4.4 Article

Antibacterial Activity of Root Repair Cements in Contact with Dentin-An Ex Vivo Study

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JOURNAL OF FUNCTIONAL BIOMATERIALS
卷 14, 期 10, 页码 -

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MDPI
DOI: 10.3390/jfb14100511

关键词

bacterial viability; characterisation; endodontic cement; perforation repair; root-end filling material; tricalcium silicate

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This study assessed the antibacterial characteristics of different materials at the dentin/material interface and found that cement with silver nanoparticles had the highest antimicrobial effect, while cement with bioactive glass reduced the antibacterial properties of dentin.
This study assessed the antibacterial characteristics of the dentin/material interface and dentin surfaces exposed to experimental hydraulic calcium silicate cement (HCSC) with or without bioactive glass (BG) replacement (20% or 40%) or mixed with a silver nanoparticle (SNP) solution (1 or 2 mg/mL), and Biodentine, TotalFill BC RRM putty and Intermediate Restorative Material (IRM). Human root dentin segments with test materials were assessed at 1 or 28 days. In one series, the specimens were split to expose the dentin and material surfaces. A 24 h direct contact test was conducted against three-day established Enterococcus faecalis and Pseudomonas aeruginosa monospecies biofilms. In another series, the dentin/material interface of intact specimens was exposed to biofilm membranes for 3 days and the antibacterial activity was assessed via confocal microscopy. The interface was additionally characterised. All one-day material and dentin surfaces were antibacterial. Dentin surfaces exposed to HCSC with 40% BG-replacement, Biodentine and IRM had decreased antibacterial properties compared to those of the other cements. The HCSC mixed with a 2 mg/mL SNP solution had the highest antimicrobial effect in the confocal assay. The interfacial characteristics of HCSCs were similar. The test materials conferred antibacterial activity onto the adjacent dentin. The BG reduced the antibacterial effect of dentin exposed to HCSC; a 2 mg/mL SNP solution increased the antibacterial potential for longer interaction periods (three-day exposure).

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