Add to ORKGSurface topographical features on biomaterials, both at the submicrometre and nanometre scales, are known to influence the physicochemical interactions between biological processes involving proteins and cells. The nanometre-structured surface features tend to resemble the extracellular matrix, the natural environment in which cells live, communicate, and work together. It is believed that by engineering a well-defined nanometre scale surface topography, it should be possible to induce appropriate surface signals that can be used to manipulate cell function in a similar manner to the extracellular matrix. Therefore, there is a need to investigate, understand, and ultimately have the ability to produce tailor-made nanometre scale surface top...
Control over biointerfacial interactions in vitro and in vivo is the key to many biomedical applicat...
ovel patterning technologies have expanded the fundamental under-standing of cellular function at th...
Promising strategies for treating diseases and conditions like cancer, tissue necrosis from injury, ...
Copyright © 2013 Xuan Le et al.This is an open access article distributed under the Creative Commons...
Nanotechnology allows for the construction of scaffold and devices that interact at the subcellular ...
In terms of biomaterial development and implant technology, the cellular response can be affected by...
This thesis is focused on understanding the fundamental physical interaction occurring, when a mater...
Polymers have gained a remarkable place in the biomedical fi eld as materials for the fabrication o...
Abstract The interactions occurring between biological systems and the surface of biomaterials has b...
Research at the interface between bioengineering and nanotechnology presents exciting opportunities ...
Background: Protein adsorption is the first of a complex series of events that regulates many phenom...
Regulation of cell behavior in response to nanoscale features has been the focus of much research in...
International audienceThe human body is an intricate biochemical–mechanical system, with an exceedin...
The interaction between biology and non-viable surfaces is crucial for many organisms and cells. For...
textPromising strategies for treating diseases and conditions like cancer, tissue necrosis from inj...
Control over biointerfacial interactions in vitro and in vivo is the key to many biomedical applicat...
ovel patterning technologies have expanded the fundamental under-standing of cellular function at th...
Promising strategies for treating diseases and conditions like cancer, tissue necrosis from injury, ...
Copyright © 2013 Xuan Le et al.This is an open access article distributed under the Creative Commons...
Nanotechnology allows for the construction of scaffold and devices that interact at the subcellular ...
In terms of biomaterial development and implant technology, the cellular response can be affected by...
This thesis is focused on understanding the fundamental physical interaction occurring, when a mater...
Polymers have gained a remarkable place in the biomedical fi eld as materials for the fabrication o...
Abstract The interactions occurring between biological systems and the surface of biomaterials has b...
Research at the interface between bioengineering and nanotechnology presents exciting opportunities ...
Background: Protein adsorption is the first of a complex series of events that regulates many phenom...
Regulation of cell behavior in response to nanoscale features has been the focus of much research in...
International audienceThe human body is an intricate biochemical–mechanical system, with an exceedin...
The interaction between biology and non-viable surfaces is crucial for many organisms and cells. For...
textPromising strategies for treating diseases and conditions like cancer, tissue necrosis from inj...
Control over biointerfacial interactions in vitro and in vivo is the key to many biomedical applicat...
ovel patterning technologies have expanded the fundamental under-standing of cellular function at th...
Promising strategies for treating diseases and conditions like cancer, tissue necrosis from injury, ...