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Effect of damping properties on fracture resistance of root filled premolar teeth: a dynamic finite element analysis
Author(s) -
Ou KL.,
Chang CC.,
Chang WJ.,
Lin CT.,
Chang KJ.,
Huang HM
Publication year - 2009
Publication title -
international endodontic journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.988
H-Index - 119
eISSN - 1365-2591
pISSN - 0143-2885
DOI - 10.1111/j.1365-2591.2009.01570.x
Subject(s) - finite element method , premolar , materials science , fracture (geology) , root (linguistics) , dentistry , orthodontics , structural engineering , composite material , engineering , medicine , molar , linguistics , philosophy
Aim To evaluate the ex vivo effects of damping on stress concentration in root filled premolar teeth. Methodology Damping ratios of maxillary premolar teeth that had undergone root canal treatment were tested in a laboratory model. In addition, two‐dimensional finite element (FE) models were established for dynamic analysis. Results The mean‐damping ratio was significantly lower in premolar teeth that had undergone root canal preparation (8.50 ± 0.53%) than in unprepared teeth (14.42 ± 2.17%) ( P < 0.05). However, root filling had a significant positive effect on the damping ratio of the tooth (10.84 ± 1.70%) ( P < 0.05). When the damping ratio was taken into consideration, FE analysis revealed that peak stresses in the apical one‐third of the root on the buccal side were reduced by 31.8% when mastication forces were applied on the palatal cusp and occlusal fossa. Conclusion Pulp tissue plays an important role in providing protective effects when teeth are subjected to a dynamic load. However, root filled teeth do not provide such protective effects.