The Use of Titanium Pins for the Management and Fixation of Free Gingival Grafts and Apically Repositioned Flaps During Vestibuloplasty. A Technique Report.
Kai Zwanzig, Samuel Akhondi, Lorenzo Tavelli, Alejandro Lanis
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Abstract
Introduction: The presence of adequate keratinized mucosa (KM) around dental implants and natural dentition is pivotal for the long-term success of dental restorations. Despite various techniques to augment KM, challenges persist in achieving stable, keratinized, and adherent mucosa, especially in the context of significant muscle pull or compromised tissue conditions. This study introduces a novel application of titanium pins for the fixation of free gingival grafts (FGG) and apically repositioned flaps (APF) during vestibuloplasty, aiming to overcome important limitations associated with traditional suturing methods and shorten the treatment time and patient morbidity.
Methods: Three patients with insufficient KM width, presenting discomfort during oral hygiene and inflammation around implant restorations and natural teeth, underwent soft tissue augmentation using titanium pins traditionally used in guided bone regeneration (GBR) for the stabilization of FGGs and APFs. This method ensures intimate contact between the graft and the periosteum, facilitating proper graft perfusion and revascularization, minimizing shrinkage and the risk for necrosis of the graft.
Results: Postoperative follow-up revealed successful integration of the grafts, with minimal shrinkage and increased width and depth of KM. The use of titanium pins allowed for reliable fixation in challenging surgical sites, where traditional suturing methods were impractical due to the presence of extensive muscle pull and an unstable recipient bed.
Conclusion: The application of titanium pins for the fixation of FGGs and APFs during vestibuloplasty provides a promising alternative to traditional suturing techniques, particularly in complex cases where the recipient bed is suboptimal for suturing. This method simplifies and shortens the procedure, offering a predictable outcome with increased mechanical stability and minimal shrinkage of the graft. Randomized clinical trials are recommended to further evaluate the efficacy of this technique.
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