bone regeneration because the early immune ...
Biologically inspired materials are being developed with the aim of improving the integration of med...
The present study shows that alumina nanotopography affects monocyte/macrophage behavior. Human mono...
This work studied the effect of nanoporous alumina in acute cellular response in an in vivo model. N...
Background: Nanoporous alumina offers many advantages over traditional biomaterials. However, the in...
Abstract In this study we have evaluated the influence of biomaterial nano-topography on platelet ad...
In this study we have evaluated the influence of biomaterial nano-topography on platelet adhesion an...
Nanomaterials offer an advantage over traditional biomaterials since cells naturally communicate via...
In the present study, we have shown the vast importance of biomaterial nanotexture when evaluating i...
In the present study, we have shown the vast importance of biomaterial nanotexture when evaluating i...
The rapid development and application of nanotechnology to biological interfaces has impacted the bo...
This thesis describes a method of growing a highly adherent nano-porous alumina coating on titanium ...
This thesis describes a method of growing a highly adherent nano-porous alumina coating on titanium ...
This thesis describes a method of growing a highly adherent nano-porous alumina coating on titanium ...
Membranes made from nanoporous alumina exhibit interesting properties for their use in biomedical re...
The osteoimmune environment plays indispensable roles in bone regeneration because the early immune ...
Biologically inspired materials are being developed with the aim of improving the integration of med...
The present study shows that alumina nanotopography affects monocyte/macrophage behavior. Human mono...
This work studied the effect of nanoporous alumina in acute cellular response in an in vivo model. N...
Background: Nanoporous alumina offers many advantages over traditional biomaterials. However, the in...
Abstract In this study we have evaluated the influence of biomaterial nano-topography on platelet ad...
In this study we have evaluated the influence of biomaterial nano-topography on platelet adhesion an...
Nanomaterials offer an advantage over traditional biomaterials since cells naturally communicate via...
In the present study, we have shown the vast importance of biomaterial nanotexture when evaluating i...
In the present study, we have shown the vast importance of biomaterial nanotexture when evaluating i...
The rapid development and application of nanotechnology to biological interfaces has impacted the bo...
This thesis describes a method of growing a highly adherent nano-porous alumina coating on titanium ...
This thesis describes a method of growing a highly adherent nano-porous alumina coating on titanium ...
This thesis describes a method of growing a highly adherent nano-porous alumina coating on titanium ...
Membranes made from nanoporous alumina exhibit interesting properties for their use in biomedical re...
The osteoimmune environment plays indispensable roles in bone regeneration because the early immune ...