Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particles
ntroduction: Preventive resin restorations (PRR) are the conservative choice for the most common carious lesions in children. Thus, new age flowable resin composites with higher filler content are readily used. The aim of this study was to evaluate the microshear bond strength and microleakage of...
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doaj-cf90d52a71ad489098adc0efe71c2bbf2020-11-24T22:36:37ZengElectronic PhysicianElectronic Physician2008-58422008-58422016-11-018113289329510.19082/3289Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particlesKoorosh TeymoornezhadHomayoun AlaghehmandGhazaleh DaryakenariSoraya KhafriMitra Tabarintroduction: Preventive resin restorations (PRR) are the conservative choice for the most common carious lesions in children. Thus, new age flowable resin composites with higher filler content are readily used. The aim of this study was to evaluate the microshear bond strength and microleakage of two flowable resin composites containing different percentages of nano zinc oxide (NZnO) particles, which have proven to have antimicrobial properties. Methods: This experimental in-vitro study was carried out in the Dental Material Research Center of Babol University of Medical Sciences in 2015. One nanohybrid and one nanofill flowable resin composite were chosen and modified with the incorporation of 1% and 3% Wt NZnO particles. Six groups (n=10, 0%, 1%, and 3%) of resin composite sticks on dental enamel (2×2mm) were prepared to be placed in the microtensile tester. The microshear bond strength magnitude (MPa) was recorded at the point of failure. A class I box (3×0.8×1 mm) was prepared on 60 premolars and filled using the resin composites (6 groups, n=10). The specimens were immersed in a 5% basic fuschin solution and sectioned bucco-lingually to view the microleakage using a stereomicroscope. One-way ANOVA and Tukey tests for microshear and Wilcoxon and Kruskal–Wallis tests for microleakage were used to analyze the data in the IBM SPSS Statistics version 22 software. Results: The bond strength of the 3% clearfill group significantly decreased while no significant change occurred in the bond strength in other groups. The Z-350 group had significantly lower microleakage as nanoparticles increased. No significant difference was observed in the clearfill group. Conclusion: Up to 3% Wt incorporation of NZnO particles will not diversely alter the bond strength, but it will be beneficial in providing antimicrobial effects with lower microleakage rateshttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC5217822/Dental leakageFlowable compositeNanoparticlesShear strength |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Koorosh Teymoornezhad Homayoun Alaghehmand Ghazaleh Daryakenari Soraya Khafri Mitra Tabari |
spellingShingle |
Koorosh Teymoornezhad Homayoun Alaghehmand Ghazaleh Daryakenari Soraya Khafri Mitra Tabari Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particles Electronic Physician Dental leakage Flowable composite Nanoparticles Shear strength |
author_facet |
Koorosh Teymoornezhad Homayoun Alaghehmand Ghazaleh Daryakenari Soraya Khafri Mitra Tabari |
author_sort |
Koorosh Teymoornezhad |
title |
Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particles |
title_short |
Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particles |
title_full |
Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particles |
title_fullStr |
Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particles |
title_full_unstemmed |
Evaluating the Microshear Bond Strength and Microleakage of Flowable Composites Containing Zinc Oxide Nano-particles |
title_sort |
evaluating the microshear bond strength and microleakage of flowable composites containing zinc oxide nano-particles |
publisher |
Electronic Physician |
series |
Electronic Physician |
issn |
2008-5842 2008-5842 |
publishDate |
2016-11-01 |
description |
ntroduction: Preventive resin restorations (PRR) are the conservative choice for the most common carious
lesions in children. Thus, new age flowable resin composites with higher filler content are readily used. The aim
of this study was to evaluate the microshear bond strength and microleakage of two flowable resin composites
containing different percentages of nano zinc oxide (NZnO) particles, which have proven to have antimicrobial
properties.
Methods: This experimental in-vitro study was carried out in the Dental Material Research Center of Babol
University of Medical Sciences in 2015. One nanohybrid and one nanofill flowable resin composite were chosen
and modified with the incorporation of 1% and 3% Wt NZnO particles. Six groups (n=10, 0%, 1%, and 3%) of
resin composite sticks on dental enamel (2×2mm) were prepared to be placed in the microtensile tester. The
microshear bond strength magnitude (MPa) was recorded at the point of failure. A class I box (3×0.8×1 mm) was
prepared on 60 premolars and filled using the resin composites (6 groups, n=10). The specimens were immersed
in a 5% basic fuschin solution and sectioned bucco-lingually to view the microleakage using a stereomicroscope.
One-way ANOVA and Tukey tests for microshear and Wilcoxon and Kruskal–Wallis tests for microleakage were
used to analyze the data in the IBM SPSS Statistics version 22 software.
Results: The bond strength of the 3% clearfill group significantly decreased while no significant change occurred
in the bond strength in other groups. The Z-350 group had significantly lower microleakage as nanoparticles
increased. No significant difference was observed in the clearfill group.
Conclusion: Up to 3% Wt incorporation of NZnO particles will not diversely alter the bond strength, but it will
be beneficial in providing antimicrobial effects with lower microleakage rates |
topic |
Dental leakage Flowable composite Nanoparticles Shear strength |
url |
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5217822/ |
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