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The International journal of oral & maxillofacial implants Pub Date : 2025-02-19 DOI:10.11607/jomi.11262

Eunice Siew Pei Lua, Keson Beng Choon Tan, Frank Kong Fei Lee, Sophia Hui Xin Yee, Keng Mun Wong, Ming Yi Tan

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引用次数: 0

摘要

目的：本研究比较了在为无牙下颌骨制作种植体FAFDP框架时，传统工作流程和数字化工作流程的三维（3D）精度：热聚合聚甲基丙烯酸甲酯主模型模拟了一个无牙下颌骨，该下颌骨将由五个种植体（A-E）支撑固定修复体。用 IV 型牙石浇注传统的开放托盘夹板聚醚印模，制作牙石模型，然后用牙科实验室扫描仪扫描，制作虚拟模型。用 CAD/CAM 制作了全轮廓（ZFC，n=5）和反切（ZCB，n=5）氧化锆框架。石头模型被用作制作传统贵金属框架（CNB，n=5）的工作模型。使用 35Ncm 扭矩将每个测试框架连接到五个种植体上。用 IV 型牙科石制作测试模型，待其完全凝固后再拆除测试框架。用坐标测量机测量并比较主模型和测试模型中种植体的中心位置和中心轴。局部坐标系以种植体 A 的中心点为原点；种植体 A、C、E 为 XY 平面；种植体 A、E 为 X 轴。评估了四个线性变形参数（dx、dy、dz、dR）、两个角度变形参数（dθx、dθy）和三维距离变形值（ΔR、%ΔR）：平均 dx、dy、dz 和 dR 的幅度从 39.9±26.4μm （CNB-B）到 263.3±94.6μm （CNB-E），从 56.9±5.4μm （ZFC-B）到 124.5±37.6μm （ZCB-C）。6μm（ZCB-C），分别从-8.3±27.6μm（ZFCD）到-24.6±17.3μm（ZCB-D），以及从80.6±29.4μm（CNB-B）到263.3±94.6μm（CNB-E）。平均 dθx 和 dθy 的范围分别为 0.025±0.486 度（ZFC-C）至 1.490±0.383 度（CNB-C），以及 -0.050±0.171 度（ZCB-B）至 1.263±0.501 度（ZFC-C）。单因素方差分析发现，在一些种植体上，各组间的 dx、dy、dz、dθx 和 dθy 存在差异，但在最差组上没有明显的模式。在全局线性失真方面，CNB-D 的表现最差。对于除 A-E 以外的所有参考距离，CNB 在 ΔR 和 %ΔR 方面都表现出最差的准确性：结论：ZFC 和 ZCB 在所有参数上都没有差异。CNB在四个参考距离中的三个参考距离的ΔR和%ΔR方面表现最差，在四个种植体位置中的一个位置的dR方面表现最差。

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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Comparison of Three-Dimensional Accuracy of Conventional Cast Metal to Milled Zirconia Implant Full-Arch Fixed Dental Prosthesis Frameworks.

Purpose: This study compared three-dimensional (3D) accuracy of conventional and digital workflows in the fabrication of implant FAFDP frameworks for an edentulous mandible.

Materials and methods: A heat-polymerized polymethyl-methacrylate master model simulated an edentulous mandible to be restored with a fixed prosthesis supported by five implants (A-E). A conventional open-tray, splinted-coping polyether impression was poured with Type IV dental stone to produce a stone model, which was scanned with a dental laboratory scanner to produce a virtual model. Full-contour (ZFC, n=5) and cutback (ZCB, n=5) zirconia frameworks were fabricated with CAD/CAM. The stone model was used as a working model to fabricate conventional noble metal frameworks (CNB, n=5). Each test framework was attached to five implants with 35Ncm torque application. Test models were fabricated with Type IV dental stone and allowed to set completely before removing the test frameworks. Centroid positions and central axes of the implants in master and test models were measured with a coordinate measuring machine and compared. The local coordinate system comprised of implant A centroid as origin; implants A, C, E as XY-plane; implants A, E as X-axis. Four linear distortion parameters (dx, dy, dz, dR), two angular distortion parameters (dθx, dθy), and 3D distance distortion values (ΔR, %ΔR) were assessed.

Results: Magnitude of mean dx, dy, dz, and dR ranged from 39.9±26.4μm (CNB-B) to 263.3±94.6μm (CNB-E), from 56.9±5.4μm (ZFC-B) to 124.5±37.6μm (ZCB-C), from -8.3±27.6μm (ZFCD) to -24.6±17.3μm (ZCB-D), and from 80.6±29.4μm (CNB-B) to 263.3±94.6μm (CNB-E) respectively. Magnitude of mean dθx and dθy ranged from 0.025±0.486 degree (ZFC-C) to 1.490±0.383 degree (CNB-C), and from -0.050±0.171 degree (ZCB-B) to 1.263±0.501 degree (ZFC-C) respectively. One-way ANOVA found differences among groups for dx, dy, dz, dθx, and dθy at some implants, but there was no clear pattern on the poorest group. For global linear distortion, CNB-D fared the worst. CNB exhibited the worst accuracy in ΔR and %ΔR for all reference distances except A-E.

Conclusions: There were no differences between ZFC and ZCB for all parameters. CNB fared poorest for ΔR and %ΔR for three of four reference distances, and for dR for one of four implant positions.

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The International journal of oral & maxillofacial implants

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