Department of Oral Health, University of Rome Tor Vergata, Viale Oxford, 00100 Rome, Italy.
Comput Math Methods Med. 2012;2012:816481. doi: 10.1155/2012/816481. Epub 2012 Dec 2.
The analysis of the complex model of fiber post and ferrule is given and studied in this paper. A novel approach and a solution to the evaluation of stress of post and core system within the ferrule effect are proposed.
Sixty freshly extracted premolars were selected for the study. The following experimental groups were therefore defined (n = 10): (1) 5 mm, (2) 7 mm, (3) 9 mm, (4) ferrule-5 mm, (5) ferrule-7 mm, and (6) ferrule-9 mm. Preshaping drills (C) were used to prepare the root canals at 5, 7, and 9 mm in depth. In specimens of groups 3-6 a circumferential collar of tooth structure of 2 mm in height. Fluorocore 2 core build-up material (I) was used for fiber post luting. With the same material, a buildup of 2 mm in height was created. A controlled compressive load (crosshead speed: 0.75 mm/min) was applied by means of a stainless steel stylus (Ø 1 mm) at the coronal end of the post extruding out of the root.
In all the tests the level of significance was set at P < 0.05 . Significantly higher fracture strengths were measured in the presence of a ferrule effect. In groups 1, 2, and 3 (ferrule group), the mean fracture values were, respectively, 163,8 N, 270,9 N, and 254,7 N. These data are higher and statistically significantly different when compared with the three groups 4, 5, and 6 (no-ferrule group), in which the values obtained were, respectively, 40,5 N, 41,7 N, and 44,9 N.
The ferrule effect in the endodontically treated teeth positively affects the fracture strength of the fiber post. Conversely, post depth insertion did not affect the resistance to fracture.
本文对纤维桩和金属套简的复合模型进行了分析和研究。提出了一种新的方法和解决方案,用于评估金属套简效应对桩核系统内的桩的应力。
本研究选择了 60 颗新鲜拔出的前磨牙。因此,将实验分为以下几组(n = 10):(1)5mm,(2)7mm,(3)9mm,(4)5mm 金属套简,(5)7mm 金属套简,(6)9mm 金属套简。使用预成型钻(C)将根管预备至 5、7 和 9mm 深度。在第 3-6 组的标本中,牙体结构的环形颈圈高 2mm。使用氟核 2 核修复材料(I)对纤维桩进行粘固。使用相同的材料,在根管内形成高 2mm 的核。通过不锈钢压头(Ø 1mm)在桩的冠端施加受控的压缩载荷(十字头速度:0.75mm/min),使桩从根管内挤出。
在所有的测试中,显著性水平均设为 P < 0.05。有金属套简效应存在时,测量到的断裂强度明显更高。在第 1、2 和 3 组(金属套简组)中,平均断裂值分别为 163.8N、270.9N 和 254.7N。与第 4、5 和 6 组(无金属套简组)相比,这些数据更高,差异具有统计学意义,第 4、5 和 6 组的测量值分别为 40.5N、41.7N 和 44.9N。
金属套简效应对根管治疗后的牙齿纤维桩的断裂强度有积极影响。相反,桩的插入深度并不影响抗断裂能力。