Anodization and Its Role in Peri-Implant Tissue Adhesion: A Novel 3D Bioprinting Approach
Béla Kolarovszki, Alexandra Steinerbrunner-Nagy, Dorottya Frank, Gábor Decsi, Attila Mühl, Beáta Polgár, Péter Maróti, Ákos Nagy, Judit E. Pongrácz, Kinga Turzó

TL;DR
This study uses 3D bioprinting to compare how yellow anodized titanium abutments affect epithelial cell behavior compared to traditional ones, finding better cell organization on anodized surfaces.
Contribution
A novel 3D bioprinted peri-implant mucosa model was developed to evaluate epithelial cell responses to yellow anodized titanium surfaces.
Findings
Anodized titanium surfaces showed enhanced epithelial cytoskeletal organization compared to turned surfaces.
TRITC-phalloidin signal intensity was significantly higher on anodized samples after 21 days.
Both surfaces supported epithelial coverage in a 3D environment.
Abstract
Background: Soft tissue stability around dental implant abutments is critical for maintaining a functional peri-implant seal. Yellow anodization is used to improve the aesthetic and surface characteristics of titanium abutments, yet its epithelial effects under more physiologically relevant 3D conditions remain insufficiently explored. Objective: To develop a 3D bioprinted in vitro peri-implant mucosa model and to compare epithelial cell responses on yellow anodized versus turned titanium abutment surfaces. Methods: Commercial Grade 5 (Ti6Al4V) titanium abutments were anodized and compared with turned controls. A collagen-based 3D bioprinted “collar-like” construct incorporating YD-38 epithelial cells was fabricated using a custom holder system to simulate peri-implant mucosal contact. Samples were cultured for 14 and 21 days. Cell distribution and morphology were assessed by optical…
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Taxonomy
TopicsBone Tissue Engineering Materials · 3D Printing in Biomedical Research · Dental Implant Techniques and Outcomes
