Fully digital workflow for producing implant-supported overdentures milled from PMMA on titanium bars using PEEK as the female part/sliding mechanism in three clinical visits: A case report.

International journal of oral implantology (Berlin, Germany) Pub Date : 2022-09-09

Thomas Van de Winkel, Frans Delfos, Olleke van der Heijden, Luc Verhamme, Gert Meijer

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Abstract

Purpose: To prove that a fully digital workflow, even for registration of the maxillomandibular relationship, can be employed to produce implant-supported overdentures and demonstrate that CAD/CAM techniques can be used to mill permanent implant-supported overdentures from polymethylmethacrylate discs, using polyetheretherketone as the sliding mechanism.

Materials and methods: An edentulous 64-year-old woman received six implants in the maxilla after a bone augmentation procedure and two implants in the mandible. Five months after implant placement, intraoral scans were taken of her original complete dentures, of each prosthesis individually, and of both in centric relation, and another was taken of both edentulous arches, including the scan bodies. Along with facial photographs, sufficient digital data were gathered to design and mill titanium bars, polyetheretherketone female parts and a trial implant-supported overdenture. The tooth positions and colour were discussed with the patient using Smile Design software (3Shape, Copenhagen, Denmark). In the second session, the bars and trial implant-supported overdenture were inserted and checked, and in the third session, the final implant-supported overdentures were inserted.

Results: The milled titanium bar exhibited a passive fit, as did the implant-supported overdentures. After 1 year, no prosthetic complications were noted; the measured pockets were all less than 4 mm in depth. On a visual analogue scale from 0 to 10, with 0 being the worst and 10 being the best, the patient awarded a score of 9 for her satisfaction with the implant-supported overdentures.

Conclusion: A fully digital workflow enables the production of robust wear-resistant implant-supported overdentures milled from polymethylmethacrylate, using polyetheretherketone female parts as the sliding mechanism, in just three clinical sessions.

本刊更多论文

在三次临床访问中，使用PEEK作为母牙/滑动机构，用PMMA在钛棒上铣削生产种植支撑覆盖义齿的全数字化工作流程:一份病例报告。

目的:证明一个完全数字化的工作流程，即使是上颌下颌关系的注册，也可以用于生产种植支撑覆盖义齿，并证明CAD/CAM技术可以使用聚醚醚酮作为滑动机构，从聚甲基丙烯酸甲酯盘磨成永久种植支撑覆盖义齿。材料和方法:一名无牙的64岁女性在骨增强手术后接受了6个上颌种植体和2个下颌骨种植体。种植体放置5个月后，对她的原始全口义齿进行口腔内扫描，分别对每个义齿进行扫描，并对两个义齿的中心关系进行扫描，并对两个无牙弓进行扫描，包括扫描体。除了面部照片，他们还收集了足够的数字数据来设计和加工钛棒、聚醚醚酮女性部件和一个试验性的种植支撑覆盖义齿。使用Smile Design软件(3Shape, Copenhagen, Denmark)与患者讨论牙齿位置和颜色。在第二阶段，插入并检查支架和试验种植覆盖义齿，在第三阶段，插入最终种植支持覆盖义齿。结果:磨钛棒和种植覆盖义齿均表现出被动配合。1年后，无假体并发症;所测袋深均小于4mm。在从0到10的视觉模拟量表上，0为最差，10为最好，患者对种植覆盖义齿的满意度得分为9分。结论:一个完全数字化的工作流程可以在三个临床过程中生产出坚固耐用的种植支撑覆盖义齿，这些义齿由聚甲基丙烯酸甲酯磨成，使用聚醚醚酮母件作为滑动机构。

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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International journal of oral implantology (Berlin, Germany)

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