A Cone Bean Computer Tomography Investigation of the Newly Formed Mandibular Anterior Ridge following the Treatment of an Extended Comminuted Fracture: A 12-Year Follow-Up.

Pub Date : 2024-02-21 eCollection Date: 2024-01-01 DOI:10.1155/2024/1824016

Pascal Grün, Florian Pfaffeneder-Mantai, Patrick Bandura, Benedikt Schneider, Anna Sophia Bandura, Dritan Turhani

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Abstract

Introduction: Extensive comminuted fractures are associated with tooth loss that ultimately leads to dimensional changes in the hard and soft tissues of the alveolar ridge. Reconstruction of the lost mandibular anterior ridge is very complex due to the natural curvature of the region. Case Presentation. In this case report, the combination of the modified shell technique with autologous bone plates and the guided bone regeneration (GBR) technique was performed on an 18-year-old patient after a comminuted fracture, to ensure new bone formation in the anterior ridge with a natural curvature. After the treatment progressed without complications, three dental implants were placed. Annual cone beam computed tomography (CBCT) images were obtained and evaluated using the GNU Image Manipulation Program (GIMP© 2.10). This allowed measurements of the buccal and lingual bone around the implants, showing the annual bone loss in a twelve-year observation period. Discussion. The treatment of the comminuted fracture and the combination of the modified shell technique with autologous bone plates, the GBR technique, and implant placement can be considered successful. The three dental implants were osseointegrated in 2010, with the buccal bone level averaging 1.31 mm below the implant shoulder and the lingual bone level 1.57 mm above the implant shoulder. In 2021, the measurements showed a bone loss of 0.99 mm at the buccal implant shoulder and 0.69 mm at the lingual implant shoulder.

Conclusion: The combination of the modified shell technique with autologous bone plates and the GBR technique is a reliable method to ensure new bone formation in the anterior ridge. The use of CBCT is an excellent method to evaluate bone resorption around dental implants, but due to minimal bone resorption in the observation period, an annual CBCT examination is exaggerated.

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锥形束计算机断层扫描（Cone Bean Computer Tomography）对治疗扩展性粉碎性骨折后新形成的下颌骨前嵴的研究：12年随访。

简介：大面积粉碎性骨折与牙齿脱落有关，最终导致牙槽嵴硬组织和软组织的尺寸发生变化。由于该区域的自然弯曲，下颌前牙嵴缺失的重建非常复杂。病例介绍。在本病例报告中，一名 18 岁的患者在粉碎性骨折后接受了自体骨板和引导骨再生（GBR）技术相结合的改良外壳技术，以确保在具有自然弧度的前嵴形成新骨。治疗进展顺利，未出现并发症，随后植入了三颗牙种植体。使用 GNU 图像处理程序 (GIMP© 2.10) 获得并评估了年度锥形束计算机断层扫描 (CBCT) 图像。这样就可以测量种植体周围的颊骨和舌骨，显示出 12 年观察期内每年的骨质流失情况。讨论可以说，粉碎性骨折的治疗以及改良外壳技术与自体骨板、GBR 技术和种植体植入的结合是成功的。2010 年，三颗种植体实现了骨结合，颊骨水平平均低于种植体肩部 1.31 毫米，舌骨水平平均高于种植体肩部 1.57 毫米。2021 年的测量结果显示，颊侧种植体肩部的骨量损失为 0.99 毫米，舌侧种植体肩部的骨量损失为 0.69 毫米：结论：将改良外壳技术与自体骨板和 GBR 技术相结合是确保前牙嵴新骨形成的可靠方法。使用 CBCT 是评估牙科种植体周围骨吸收的绝佳方法，但由于在观察期内骨吸收极少，每年进行一次 CBCT 检查显得有些夸张。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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