The nanoscale surface topography of artificial materials is known to play a significant role in
interactions with biological systems such as proteins and cells. A detailed understanding …

Many approaches are used to modify the surface topography of implant materials. Some
produce unordered surfaces using, for example, classical implant surface treatments …

Electrospun grafts have been widely investigated for vascular graft replacement due to their
ease and compatibility with many natural and synthetic polymers. Here, the effect of the …

In this study, the effect of surface topography on fibrinogen and platelet adsorption was
investigated. High aspect ratio surface features, in the submicron to nanometer range, were …

The constant interest in handling, integrating and understanding biological systems of
interest for the biomedical field, the pharmaceutical industry and the biomaterial researchers …

The present work deals with the fabrication of electrospun tubular scaffold based on in-situ
crosslinked blend of gelatin− oxidized carboxymethyl cellulose (OCMC) for vascular tissue …

The engineering of well-defined micro-and nanoscaled surface topographies on biomedical
metals and polymeric materials has been explored as a strategy to control biological …

Biodegradable stent coatings have shown great potential in terms of delivering drugs to a
damaged vessel wall, and their release profiles are key elements governing the overall …

In order to evaluate the respective influence of surface nanotopography and chemical
composition on blood compatibility, plasma protein adsorption (fibrinogen–Fg and albumin …

Abstract Background Calcium (Ca) is a well-known element in bone metabolism and blood
coagulation. Here, we investigate the link between the protein adsorption pattern and the in …