上颌磨牙中根管探测、器械效能和抗折强度受根管预备形态的影响。
Influence of Access Cavity Design on Root Canal Detection, Instrumentation Efficacy, and Fracture Resistance Assessed in Maxillary Molars.
机构信息
Department of Dentistry, Federal University of Santa Catarina, Florianópolis, Santa Catarina, Brazil.
Department of Endodontics, Fluminense Federal University, Niterói, Rio de Janeiro, Brazil.
出版信息
J Endod. 2017 Oct;43(10):1657-1662. doi: 10.1016/j.joen.2017.05.006. Epub 2017 Jul 21.
INTRODUCTION
The aim of this study was to assess the influence of contracted endodontic cavities (CECs) on root canal detection, instrumentation efficacy, and fracture resistance assessed in maxillary molars. Traditional endodontic cavities (TECs) were used as a reference for comparison.
METHODS
Thirty extracted intact maxillary first molars were scanned with micro-computed tomographic imaging at a resolution of 21 μm, assigned to the CEC or TEC group (n = 15/group), and accessed accordingly. Root canal detection was performed in 3 stages: (1) no magnification, (2) under an operating microscope (OM), and (3) under an OM and ultrasonic troughing. After root canal preparation with Reciproc instruments (VDW GmbH, Munich, Germany), the specimens were scanned again. The noninstrumented canal area, hard tissue debris accumulation, canal transportation, and centering ratio were analyzed. After root canal filling and cavity restoration, the sample was submitted to the fracture resistance test. Data were analyzed using the Fisher exact, Shapiro-Wilk, and t tests (α = 0.05).
RESULTS
It was possible to locate more root canals in the TEC group in stages 1 and 2 (P < .05), whereas no differences were observed after stage 3 (P > .05). The percentage of noninstrumented canal areas did not differ significantly between the CEC (25.8% ± 9.7%) and TEC (27.4% ± 8.5%) groups. No significant differences were observed in the percentage of accumulated hard tissue debris after preparation (CEC: 0.9% ± 0.6% and TEC: 1.3% ± 1.4%). Canal transportation was significantly higher for the CEC group in the palatal canal at 7 mm from the apical end (P < .05). Canal preparation was more centralized in the palatal canal of the TEC group at 5 and 7 mm from the apical end (P < .05) and in the distobuccal canal of the CEC group at 5 mm from the apical end (P < .05). There was no difference regarding fracture resistance among the CEC (996.30 ± 490.78 N) and TEC (937.55 ± 347.25 N) groups (P > .05).
CONCLUSIONS
The current results did not show benefits associated with CECs. This access modality in maxillary molars resulted in less root canal detection when no ultrasonic troughing associated to an OM was used and did not increase fracture resistance.
简介
本研究旨在评估收缩根管腔(CECs)对上颌磨牙根管检测、器械效能和抗折强度的影响。传统根管腔(TECs)被用作比较的参考。
方法
30 颗完整的上颌第一磨牙用分辨率为 21μm 的微计算机断层扫描成像进行扫描,分为 CEC 或 TEC 组(每组 n=15),并进行相应的访问。根管检测分 3 个阶段进行:(1)无放大,(2)在手术显微镜(OM)下,(3)在 OM 和超声沟下进行。使用 Reciproc 器械(VDW GmbH,慕尼黑,德国)进行根管预备后,再次对标本进行扫描。分析非器械化根管区域、硬组织碎屑堆积、根管偏移和中心率。根管充填和窝洞修复后,对样本进行抗折强度试验。使用 Fisher 精确检验、Shapiro-Wilk 和 t 检验(α=0.05)进行数据分析。
结果
在第 1 阶段和第 2 阶段,TEC 组可以定位更多的根管(P<.05),而第 3 阶段后没有差异(P>.05)。CEC(25.8%±9.7%)和 TEC(27.4%±8.5%)组之间非器械化根管区域的百分比没有显著差异。预备后硬组织碎屑堆积的百分比也没有显著差异(CEC:0.9%±0.6%和 TEC:1.3%±1.4%)。在根尖 7mm 处腭侧根管中,CEC 组的根管偏移明显更高(P<.05)。在根尖 5mm 和 7mm 处,TEC 组腭侧根管和 CEC 组远颊侧根管的根管预备更为集中(P<.05)。CEC(996.30±490.78 N)和 TEC(937.55±347.25 N)组的抗折强度无差异(P>.05)。
结论
目前的结果并未显示 CECs 带来的益处。在上颌磨牙中,这种进入方式在不使用 OM 联合超声沟的情况下,根管检测减少,且不会增加抗折强度。
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