Add to ORKGAssuring cell adhesion to an underlying biomaterial surface is vital in implant device design and tissue engineering, particularly under circumstances where cells are subjected to potential detachment from overriding fl uid fl ow. Cell–substrate adhesion is a highly regulated process involving the interplay of mechanical properties, surface topographic features, electrostatic charge, and biochemical mechanisms. At the nanoscale level, the physical properties of the underlying substrate are of particular importance in cell adhesion. Conventionally, natural, pro-adhesive, and often thrombogenic, protein biomaterials are frequently utilized to facilitate adhesion. In the present study, nanofabrication techniques are utilized to enhance the bio...
Various nanoparticles have been investigated as drug carriers for delivery to diseased cells in the ...
It is well-known that cellular behavior can be guided by chemical signals and physical interactions ...
Organised nanotopography mimicking the natural extracellular matrix can be used to control morpholog...
Assuring cell adhesion to an underlying biomaterial surface is vital in implant device design and ti...
Cells in the human body come across many types of information, which they respond to. Both material ...
Endothelialization of therapeutic cardiovascular implants is essential for their intravascular hemoc...
As materials technology and the field of biomedical engineering advances, the role of cellular mecha...
textCurrent biomaterials are designed to be passive in nature to prevent the initiation of adverse i...
Investigation of the interactions between cells and material surfaces is important not only for the ...
For a physical understanding of adhesion, surfaces of defined adhesion properties are required. In t...
The ability to control cell adhesion on material surfaces is critical to the performance and compati...
We have engineered biomaterials that display nanoclusters of ligands that bind both integrin and syn...
Organised nanotopography mimicking the natural extracellular matrix can be used to control morpholog...
Organised nanotopography mimicking the natural extracellular matrix can be used to control morpholog...
The vascular system, one of the bases of life mechanisms, connects tissues and organs by means of bl...
Various nanoparticles have been investigated as drug carriers for delivery to diseased cells in the ...
It is well-known that cellular behavior can be guided by chemical signals and physical interactions ...
Organised nanotopography mimicking the natural extracellular matrix can be used to control morpholog...
Assuring cell adhesion to an underlying biomaterial surface is vital in implant device design and ti...
Cells in the human body come across many types of information, which they respond to. Both material ...
Endothelialization of therapeutic cardiovascular implants is essential for their intravascular hemoc...
As materials technology and the field of biomedical engineering advances, the role of cellular mecha...
textCurrent biomaterials are designed to be passive in nature to prevent the initiation of adverse i...
Investigation of the interactions between cells and material surfaces is important not only for the ...
For a physical understanding of adhesion, surfaces of defined adhesion properties are required. In t...
The ability to control cell adhesion on material surfaces is critical to the performance and compati...
We have engineered biomaterials that display nanoclusters of ligands that bind both integrin and syn...
Organised nanotopography mimicking the natural extracellular matrix can be used to control morpholog...
Organised nanotopography mimicking the natural extracellular matrix can be used to control morpholog...
The vascular system, one of the bases of life mechanisms, connects tissues and organs by means of bl...
Various nanoparticles have been investigated as drug carriers for delivery to diseased cells in the ...
It is well-known that cellular behavior can be guided by chemical signals and physical interactions ...
Organised nanotopography mimicking the natural extracellular matrix can be used to control morpholog...