无牙上颌骨口内扫描的准确性——一项体外研究。

Accuracy of intraoral scans of the edentulous maxilla - an in vitro study.

作者信息

Kontis Panagiotis, Güth Jan-Frederik, Keul Christine

机构信息

Department of Prosthetic Dentistry, University Hospital, LMU Munich, Goethestrasse 70, Munich, 80336, Germany.

Department of Prosthetic Dentistry, Center for Dentistry and Oral Medicine (Carolinum), Goethe-University Frankfurt Am Main, Frankfurt Am Main, D-60596, Germany.

出版信息

Clin Oral Investig. 2025 Jun 17;29(7):342. doi: 10.1007/s00784-025-06419-w.

DOI:10.1007/s00784-025-06419-w

PMID:40524076

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12170734/

Abstract

OBJECTIVE

Investigation of the accuracy of various digitalization methods and the accuracy of digitalization of different regions of the edentulous maxilla.

MATERIAL AND METHOD

A PEEK edentulous maxilla with four spherical reference geometries served as the testing model. A reference dataset (REF) was generated using a highly accurate 3D measuring instrument. The testing model was digitized as follows (n = 25/group). Direct digitalization (DD) with intraoral scanners (IOS): 1) Cerec AC Primescan (PRI), 2) Trios 4 Move (TR4), 3) Trios 3 Wireless (TR3), 4) Indirect digitalization of PVS impression with laboratory scanner 3Shape D810 (D8I). Three-dimensional deviations between REF and TEST were evaluated (GOM Inspect) in different areas of the model: 1) Complete Surface, 2) Alveolar Ridge, 3) Vestibular Ridge, 4) Palate, 5) Posterior Seal, 6) Border. Significant differences were analyzed with the Games-Howell test for trueness (p < 0.05) and multiple comparisons Levene's test for precision (for IOS: p < 0.008, for area: p < 0.003).

RESULTS

Group D8I revealed the best trueness for Complete Surface (7.95 µm), Palate (9.11 µm), and Border (20.22 µm). Alveolar Ridge showed for PRI (16.45 µm) and TR4 (8.96 µm) the highest trueness. Groups TR4 and PRI resulted in significantly higher precision for Alveolar Ridge. Groups TR4 and D8I demonstrated the highest precision for Palate. Complete Surface and Alveolar Ridge showed for all digitalization methods significantly higher precision.

CONCLUSIONS

Indirect digitalization of impressions remains the most accurate approach for capturing edentulous jaws, whereas IOS deliver datasets with clinically acceptable accuracy. Peripheral regions characterized by limited accessibility and smooth surface morphology tend to demonstrate increased deviations in the resulting digital datasets.

CLINICAL RELEVANCE

Indirect digitalization of the impression still appears to be the most appropriate technique to access the clinical workflow for full dentures due to the superior digitalization trueness and inclusion of functional movements. Direct and indirect digitalization show nearly equal values for precision.

摘要

目的

研究各种数字化方法的准确性以及无牙上颌不同区域数字化的准确性。

材料与方法

使用带有四种球形参考几何形状的聚醚醚酮（PEEK）无牙上颌作为测试模型。使用高精度3D测量仪器生成参考数据集（REF）。测试模型按以下方式进行数字化处理（每组n = 25）。使用口内扫描仪（IOS）进行直接数字化（DD）：1）Cerec AC Primescan（PRI），2）Trios 4 Move（TR4），3）Trios 3 Wireless（TR3），4）用实验室扫描仪3Shape D810对藻酸盐印模进行间接数字化（D8I）。在模型的不同区域评估REF和TEST之间的三维偏差（GOM Inspect）：1）完整表面，2）牙槽嵴，3）前庭嵴，4）腭部，5）后堤区，6）边缘。使用Games - Howell检验分析准确性的显著差异（p < 0.05），使用Levene检验进行精度的多重比较（对于IOS：p < 0.008，对于区域：p < 0.003）。

结果

D8I组在完整表面（7.95 µm）、腭部（9.11 µm）和边缘（20.22 µm）显示出最佳的准确性。牙槽嵴对于PRI（16.45 µm）和TR4（8.96 µm）显示出最高的准确性。TR4组和PRI组在牙槽嵴方面的精度显著更高。TR4组和D8I组在腭部显示出最高的精度。完整表面和牙槽嵴在所有数字化方法中均显示出显著更高的精度。