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Journal of Orthodontic and Periodontal Biomaterials Research

2022 Volume 2 Issue 2

Improving Orthodontic Mini-Implant Stability Using Stabilization Discs: An Experimental Study


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  1. Department of Oral Biology, School of Medicine and Dentistry, Qatar University, Doha, Oman.
  2. Department of Orthodontics, College of Dental Medicine, University of Jordan, Amman, Oman.
Abstract

The stabilization disc (SD) for orthodontic mini-implants is a novel device designed to enhance anchorage stability and minimize the risk of mini-implant mobility. The disc features a flat structure with four prongs and is crafted from biocompatible materials such as titanium or stainless steel. It provides additional support to mini-implants by improving force distribution and reducing stress concentration around the insertion site. This study aims to evaluate the biomechanical performance of mini-implants with an SD compared to without-SD mini-implants, with a specific focus on their ability to maintain anchorage under orthodontic loading conditions. A finite element analysis (FEA) model was created for a commercially available mini-implant (2.0 mm in diameter and 12 mm in length). The mandible’s anatomical structure was reconstructed in 3D from computed tomography (CT) scans using SpaceClaim software 2023.1. To simulate real-world orthodontic conditions, forces of 10 N were applied at an angle of 30°. This retrospective study explores the role of SDs in enhancing mini-implant stability by reducing displacement and optimizing stress distribution. The evaluation included analyzing von Mises stress, cortical bone deformation, and mini-implant movement under simulated orthodontic loading. The results demonstrate that the SD significantly reduces maximum total displacements by over 41% and redistributes von Mises stresses more evenly across the mini-implant and surrounding bone. Cortical bone stress and deformation were reduced in cases utilizing the SD, indicating enhanced implant stability and durability. The stabilization disc enhances mini-implant stability by improving stress distribution and reducing deformation without requiring permanent implant modifications. Its adaptability makes it a valuable solution for managing variable bone density and high orthodontic forces, offering a promising advancement in orthodontic anchorage.


How to cite this article
Vancouver
Khalil OE, Rahman Y. Improving Orthodontic Mini-Implant Stability Using Stabilization Discs: An Experimental Study. . 2022;2(2):64-75.
APA
Khalil, O. E., & Rahman, Y. (2022). Improving Orthodontic Mini-Implant Stability Using Stabilization Discs: An Experimental Study. Journal of Orthodontic and Periodontal Biomaterials Research, 2(2), 64-75.
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