Department of Periodontology, Endodontology, and Cariology, University Centre for Dental Medicine, University of Basel, Basel, Switzerland.
Department of Periodontology, Endodontology, and Cariology, University Centre for Dental Medicine, University of Basel, Basel, Switzerland.
J Endod. 2017 May;43(5):787-790. doi: 10.1016/j.joen.2016.12.016. Epub 2017 Mar 11.
The aim of this study was to assess the accuracy of guided endodontics in mandibular anterior teeth by using miniaturized instruments. This technique is designed to treat teeth with pulp canal calcifications and narrow roots by using a printed template that guides a bur to the calcified root canal.
Sixty sound mandibular anterior teeth were used in 10 mandibular models. Preoperative surface and cone-beam computed tomography scans were matched by using the coDiagnostix software. Virtual planning was performed for the access cavities, and templates were used for guidance. The templates were produced by a three-dimensional printer. Two operators performed the access cavities. A postoperative cone-beam computed tomography scan was superimposed on the virtual plan, and the deviation was measured in 3 dimensions and angles. Descriptive statistical analyses were performed, and 95% confidence intervals were calculated for both operators and each measured aspect.
The deviations between the planned- and prepared-access cavities were low, with means ranging from 0.12 to 0.13 mm for different aspects at the base of the bur and 0.12 to 0.34 mm at the tip of the bur. The mean of angle deviation was 1.59°. A considerable overlap of the 95% confidence intervals indicated no significant difference between the operators. The mean treatment time, including planning and preparation, was approximately 10 minutes per tooth.
Microguided endodontics provides an accurate, fast, and operator-independent technique for the preparation of apically extended access cavities in teeth with narrow roots such as mandibular incisors.
本研究旨在评估使用微型器械进行下颌前牙牙髓腔导航的准确性。该技术旨在通过使用打印模板引导车针对钙化根管进行治疗,以治疗具有根管钙化和根狭窄的牙齿。
10 个下颌模型中使用了 60 颗健康的下颌前牙。使用 coDiagnostix 软件匹配术前表面和锥形束 CT 扫描。对牙体预备进行虚拟规划,并使用模板进行引导。模板由三维打印机制作。两名操作员进行牙体预备。对术后锥形束 CT 扫描进行叠加,并在三维和角度上测量偏差。对两名操作员和每个测量方面进行描述性统计分析,并计算 95%置信区间。
预备的牙体预备腔与计划的牙体预备腔之间的偏差较小,钻头底部不同方面的平均值为 0.12 至 0.13mm,钻头尖端的平均值为 0.12 至 0.34mm。角度偏差的平均值为 1.59°。95%置信区间的显著重叠表明操作员之间没有显著差异。包括规划和准备在内,每颗牙的平均治疗时间约为 10 分钟。
微型牙髓导航为根狭窄的牙齿(如下颌切牙)提供了一种准确、快速且不依赖于操作员的根尖延伸牙体预备技术。
