•  
  •  
 

First Page

1449

Last Page

1458

Abstract

Background/purpose: Titanium (Ti) dental implants must resist biocorrosion while maintaining biocompatibility. This study developed a dual-layer biphasic calcium phosphates/tantalum pentoxide (BCPs/Ta₂O₅) coating on Ti to improve both biocorrosion resistance and biological performance.

Materials and methods: A dense Ta₂O₅ inner layer was fabricated via a hydrolysis–condensation process to act as a corrosion barrier. Subsequently, a porous BCPs outer layer was deposited by electrochemical cathodic deposition to provide a bioactive interface. Surface morphology, functional groups, crystalline structure, wettability, surface free energy, coating thickness and nanostructure, protein adsorption, and in vitro bioactivity were characterized. Biocorrosion behavior was evaluated using polarization curve measurements in simulated blood plasma and artificial saliva with and without fluoride ions. Cellular responses, adhesion, proliferation, and differentiation of human bone marrow mesenchymal stem cells, were assessed. Statistical analysis was performed using one-way ANOVA followed by Tukey’s post-hoc test.

Results: The Ta₂O₅ inner layer significantly improved biocorrosion resistance, evidenced by increased corrosion potential and reduced anodic current density, even under fluoride-containing conditions. The porous BCPs outer layer increased wettability, surface free energy, protein adsorption, and in vitro bioactivity, thereby promoting cell spreading, cytoskeletal organization, and proliferation. The bioactive BCPs coating on Ta₂O₅/Ti surface significantly enhanced alkaline phosphatase activity, suggesting a favorable early osteogenic response, without compromising the corrosion protection provided by the underlying Ta₂O₅ layer.

Conclusion: Dual-layer BCPs/Ta₂O₅ coating on Ti surface combines enhanced biocorrosion resistance with osteogenic bioactivity and represents a promising surface modification strategy for Ti dental implants, although studies are required to assess long-term stability and durability.

Publication Date

2026

Share

COinS