Int J Prosthodont. 2020 Jul/Aug;33(4):410-417. doi: 10.11607/ijp.6419.
To evaluate the dimensional accuracy of impressions made using a new fast-setting polyether material.
A metallic reference model with two crown preparations, one inlay preparation, and three stainless steel precision balls was digitized to create a digital reference model. Sixteen one-step impressions were made for each of the four study groups, differing in impression material (regular-setting polyether [RSP] vs fast-setting polyether [FSP]) and technique (monophase vs dualphase), for a total of 64 specimens. Plaster casts fabricated from these impressions were digitized using 3D scans. Global accuracy was studied by evaluating distance and angle deviations between the replica and the reference model. Local accuracy was described in terms of trueness and precision of the aligned individual abutment tooth surfaces.
For all impression materials and techniques, the local accuracy at the abutment tooth level was excellent. For surfaces prepared for crowns, mean trueness was < 10 μm, and mean precision < 12 μm. Inlay surfaces were associated with higher inaccuracies (mean trueness < 21 μm and mean precision < 37 μm). The greatest global inaccuracies were generally measured for the cross-arch span, with mean distance changes between -55 μm and -94 μm. For all aspects of studied accuracy, impressions with FSP were at least comparable to those fabricated with RSP.
Within the limitations of this study, all tested polyether materials would allow for clinically acceptable impression making. The new fast-setting material could be an alternative to regular-setting polyether materials, especially for single crowns and small fixed partial dentures.
评估使用新型快速凝固聚醚材料制取印模的尺寸精度。
将具有两个牙冠预备体、一个嵌体预备体和三个不锈钢精密球体的金属参照模型进行数字化处理,以创建数字参照模型。对 4 个研究组的 16 个一步法印模进行分组,每组使用不同的印模材料(常规凝固聚醚[RSP]与快速凝固聚醚[FSP])和技术(单相法与双相法),每组制取 16 个印模,共 64 个试件。使用 3D 扫描对这些印模制取的石膏模型进行数字化处理。通过评估复制模型与参照模型之间的距离和角度偏差来研究整体精度。通过描述对准的各个基牙牙面的准确性和精密度来描述局部精度。
对于所有印模材料和技术,基牙牙面的局部精度均表现出色。对于牙冠预备体表面,平均准确性<10 μm,平均精密度<12 μm。嵌体预备体表面的误差较大(平均准确性<21 μm,平均精密度<37 μm)。跨颌弓的整体误差最大,平均距离变化为-55 μm 至-94 μm。在所研究的准确性的所有方面,FSP 制取的印模至少与 RSP 制取的印模相当。
在本研究的限制范围内,所有测试的聚醚材料都可以实现临床可接受的印模制取。新型快速凝固材料可能是常规凝固聚醚材料的替代物,尤其是对于单冠和小型固定局部义齿。
