不同种植体支持的固定局部义齿情况下的体外扫描准确性和时间效率。

In vitro scan accuracy and time efficiency in various implant-supported fixed partial denture situations.

机构信息

Department of Reconstructive Dentistry and Gerodontology, School of Dental Medicine, University of Bern, Bern, Switzerland.

出版信息

J Dent. 2022 Dec;127:104358. doi: 10.1016/j.jdent.2022.104358. Epub 2022 Nov 8.

DOI:10.1016/j.jdent.2022.104358

PMID:36356837

Abstract

OBJECTIVES

To compare the accuracy and time efficiency of different digital workflows in 3 implant-supported fixed partial denture situations.

METHODS

Three partially edentulous maxillary models with 2 implants (Model 1: implants at lateral incisor sites; Model 2: implants at right canine and first molar sites; Model 3: implants at right first premolar and first molar sites) were digitized (ATOS Capsule 200MV120, n=1) for reference scans. Test scans were performed for direct (Primescan (DDW-P) and Trios 3 (DDW-T)) and indirect (IDW) digital workflows (n=14). For IDW, stone casts (type IV) were obtained from vinylsiloxanether impressions and digitized (S600 Arti). The scan/impression and post processing times were recorded. Reference and test scans were superimposed (GOM Inspect) to calculate 3D point, inter-implant distance, and angular deviations. Kruskal-Wallis and Mann-Whitney tests were used for trueness and precision analyses (α=.05).

RESULTS

Tested workflows affected trueness (P≤.030) and precision (P<.001) of scans (3D point, inter-implant distance, and angular deviations) within models. DDW-P had the highest accuracy (3D point deviations) for models 1 and 3 (P≤.046). IDW had the lowest accuracy for model 2 (P<.01). DDW-P had the highest accuracy (inter-implant distance deviations) for model 3 (P≤.048). Direct digital workflow mostly led to lower angular deviations (P≤.040), and higher precision for models 2 (mesiodistal direction) and 3 (P<.001). The time for direct digital workflow was shorter (P<.001), DDW-P being more efficient than DDW-T (P=.008).

CONCLUSION

Direct digital workflow was more accurate and efficient than indirect digital workflow in tested partial edentulism situations with 2 implants.

CLINICAL SIGNIFICANCE

Tested intraoral scanners can be recommended for accurate and efficient impressions of anterior and posterior 3- or 4-unit implant-supported fixed partial dentures.

摘要

目的

比较三种种植体支持的固定局部义齿情况下不同数字化工作流程的准确性和时间效率。

方法

对 3 个上颌部分缺牙模型（模型 1：在侧切牙部位植入种植体；模型 2：在右侧尖牙和第一磨牙部位植入种植体；模型 3：在右侧第一前磨牙和第一磨牙部位植入种植体）进行数字化扫描（ATOS Capsule 200MV120，n=1）作为参考扫描。对直接（Primescan（DDW-P）和Trios 3（DDW-T））和间接（IDW）数字化工作流程（n=14）进行测试扫描。对于 IDW，从乙烯基硅氧烷醚印模中获得石铸模（IV 型）并进行数字化扫描（S600 Arti）。记录扫描/印模和后处理时间。将参考扫描和测试扫描叠加（GOM Inspect）以计算 3D 点、种植体间距离和角度偏差。使用 Kruskal-Wallis 和 Mann-Whitney 检验进行准确性和精度分析（α=.05）。

结果

在所测试的模型内，测试工作流程会影响扫描的准确性（P≤.030）和精度（P<.001）（3D 点、种植体间距离和角度偏差）。DDW-P 对模型 1 和 3 的准确性（3D 点偏差）最高（P≤.046）。IDW 对模型 2 的准确性最低（P<.01）。DDW-P 对模型 3 的准确性（种植体间距离偏差）最高（P≤.048）。直接数字化工作流程主要导致角度偏差较低（P≤.040），并且对模型 2（近远中方向）和 3（P<.001）的精度更高。直接数字化工作流程的时间更短（P<.001），DDW-P 比 DDW-T 更高效（P=.008）。