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Does Multi-Fiber-Reinforced Composite-Post Influence the Filling Ability and the Bond Strength in Root Canal?

Naji KharoufSalvatore SauroHamdi JmalAmmar EidMohamed KarroutNadia BahlouliYoussef HaikelDavide Mancino
Published in: Bioengineering (Basel, Switzerland) (2021)
The purpose of the present in vitro study was to investigate the bond strength of root canal dentin and the filling ability of a new multi-fiber-reinforced composite post (mFRC) compared to a conventional single fiber-reinforced-composite post (sFRC). Twenty-eight freshly maxillary first permanent single-rooted premolars were instrumented and divided into groups ( n = 14). Group 1: single-fiber-reinforced composite (sFRC), group 2: multi-fiber-reinforced composite (mFRC). Bonding procedures were performed using a dual-cure universal adhesive system and resin cement. All specimens were sectioned so that seven discs of 1 mm of thickness were obtained from each root. An optical microscope was used before the push-out test to measure the total area of the voids and to determine the length of the smaller/bigger circumferences. The push-out bond strength (PBS) test was performed using an Instron universal testing machine. Data were then compared by one-way ANOVA on ranks (α = 0.05). The dentin-cement-post interface was observed using scanning electron microscopy (SEM). At the coronal third, a significantly higher bond strength ( p < 0.05) was obtained in the sFRC group (44.7 ± 13.1 MPa) compared to the mFRC group (37.2 ± 9.2 MPa). No significant difference was detected between the groups at the middle third (sFRC group "33.7 ± 12.5 MPa" and mFRC group "32.6 ± 12.4 MPa") ( p > 0.05). Voids were significantly lower in the mFRC compared to those observed in the sFRC group ( p < 0.05) at the coronal third. Whereas, no significant difference was found at the middle third ( p > 0.05) between the tested groups. Filling ability was overall improved when employing mFRC, although such technique might have characteristic limitations concerning the bond strength to dentin.
Keyphrases
  • electron microscopy
  • high resolution
  • tissue engineering
  • mass spectrometry
  • artificial intelligence
  • ultrasound guided