Evaluation the Scanning Accuracy of Blue-Light Laboratory Scanners in Complete Edentulous Maxilla with Multiple Implants with Titanium Scan Bodies

IF 0.5 Q4 DENTISTRY, ORAL SURGERY & MEDICINE

Odovtos - International Journal of Dental Sciences Pub Date : 2023-03-28 DOI:10.15517/ijds.2023.54635

Bahadır Ezmek, Osman Cumhur Sipahi

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引用次数: 0

Abstract

To evaluate the accuracy of complete arch scanning with multiple implant titanium scan bodies using laboratory scanners. A master model of an edentulous maxillary arch with 6 implants was fabricated. Titanium scan bodies were inserted into the model. Three laboratory scanners were used: D2000 (3Shape), Vinyl High Resolution (Smart Optics), and inEos X5 (Dentsply Sirona). The master model was consecutively scanned ten times using dental laboratory scanners (LS) without detaching and repositioning the scan bodies. Linear and angular accuracy between adjacent implants was measured using inspection software (Control X, Geomagic). The accuracy of the complete arch scans was calculated. Implant regions were defined as; parallel (R1: #24-26 and #16-14), angled (R2: #22-24 and #14-12), angled to occlusal plane (R3: #12-22), and cross-arch (R4: #16-26). The effect of LS and implant region on accuracy was compared using two-Way ANOVA (α=0.05). Significant greater linear distortion was noted in R4 (61.2±17.9µm) compared to R1 (23.4±15.5µm) and R2 (26±17.7µm) (p<0.01). Greater linear distortions were noted in R4 with D2000 (0.07±0.016 degrees) and Vinyl High Resolution (0.067±0.02 degrees) than inEos X5 (0.032±0.021 degrees) (p>0.05). Greater mean linear precisions were noted in R1 (9±8µm) and R3 (9.3±8.3µm) than R4 (12.6±10.3µm) (p<0.05). The highest linear precision was noted in D2000 (7.2±7.6µm) (p<0.05). The angular precision of D2000 (0.02±0.015 degrees) was the highest (p<0.01). The angular precision of R4 (0.036±0.018 degrees) was the lowest (p<0.01). This study revealed that the trueness was affected by the implant region and the precision was affected by both LS and implant region.

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评价蓝光实验室扫描仪在多种植体钛扫描体全颌无牙的扫描精度

目的评价实验室多种植体钛扫描体全弓扫描的准确性。制作了含6颗种植体的无牙上颌弓主模型。将钛扫描体插入模型中。使用了三种实验室扫描仪:D2000 (3Shape)，乙烯基高分辨率(智能光学)和inEos X5 (Dentsply Sirona)。在不分离和重新定位扫描体的情况下，使用牙科实验室扫描仪(LS)连续扫描主模型10次。使用检测软件(Control X, Geomagic)测量相邻植入物之间的线性和角精度。计算了完整弓扫描的精度。种植区域定义为;平行(R1: #24-26和#16-14)，角度(R2: #22-24和#14-12)，与咬合平面成角度(R3: #12-22)和交叉弓(R4: #16-26)。采用双因素方差分析(two-Way ANOVA)比较LS和种植区域对准确性的影响(α=0.05)。与R1(23.4±15.5µm)和R2(26±17.7µm)相比，R4(61.2±17.9µm)的线性失真明显更大(p0.05)。R1(9±8µm)和R3(9.3±8.3µm)的平均线性精度高于R4(12.6±10.3µm) (p<0.05)。D2000的线性精密度最高(7.2±7.6µm) (p<0.05)。D2000的角精度最高(0.02±0.015°)(p<0.01)。R4(0.036±0.018°)的角度精度最低(p<0.01)。本研究发现，正确率受种植区域的影响，而正确率受LS和种植区域的影响。

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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来源期刊

Odovtos - International Journal of Dental Sciences DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

8 weeks