CONTRACTED ENDODONTIC CAVITIES 对下颌磨牙 PRIMARY ROOT CANAL CURVATURE PARAMETERS 的影响。
Impacts of Contracted Endodontic Cavities on Primary Root Canal Curvature Parameters in Mandibular Molars.
机构信息
Department of Endodontics, University of Tennessee Health Science Center, College of Dentistry, Memphis, Tennessee.
Department of Endodontics, University of Tennessee Health Science Center, College of Dentistry, Memphis, Tennessee.
出版信息
J Endod. 2018 Oct;44(10):1558-1562. doi: 10.1016/j.joen.2018.07.008. Epub 2018 Aug 25.
INTRODUCTION
The purpose of this study was to provide information regarding the debate on contracted endodontic cavities (CECs); their impacts on angle, location, and radius of the primary canal curvature (PCC) were assessed in type IV mesial root canals of mandibular molars at different stages of instrumentation. Impacts on treatment time were also assessed.
METHODS
Twenty-four teeth were matched by radiographic and micro-computed tomographic criteria and accessed via CECs (CEC, n = 12) or nonextended traditional endodontic cavities (TECs, n = 12). PCC parameters were radiographically determined using a repositioning apparatus before glide path preparation (PI), after glide path preparation, and after final instrumentation (FI). Instrumentation was performed with PathFiles (13/.02, 16/.02; Dentsply Maillefer, Ballaigues, Switzerland) and ProFile Vortex files (Dentsply Tulsa Dental Specialties, Tulsa, OK) to size 30/.04 at the working length under copious irrigation. Changes in PCC were measured with ImageJ (National Institutes of Health, Bethesda, MD). The instrumentation time was recorded. Data were analyzed with 2-way repeated measures analysis of variance (α < .05) and Tukey honest significant difference tests.
RESULTS
A significant (P < .001) decrease in the mean angle and increase in the mean radius were detected at each instrumentation stage for both CECs (angle: PI = 42.57°± 8.00°, FI = 32.61°± 5.17°; radius: PI = 6.48 ± 1.81 mm, FI = 10.55 ± 1.48 mm) and TECs (angle: PI = 38.80°± 7.15°, FI = 30.08°± 6.99°; radius: PI = 6.97 ± 2.31 mm, FI = 11.01 ± 2.20 mm). PCC location shifted apically (P < .001). Changes in PCC parameters did not differ significantly between CECs and TECs (P > .05). The treatment time was significantly (P < .0001) longer for CECs (83.17 ± 6.71 minutes) than for TECs (33.18 ± 9.20 minutes).
CONCLUSIONS
Instrumentation of curved mesial canals reduced the severity and abruptness of PCC and shifted the PCC location apically similarly in mandibular molars with CECs and those with nonextended TECs. The extended treatment time with CEC merits consideration when debating CECs versus TECs.
简介
本研究旨在提供有关收缩根管(CEC)争议的信息;评估在下颌磨牙第四类近中根管的不同器械阶段,CEC 对主根管弯曲(PCC)的角度、位置和半径的影响,并评估其对治疗时间的影响。
方法
根据影像学和微计算机断层扫描标准,将 24 颗牙齿匹配,并通过 CEC(CEC,n=12)或非扩展传统牙髓腔(TEC,n=12)进行访问。在预备滑行路径(PI)前、预备滑行路径后和最终器械预备后(FI)使用重新定位器械(repositioning apparatus),通过放射学确定 PCC 参数。使用 PathFiles(13/.02、16/.02;Dentsply Maillefer,Ballaigues,Switzerland)和 ProFile Vortex 文件(Dentsply Tulsa Dental Specialties,Tulsa,OK)在大量冲洗下,在工作长度上将根管预备到 30/.04 号。使用 ImageJ(美国国立卫生研究院,贝塞斯达,MD)测量 PCC 的变化。记录器械预备时间。使用 2 因素重复测量方差分析(α<.05)和 Tukey 诚实显著差异检验进行数据分析。
结果
对于 CEC(角度:PI=42.57°±8.00°,FI=32.61°±5.17°;半径:PI=6.48±1.81mm,FI=10.55±1.48mm)和 TEC(角度:PI=38.80°±7.15°,FI=30.08°±6.99°;半径:PI=6.97±2.31mm,FI=11.01±2.20mm),在每个器械阶段,PCC 的平均角度均显著(P<.001)降低,平均半径均显著(P<.001)增加。PCC 位置向根尖方向移动(P<.001)。CEC 和 TEC 之间的 PCC 参数变化无显著差异(P>.05)。CEC 的治疗时间明显(P<.0001)长于 TEC(83.17±6.71 分钟)(33.18±9.20 分钟)。
结论
在下颌磨牙中,CEC 和非扩展 TEC 均能减轻弯曲近中根管的 PCC 严重程度和陡度,并使 PCC 位置向根尖方向移动,治疗时间延长是 CEC 的一个值得考虑的因素。
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