Production and Characterization of Bioactive and Antimicrobial Titanium Oxide Surfaces with Silver Nanoparticles and a Poly(lactic Acid) Microfiber Coating

Abstract: Silver nanoparticles (AgNp) were deposited on highly porous TiO2 surfaces by the dripping of a colloidal AgNp solution to provide antimicrobial activity. Micro-porous TiO2 surfaces were obtained on commercially pure titanium by micro-arc oxidation in an electrolyte containing Ca and P precursors. In addition, as silver can be toxic to cells, these surfaces were uniformly covered with the biocompatible and bioresorbable poly(lactic acid) (PLA) polymer by electrospinning, aiming at promoting a controlled release… Show more

“…Ag contributed to antibacterial activity, while HA promoted cell proliferation and mitigated the minor adverse effect of Ag on cell viability. To enhance cell compatibility with antibacterial coatings or extend antibacterial substance release, polydopamine [147,148] and polylactic acid [149] can be loaded on the coating surface through secondary surface treatment.…”

Micro-Arc Oxidation in Titanium and Its Alloys: Development and Potential of Implants

“…Ag contributed to antibacterial activity, while HA promoted cell proliferation and mitigated the minor adverse effect of Ag on cell viability. To enhance cell compatibility with antibacterial coatings or extend antibacterial substance release, polydopamine [147,148] and polylactic acid [149] can be loaded on the coating surface through secondary surface treatment.…”

Micro-Arc Oxidation in Titanium and Its Alloys: Development and Potential of Implants