Background: Effects of conventional ultrasonic scaler versus an erbium:yttrium-aluminum-garnet (Er:
YAG) laser on titanium surfaces contaminated with subgingival plaque from patients with peri-implantitis are evaluated in terms of: 1) plaque and biocorroded titanium oxide coating removal; 2) surface change induction; and 3) residual biocompatibility toward osteoblasts.
Methods: Subgingival plaque-coated titanium disks with a moderately rough surface were fixed with ethanol and treated with an ultrasonic scaler (metal tip) or Er:YAG laser (20.3 or 38.2 J/cm2) in non-contact mode. Fluorescent detection of residual plaque was performed. Disk surface morphology was evaluated by scanning electron microscopy. Viability, attachment, proliferation, and differentiation of Saos-2 osteoblasts on new and treated disks were assayed by propidium iodide/DNA stain assay and confocal microscopic analysis of cytoskeleton, Ki67, expression of osteopontin and alkaline phosphatase, and formation of mineralized nodules.
Results: Both methods resulted in effective debridement of treated surfaces, the plaque area being reduced to 11.7% with the ultrasonic scaler and £0.03% with the Er:YAG laser (38.2 J/cm2). Ultrasoundtreated disks showed marked surface changes, incomplete removal of the titanium dioxide (TiO2) layer, and scanty plaque aggregates, whereas the Er:YAG laser (38.2 J/cm2) completely stripped away the plaque and TiO2 layer, leaving a micropitted surface. Both treatments maintained a good biocompatibility of surfaces to Saos-2 osteoblasts. Air-water cooling kept disk temperature below the critical threshold of 47C.
Conclusion: This study shows that an ultrasonic scaler with metal tip is less efficient than high-energy Er:YAG irradiation to remove the plaque and TiO2 layer on anodized disks, although both procedures appear capable of restoring an adequate osseoconductivity of treated surfaces. J Periodontol 2017;88:1211-1220.
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