File Breakage in Conventional Versus Contracted Endodontic Cavities.

IF 1.6 Q3 DENTISTRY, ORAL SURGERY & MEDICINE

European Endodontic Journal Pub Date : 2023-08-01 DOI:10.14744/eej.2023.41033

Donald K Mauney Iii, Antheunis Versluis, Daranee Tantbirojn, Harry T Cosby, Jeffrey G Phebus

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引用次数: 0

Abstract

Objective: To compare rotations to failure and tip separation length of a nickel-titanium (Ni-Ti) rotary in- strument within a simulated mesio-buccal canal of a mandibular molar with a conventional or contracted endodontic cavity.

Methods: Two identical lithium disilicate #30 crowns were milled. A conventional or contracted endodontic cavity was prepared. A custom glass tube was fabricated with taper and length replicating a mesio-buccal canal, including buccal and lingual curvature, and placed at the mesio-buccal orifice of each crown, held in a silicone mold. Instrumentation was simulated using 30/.04 Ni-Ti rotary files following manufacturer recommended 1.8 Nm torque and 500 RPM (n=20 per access type). Instrumentation was video recorded to determine time (sec- onds) and rotations to failure. The length of broken tips was measured. The experimental data were compared using a t-test (significance level 0.05). Stresses in the instruments were examined using finite element analysis.

Results: Number of rotations to failure (mean±standard deviation) was 599±126 for conventional and 465±65 and for contracted access; tip separation lengths (mean±standard deviation) were 3.99±0.29 for conventional and 4.90±1.02 mm for contracted access. Number of rotations to failure and tip separation lengths were signifi- cantly different between the two access openings (p<0.001). Finite element analysis confirmed higher file curva- ture and accompanying higher stress levels with contracted access and the maximum stress further from the tip.

Conclusion: Within the limitations of this study, the contracted access caused earlier failure of the Ni-Ti in- strument with longer tip separation lengths than the conventional access due to higher stresses towards the middle section of the instrument. (EEJ-2022-11-143).

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传统与收缩型牙髓腔中的锉刀破损

目的比较镍钛(Ni-Ti)旋转器械在模拟下颌磨牙中颊管内与常规牙髓腔或收缩牙髓腔内的旋转失败和尖端分离长度。方法将2个相同的30号二硅酸锂冠进行研磨。预备常规或收缩的牙髓腔。一个定制的玻璃管被制作成锥形和长度复制中颊管，包括颊和舌曲率，并放置在每个冠的中颊孔，在硅胶模具中固定。仪器使用30/.04进行模拟Ni-Ti旋转文件遵循制造商推荐的1.8 Nm扭矩和500 RPM(每个访问类型n=20)。仪器录像，以确定时间(秒)和旋转到故障。测量断头的长度。实验数据比较采用t检验(显著性水平0.05)。利用有限元分析对仪器中的应力进行了检测。结果常规组旋转失败次数(平均值±标准差)为599±126次，收缩组为465±65次;针尖分离长度(平均值±标准差):常规组为3.99±0.29 mm，收缩组为4.90±1.02 mm。旋转失败次数和尖端分离长度在两个通道开口之间有显著差异(p<0.001)。有限元分析证实了更高的锉曲率和伴随的更高的应力水平，与收缩的通道和最大应力远离尖端。结论在本研究的限制范围内，由于Ni-Ti仪器中间部分的应力较大，收缩通道比常规通道更早导致尖端分离长度较长的Ni-Ti仪器失效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European Endodontic Journal DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

3.40

自引率

5.60%

发文量