Aim To investigate and compare the effects of two apical canal instrumentation protocols on apical stress distribution at the root apex under vertical compaction of gutta-percha and occlusal loads using finite element analysis. @@@ Methodology Three finite element analysis models of a mandibular first premolar were reconstructed: an original canal model, a size 35, .04 taper apical canal enlargement model and a Lightspeed size 60 apical canal enlargement model. A 15N compaction force was applied vertically to the gutta-percha 5mm from the apex. A 175N occlusal load in two directions (vertical and 45 degrees to the longitudinal axis of the tooth) was simulated. Stresses in the apical 2mm of the root were calculated and compared among the three models. @@@ Results Under vertical compaction, stresses in the apical canal instrumented by Lightspeed size 60 (maximal 3.3MPa) were higher than that of the size 35, .04 taper model (maximal 1.3MPa). In the case of the two occlusal forces, the Lightspeed size 60 apical enlargement was associated with the greatest stress distribution in the apical region. The greatest stress and the most obvious stress difference between the models appeared at the tip of the root when occlusal and vertical compaction loads were applied. @@@ Conclusions Apical enlargement caused stress distribution changes in the apical region of roots. The larger apical size led to higher stress concentration at the root apex.

• 出版日期2018-2
• 单位上海交通大学