Microbial resistance to current antibiotics therapies is a major cause of implant failure and
adverse clinical outcomes in orthopaedic surgery. Recent developments in advanced …

Few studies have been able to elucidate the correlation of factors determining the strength of
interaction between bacterial cells and substrate at the molecular level. The aim was to …

We have provided evidence that the beneficial effect of super-oxidized water (SOW)
disinfected Ti6Al4V-TiO 2 nanotubes (NTs) can reduce bacterial adhesion and biofilm …

Statement of problem To improve the osseointegration of dental implants and reduce
microbiological growth, different micro-and nanoscale surface topographies can be used …

Amorphous titanium dioxide (TiO 2) nanotubes (NTs) on Ti6Al4V alloy were synthesized by
anodization using a commercially available super-oxidized water (SOW). The NT surfaces …

The development of nanoadhesion bonds at the cell–material biointerface has been
considered as a current prospective mechanism of microbial adhesion and colonization …

Atherosclerosis lesions are described as the formation of an occlusive wall-vessel plaque
that can exacerbate infarctions, strokes, and even death. Furthermore, atherosclerosis …

The adhesion strength of a bacterial strain on a substrate influences colonization and biofilm
development, so the biomolecular analysis of this interaction is a step that allows insights …

The objective was to compare the physical, chemical, mechanical, and microbiological
properties between discs (n= 10) of Ti–6Al–4V and Ti–35Nb–7Zr–5Ta (TNZT) obtained by …

Objective Implant-related infection is a devastating complication in orthopedic surgery.
Aiming to minimize this problem, many material modifications have been developed. Here …