In vitro biofilms formation on polymer matrix composites

## Abstract Biofilm formation was evaluated on the following titanium and zirconia implants __in vivo__: machined titanium (Ti‐m), modified titanium (TiUnite^®^), modified zirconia (ZiUnite^®^), machined alumina‐toughened zirconia (ATZ‐m), sandblasted alumina‐toughened zirconia (ATZ‐s), and machine

## Abstract __Enterococcus faecalis__ is the most predominant bacteria in teeth with failed root canal therapy and is found to survive harsh conditions prevailing in the root canals of endodontically treated teeth. This study aims to investigate the interaction between __E. faecalis__ and root cana

Poly(ethylene glycol) (PEG) coatings are known to reduce microbial adhesion in terms of numbers and binding strength. However, bacterial adhesion remains of the order of 10 4 cm À2 . It is unknown whether this density of bacteria will eventually grow into a biofilm. This study investigates the kinet

The present study is on the effect of y radiation on the electrcconductivity of two polymer -matrix composite materials and their application. When the absorption dose came to the peak value dose 6 X 1 O'Gy , the electroconductivity of the graphite -PM-MA composite materials reached a peak value of

## Abstract Antibiotic coating systems have been successfully used to prevent bacterial attachment and biofilm formation. Our purpose was to evaluate whether bioabsorbable polylactide‐co‐glycolide (PLGA) 80/20 on its own, and PLGA together with ciprofloxacin (PLGA+C) have any advantages over titani