Evaluation of early resin luting cement damage induced by voids around a circular fiber post in a root canal treated premolar by integrating micro-CT, finite element analysis and fatigue testing

被引:12
作者
Chang, Yen-Hsiang [1 ,2 ]
Wang, Hsuan-Wen [3 ]
Lin, Pei-Hsun [3 ]
Lin, Chun-Li [3 ]
机构
[1] Chang Gung Mem Hosp, Taoyuan Med Ctr, Dept Gen Dent, 123 Ding Hu Rd, Taoyuan 333, Taiwan
[2] Chang Gung Univ, Grad Inst Dent & Craniofacial Sci, 259 Wenhua 1st Rd, Taoyuan 333, Taiwan
[3] Natl Yang Ming Univ, Dept Biomed Engn, 2 155,Sec 2,Linong St, Taipei 122, Taiwan
关键词
Micro-CT; Finite element analysis; Luting cement; Void; Fatigue; MICROTENSILE BOND STRENGTH; COMPUTED TOMOGRAPHY; IN-VITRO; TEETH; SYSTEM; GLASS; RESTORATION; COMPOSITE; THICKNESS; ADHESION;
D O I
10.1016/j.dental.2018.04.006
中图分类号
R78 [口腔科学];
学科分类号
1003 ;
摘要
Objective. This study utilizes micro-CT image combined with finite element (FE) analysis and in vitro fatigue testing to investigate the mechanical behavior associating with early resin luting cement damage induced by voids around a circular fiber post in a root canal treated premolar. Methods. Six similar mandibular first premolars with root canal treatment were scanned with high resolution micro-CT before and after fatigue testing. Micro-CT images of all teeth were processed to identify various materials (dentin, luting cement and void) to evaluate the volume/position of the void in each reconstructed tooth root canal model. Six corresponding mesh models from CT images were generated to perform FE simulations under receiving oblique concentrated loads (200 N) to evaluate the luting cement layer mechanical behavior. All teeth were subjected to the fatigue test with 240,000 load cycles simulating chewing for one year to compare results with those in FE simulations. Results. The result showed that most voids occurred adjacent to the apical third of the fiber post. Voids induced the fiber post to pull out, creating a stress concentration at the void boundary. Fatigue life in the experimental testing was found decreased with the stress value/micro-motion increasing in FE analysis. Significance. This study establishes that micro-CT, FE simulation and fatigue testing can be integrated to understand the early de-bonding mechanism at the luting cement layer in a root canal treated premolar, suggesting that attention must be paid to resin luting cement dissolving/debonding easier when voids occur in the apical and pen-apical areas of fiber posts. (C) 2018 The Academy of Dental Materials. Published by Elsevier Inc. All rights reserved.
引用
收藏
页码:1082 / 1088
页数:7
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