School of Mechanical Engineering, Faculty of Engineering, Tel-Aviv University, Tel-Aviv, Israel.
Goldschleger School of Dental Medicine, Tel-Aviv University, Tel-Aviv, Israel.
J Endod. 2018 Jul;44(7):1159-1163. doi: 10.1016/j.joen.2018.03.017. Epub 2018 Jun 1.
Maxillary premolars are among the teeth most susceptible to vertical root fracture (VRF) from lateral condensation of gutta-percha. These teeth are distinguished by a complex anatomy of the buccal root including a large depression in the dentin wall facing the bifurcation. It is hypothesized that tooth sectioning coupled with 2-dimensional fracture analysis is instrumental in understanding VRF in such teeth. VRF was examined by tooth sectioning following the development of a fracture mechanics analysis to predict VRF in such roots.
The fracture morphology in teeth extracted from patients because of VRFs was examined from a series of horizontal cross sections. 2-dimensional fracture mechanics analysis in conjunction with the finite element technique was developed to evaluate VRF caused by canal pressure (q). As in our previous single-rooted tooth model, the apical obturation force (F) was related to q using a simple formula.
Fracture was mostly limited to the buccal root, exhibiting some competing modes including fracture from the depression peak to the canal surface and the canal surface to the root surface, which may occur either along straight lines or curved trajectories resembling the depression outline. The analysis predicted clinical fractures well, yielding VRF force values in the upper range used by clinicians during lateral condensation of gutta-percha.
The main etiology for VRF is stress concentration resulting from the combined effect of wedgelike canal depression and the flexibility of periodontal ligament tissue joining the root and bone. This drawback can be alleviated by minimizing canal enlargement and apical condensation force during root canal therapy.
上颌前磨牙是最容易发生侧向加压根管充填导致牙根纵裂(VRF)的牙齿之一。这些牙齿的颊根具有复杂的解剖结构,包括在面向分叉的牙本质壁上有一个大的凹陷。据推测,牙体切开术结合二维断裂分析对于理解此类牙齿的 VRF 是有帮助的。通过牙体切开术检查 VRF,同时进行断裂力学分析以预测此类牙根中的 VRF。
从一系列水平横截面上检查因 VRF 而从患者中拔出的牙齿的断裂形态。结合有限元技术的二维断裂力学分析被开发出来,以评估由根管压力(q)引起的 VRF。与我们之前的单根牙模型一样,使用简单公式将根尖封闭力(F)与 q 相关联。
断裂主要局限于颊根,表现出一些竞争模式,包括从凹陷峰值到根管表面和根管表面到根表面的断裂,这些断裂可能沿着直线或类似于凹陷轮廓的曲线轨迹发生。该分析很好地预测了临床骨折,产生了 VRF 力值,处于临床医生在侧向加压根管充填过程中使用的较高范围内。
VRF 的主要病因是楔形根管凹陷和连接牙根和骨骼的牙周韧带组织的灵活性共同作用导致的应力集中。通过在根管治疗期间最小化根管扩大和根尖封闭力,可以减轻这种缺陷。
