Add to ORKGIn recent years the progress in the field of nanotechnologies has offered new possibilities to control the superficial features of implant materials down to a nanoscale level. Several studies have therefore tried to explore the effects of nanostructured biomaterial surfaces on the behavior of eukaryotic cells. However, nanotopography could exert an influence also on the behavior of prokaryotic cells, with relevant implications concerning the susceptibility of implant surfaces to infection. Aim of this study was to examine the behavior of Staphylococcus aureus on polyethylene terephthalate (PET) surfaces either cylindrically nanostructured (PET-N) or flat ion-etched (PET-F), and on tissue culture-grade polystyrene (PS). Microbial adherence w...
The interaction between biology and non-viable surfaces is crucial for many organisms and cells. For...
Nanopillared surfaces have emerged as a promising strategy to combat bacterial infections on medical...
Investigating and understanding the response of microbes to various surfaces requires a versatile pa...
In recent years the progress in the field of nanotechnologies has offered new possibilities to contr...
Bacterial infection after surgeries is a serious problem that cannot be treated by traditional antib...
Despite the well-known beneficial effects of biomaterial nanopatterning on host tissue integration, ...
Bacterial infection of implants and prosthetic devices is one of the most common causes of implant f...
Bacterial infection of implants and prosthetic devices is one of the most common causes of implant f...
Surface modifications in the nanoscale regime have shown promising potential in the combat against b...
Catheter-associated infections, most of which are caused by microbial biofilms, are still a serious ...
Bacterial adhesion on surfaces commonly used in medicine and food industry could lead to infections ...
Developing new implant surfaces with anti-adhesion bacterial properties used for medical devices rem...
The surface nanotopography and architecture of medical implant devices are important factors that ca...
There is an increasing interest in developing new methods to reduce bacteria adhesion onto polymeric...
A great challenge of today’s implant development is to construct a surface that promotes tissue inte...
The interaction between biology and non-viable surfaces is crucial for many organisms and cells. For...
Nanopillared surfaces have emerged as a promising strategy to combat bacterial infections on medical...
Investigating and understanding the response of microbes to various surfaces requires a versatile pa...
In recent years the progress in the field of nanotechnologies has offered new possibilities to contr...
Bacterial infection after surgeries is a serious problem that cannot be treated by traditional antib...
Despite the well-known beneficial effects of biomaterial nanopatterning on host tissue integration, ...
Bacterial infection of implants and prosthetic devices is one of the most common causes of implant f...
Bacterial infection of implants and prosthetic devices is one of the most common causes of implant f...
Surface modifications in the nanoscale regime have shown promising potential in the combat against b...
Catheter-associated infections, most of which are caused by microbial biofilms, are still a serious ...
Bacterial adhesion on surfaces commonly used in medicine and food industry could lead to infections ...
Developing new implant surfaces with anti-adhesion bacterial properties used for medical devices rem...
The surface nanotopography and architecture of medical implant devices are important factors that ca...
There is an increasing interest in developing new methods to reduce bacteria adhesion onto polymeric...
A great challenge of today’s implant development is to construct a surface that promotes tissue inte...
The interaction between biology and non-viable surfaces is crucial for many organisms and cells. For...
Nanopillared surfaces have emerged as a promising strategy to combat bacterial infections on medical...
Investigating and understanding the response of microbes to various surfaces requires a versatile pa...