Hamm Jennifer, Berndt Ernst-Ulrich, Beuer Florian, Zachriat Christine
Int J Comput Dent. 2020;23(1):49-56.
Evaluation of appropriate models for computer-aided design/computer-aided manufacturing (CAD/CAM) in vitro studies by investigation of different model materials regarding suitability for intraoral scanners and dimensional stability.
A typodont model was prepared to accommodate a 10-unit prosthesis. The model was duplicated using six different materials: class IV die stone (DS), cobalt-chrome molybdenum (CoCrMo), epoxy resin (EPOX), polyurethane (PU), titanium (TI), and zirconia (ZI). An intraoral scanner was used to obtain three scans of each model. Reference datasets were generated using micro-computed tomography (micro-CT). The first scan was compared with the corresponding reference micro-CT dataset to assess its trueness. The precision was measured by comparing all scans within one test group. For the evaluation of dimensional stability, micro-CT was used to generate three-dimensional (3D) datasets of the models at different time intervals over a 6-week period. The models were kept under constant conditions during the study. All datasets were analyzed with software that determined the deviation of two datasets by alignment using a best-fit algorithm.
The criterion of trueness was fulfilled by CoCrMo, EPOX, PU, and the typodont model. Scans of CoCrMo and ZI showed the best precision. PU and the typodont model did not meet the requirement of dimensional stability, whereas EPOX and gypsum were stable only for a period of 10 days.
The CoCrMo model was the only one that met all the criteria for an appropriate model for CAD/CAM in vitro studies. The other investigated materials either lacked dimensional stability or could not be scanned accurately and reproducibly.
通过研究不同模型材料在口腔内扫描仪适用性和尺寸稳定性方面的情况,评估适用于计算机辅助设计/计算机辅助制造(CAD/CAM)体外研究的合适模型。
制备一个用于容纳10单位修复体的牙模型。使用六种不同材料复制该模型:IV类代型石膏(DS)、钴铬钼(CoCrMo)、环氧树脂(EPOX)、聚氨酯(PU)、钛(TI)和氧化锆(ZI)。使用口腔内扫描仪对每个模型进行三次扫描。使用微型计算机断层扫描(micro-CT)生成参考数据集。将第一次扫描与相应的参考微型CT数据集进行比较,以评估其准确性。通过比较一个测试组内的所有扫描来测量精度。为了评估尺寸稳定性,在6周的时间内,使用微型CT在不同时间间隔生成模型的三维(3D)数据集。在研究期间,模型保持在恒定条件下。所有数据集均使用通过最佳拟合算法对齐来确定两个数据集偏差的软件进行分析。
CoCrMo、EPOX、PU和牙模型满足准确性标准。CoCrMo和ZI的扫描显示出最佳精度。PU和牙模型不符合尺寸稳定性要求,而EPOX和石膏仅在10天内保持稳定。
CoCrMo模型是唯一满足CAD/CAM体外研究合适模型所有标准的模型。其他研究的材料要么缺乏尺寸稳定性,要么无法准确且可重复地进行扫描。
