THE MECHANICAL STABILITY AND IN VITRO AND IN VIVO RESPONSE OF TITANIUM ARTHROPLASTY BONE INGROWTH MATERIALS ENHANCED WITH TIO2 NANOTUBES AND ANTIMICROBIAL SILVER

IntroductionTitanium (Ti) alloys are used as porous bone ingrowth materials on non-cemented knee arthroplasty tibial tray implants. Nano-surface mechanism that increase the osseointegration rate between Ti alloys, and surrounding tissue has been recognized to improve the interface to ultimately allow patients to weight bear on non-cemented arthroplasty implants sooner. Bioactive TiO2 nanotube arrays has been shown to accelerate osseointegration. Ideally, these surfaces would both increase the adhesion of bone to the implant and help to reduction of infection to substitute for antibiotic bone cement. This study examines a combination treatment of both TiO2 nanotubes combined with silver nano-deposition, that simultaneously enhances osseointegration while improving infection resistance, by testing ex vivo implantation stability in an equine cadaver bone followed by in vitro and in vivo analysis to understand the biocompatibility and early stage osseointegration.Methods100nm diameter and 300nm length TiO2 na...