Fiber‐post bond strength in canals obturated with a cross‐linked gutta‐percha core obturator

The aim of this in‐vitro study was to evaluate the bond strength of fiber posts cemented in a root canal filled using various root‐canal obturation techniques. A total of 33 monoradicular samples, treated endodontically, were randomly assigned to three groups according to the root‐canal obturation technique: group 1, continuous‐wave technique; group 2, plastic‐obturator‐core technique; and group 3, cross‐linked gutta‐percha obturator‐core technique. Fiber posts were luted in each sample and each was sectioned perpendicular to the post axis. The push‐out test was performed using a universal machine and the maximum failure load was recorded in MPa mm −2 . Several samples were randomly chosen for scanning electron microscopy evaluation. The mean debris and dentinal tubule‐opening scores were calculated separately in the coronal and apical portions. Bond strength was significantly higher in group 1 than in groups 2 and 3. Debris scores were significantly higher in the apical portion of groups 2 and 3 than in group 1. Within the limitations of this study it can be affirmed that thermoplasticized alpha gutta‐percha seemed to worsen the cleaning of post‐space walls and hence reduced fiber‐post bond strength.