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A Biomechanical Analysis of the Influence of the Morfology of the Bone Blocks Grafts on the Transfer of Tension or Load to the Soft Tissue by Means of the Finite Elements Method.

Blanca Gil-MarquesAntonio Pallarés-SabaterAritza Brizuela-VelascoFernando Sánchez-LasherasPedro Lázaro-CalvoMaría Dolores Gómez-AdriánCarolina Larrazábal-Morón
Published in: Materials (Basel, Switzerland) (2022)
Edentulism produces resorption of alveolar bone processes, which can complicate placement of dental implants. Guided bone regeneration techniques aim to recover the volume of bone. These treatments are susceptible to the surgical technique employed, the design of the autologous block or the tension of the suture. These factors can relate to major complications as the lack of primary closure and dehiscence. The present study, using finite element analysis, aimed to determine differences in terms of displacement of the oral mucosa, transferred stress according to Von Mises and deformation of soft tissue when two block graft designs (right-angled and rounded) and two levels of suture tension (0.05 and 0.2 N) were combined. The results showed that all the variables analyzed were greater with 0.2 N. Regarding the design of the block, no difference was found in the transferred stress and deformation of the soft tissue. However, displacement was related to a tendency to dehiscence (25% greater in the right-angled/chamfer design). In conclusion different biomechanical behavior was observed in the block graft depending on the design and suture tension, so it is recommended to use low suture tension and rounded design. A novel finite element analysis model is presented for future investigations.
Keyphrases
  • soft tissue
  • finite element analysis
  • bone regeneration
  • stem cells
  • bone loss
  • bone marrow
  • mesenchymal stem cells
  • current status
  • cell therapy
  • platelet rich plasma
  • drug induced