采用新型非金属桩修复的前牙抗折性

Fracture resistance of anterior teeth restored with a novel nonmetallic post.

作者信息

Abo El-Ela Omar Ahmed, Atta Osama Abdallah, El-Mowafy Omar

机构信息

Faculty of dentistry, Suez-Canal University, Ismailia, Egypt.

出版信息

J Can Dent Assoc. 2008 Jun;74(5):441.

PMID:18538068

Abstract

OBJECTIVE

To determine the fracture resistance of endodontically treated anterior teeth restored with a novel nonmetallic post in combination with self-etching adhesives.

MATERIALS AND METHODS

Extracted maxillary anterior teeth were sterilized with gamma irradiation, and each crown was severed 2 mm above the cementoenamel junction. Endodontic treatment was performed, and the teeth were divided into 7 test groups according to the post-adhesive combination used (n = 8 in each group). The following combinations of posts and adhesives were used: group 1, ParaPost stainless steel post with glass ionomer cement (control group); group 2, Light Post post with Clearfil SE Bond bonding agent and Panavia-F adhesive; group 3, Light Post post with Xeno-III bonding agent and Panavia-F adhesive; group 4, ParaPost Fiber White post with Clearfil SE Bond bonding agent and Panavia-F adhesive; group 5, ParaPost Fiber White post with Xeno-III bonding agent and Panavia-F adhesive; group 6, everStick post with Clearfil SE Bond bonding agent and Panavia-F adhesive; and group 7, everStick post with Xeno-III bonding agent and Panavia-F adhesive. Core build-ups to restore anatomic form were made from light-cured composite (TPH3). Specimens were stored in water at 37 degrees C. The roots of each tooth were embedded in an acrylic base, and the teeth were mounted at 135 degrees to the horizontal. The teeth were loaded in an Instron machine, and loading was applied to the point of fracture. Fracture loads were recorded, means and standard deviations (SDs) were calculated, and the data were analyzed with analysis of variance (ANOVA) and Tukey"s tests.

RESULTS

The mean fracture load (and SD) for each group was as follows: for group 1, 536.8 (75.1) N; for group 2, 1,000.1 (190.9) N; for group 3, 1,049.9 (231.5) N; for group 4, 1,548.5 (290.0) N; for group 5, 1,171.3 (296.9) N; for group 6, 1,711.7 (516.7) N; and for group 7, 1,825.7 (527.3) N. ANOVA revealed significant differences among the groups (p < 0.001). In addition, the mean fracture value for group 7 was significantly higher than those of the other groups p < 0.05) except for groups 4 and 6.

CONCLUSIONS

Use of a novel glass fibre post (the everStick post) was associated with the highest mean fracture force for maxillary anterior teeth, regardless of the bonding agent used, whereas the stainless steel post was associated with the lowest mean fracture force.

摘要

目的

确定使用新型非金属桩联合自酸蚀粘结剂修复的根管治疗后前牙的抗折性能。

材料与方法

拔除的上颌前牙经γ射线照射消毒，将每个牙冠在牙骨质釉质界上方2mm处截断。进行根管治疗，根据所使用的桩-粘结剂组合将牙齿分为7个试验组（每组n = 8）。使用以下桩和粘结剂的组合：第1组，ParaPost不锈钢桩与玻璃离子水门汀（对照组）；第2组，Light Post桩与Clearfil SE Bond粘结剂和Panavia-F粘结剂；第3组，Light Post桩与Xeno-III粘结剂和Panavia-F粘结剂；第4组，ParaPost Fiber White桩与Clearfil SE Bond粘结剂和Panavia-F粘结剂；第5组，ParaPost Fiber White桩与Xeno-III粘结剂和Panavia-F粘结剂；第6组，everStick桩与Clearfil SE Bond粘结剂和Panavia-F粘结剂；第7组，everStick桩与Xeno-III粘结剂和Panavia-F粘结剂。用光固化复合树脂（TPH3）制作核修复体以恢复解剖形态。标本储存在37℃的水中。将每个牙齿的牙根嵌入丙烯酸基底中，牙齿以与水平呈135度角安装。在Instron试验机上加载牙齿，直至加载到断裂点。记录断裂载荷，计算平均值和标准差（SD），并使用方差分析（ANOVA）和Tukey检验对数据进行分析。

结果

每组的平均断裂载荷（及SD）如下：第1组，536.8（75.1）N；第2组，1000.1（190.9）N；第3组，1049.9（231.5）N；第4组，1548.5（290.0）N；第5组，1171.3（296.9）N；第6组，1711.7（516.7）N；第7组，1825.7（527.3）N。方差分析显示各组间存在显著差异（p < 0.001）此外，第7组的平均断裂值除第4组和第6组外，显著高于其他组（p < 0.05）。