Antibacterial Activity of Orthodontic Cement Containing Quaternary Ammonium Polyethylenimine Nanoparticles Adjacent to Orthodontic Brackets

Sharon, Eran; Sharabi, Revital; Eden, Adi; Zabrovsky, Asher; Ben‐Gal, Gilad; Sharon, Esi; Pietrokovski, Yoav; Houri‐Haddad, Yael; Beyth, Nurit

doi:10.3390/ijerph15040606

Cited by 27 publications

(19 citation statements)

References 16 publications

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“…The modification of the NeoBond (Dentsply) orthodontic cement with 1.5 wt.% QA-PEI nanoparticles resulted in the complete inhibition of S. mutans bacterial growth and did not change material biocompatibility [94]. Another study showed that the same orthodontic cement, enriched with 1 wt.% QA-PEI nanoparticles, reduced and inhibited the bacterial growth of S. mutans and L. casei in the oral biofilm adjacent to bonded brackets by approximately 90% [120]. Additionally, the bacterial biomass around orthodontic brackets was reduced by more than 40%.…”

Section: Qa-pei Nanoparticles In Other Dental Materialsmentioning

confidence: 99%

Nanoparticles of Quaternary Ammonium Polyethylenimine Derivatives for Application in Dental Materials

Chrószcz-Porębska

Barszczewska-Rybarek

2020

Polymers

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Various quaternary ammonium polyethylenimine (QA-PEI) derivatives have been synthesized in order to obtain nanoparticles. Due to their antibacterial activity and non-toxicity towards mammalian cells, the QA-PEI nanoparticles have been tested extensively regarding potential applications as biocidal additives in various dental composite materials. Their impact has been examined mostly for dimethacrylate-based restorative materials; however, dental cements, root canal pastes, and orthodontic adhesives have also been tested. Results of those studies showed that the addition of small quantities of QA-PEI nanoparticles, from 0.5 to 2 wt.%, led to efficient and long-lasting antibacterial effects. However, it was also discovered that the intensity of the biocidal activity strongly depended on several chemical factors, including the degree of crosslinking, length of alkyl telomeric chains, degree of N-alkylation, degree of N-methylation, counterion type, and pH. Importantly, the presence of QA-PEI nanoparticles in the studied dental composites did not negatively impact the degree of conversion in the composite matrix, nor its mechanical properties. In this review, we summarized these features and functions in order to present QA-PEI nanoparticles as modern and promising additives for dental materials that can impart unique antibacterial characteristics without deteriorating the products’ structures or mechanical properties.

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Section: Qa-pei Nanoparticles In Other Dental Materialsmentioning

confidence: 99%

Nanoparticles of Quaternary Ammonium Polyethylenimine Derivatives for Application in Dental Materials

Chrószcz-Porębska

Barszczewska-Rybarek

2020

Polymers

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“…6 These include, quaternary ammonium dimethacrylate, quaternary ammonium polyethyleneimine nanoparticles, chlorhexidine and triclosan etc. 7 Silver exhibits broad spectrum activity against fungi, bacteria and certain viruses. In order to reduce surface microbial biofilm, silver nanoparticles (AgNPs) are being applied as antimicrobials in biomaterials.…”

Section: Introductionmentioning

confidence: 99%

Mechanical properties of an experimental resin based composite containing silver nanoparticles and bioactive glass

Hanif

Ghani²

2020

Pak J Med Sci

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Objective: To compare the elastic modulus, flexural strength, and hardness of an experimental resin based composite (RBC) with and without containing silver nanoparticles (AgNPs) and bioactive glass (BAG) with a commercially available RBC. Methods: This study was conducted, during the period August 2016-May 2018, at the Department of Dental Materials, Peshawar Dental College, Peshawar (Pakistan) and Department of Chemistry, University of Montreal, Canada. Test specimens made in the commercial RBC acted as Group-1 (G1). An experimental RBC containing 70 wt % filler content was synthesized. It was first used as such to prepare test specimens to act as the experimental control group (G2). This RBC was then modified by adding various amounts of BAG (5%, 10% and 15%) and a fixed amount of 0.009% AgNPs to use the so modified RBCs for preparing the test specimens to belong to three groups (G3, G4 & G5). The AgNPs had been synthesized in situ by reduction of salt during photo-polymerization. Flexural strength (FS), elastic modulus (EM) and Vickers hardness were determined using universal testing machine and hardness tester respectively. Data were analyzed using one-way ANOVA and Tukey post-hoc test. Results: Except for G3 restorations showing significantly lower mean FS value, the FS for those in the other groups were not significantly different (p>0.05). Elastic modulus of the experimental RBC restorations was though higher than those of the others but the difference was statistically insignificant (p>0.05). Reduced Vickers hardness values were documented for the restorations in the G4 and G5 compared to those in the G3 but again the difference was insignificant (p>0.05). Flexural strength and hardness values of the test specimens in the experimental RBCs were significantly lower than those made in the commercial hybrid RBC (p<0.05). Conclusion: BAG and AgNPs addition to the experimental RBC in the mentioned concentration adversely affected the tested mechanical properties. doi: https://doi.org/10.12669/pjms.36.4.1913 How to cite this:Hanif A, Ghani F. Mechanical properties of an experimental resin based composite containing silver nanoparticles and bioactive glass. Pak J Med Sci. 2020;36(4):---------. doi: https://doi.org/10.12669/pjms.36.4.1913 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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“…In this study, the chitosan nanoparticles used had a deacetylation degree of >85%, while the chitosan nanoparticles used in this study had a deacetylation degree of 75%. 9 According to Younes, the higher the degree of deacetylation, the higher the effectiveness of the bacteria. This happens because more acetyl groups are released and operate as free amine groups that can bind to bacterial cell wall.…”

Section: Discussionmentioning

confidence: 99%

“…6 Nanoparticle materials that can be used in the field of dentistry, especially orthodontic adhesive resins, are comprised of inorganic and organic nanoparticle material. [7][8][9][10] One inorganic nanoparticle material that may be incorporated to orthodontic adhesive resins is titanium dioxide due to its transparent color which may not interfere with the color of resin. The addition of titanium dioxide is reported to possess antibacterial property.…”

Section: Introductionmentioning

confidence: 99%

Antibacterial Effect of Titanium Dioxide Nanoparticles and Chitosan Nanoparticles in Orthodontic Adhesive Resin on Streptococcus Mutans Colony

Putri¹,

Siregar²,

Anggani³

2021

Dentino

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Back ground:Strepococcus mutans colonization around orthodontic bracket is the common thing that may commence the development of white spot lesion.Objectives: This research is to analyze antibacterial effect of titanium dioxide nanoparticles and chitosan nanoparticles in orthodontic adhesive resin toward Streptococcus mutans colony. Methods: This research was conducted at RSKGM University of Indonesia on August 2019. Thirty extracted premolars were randomly allocated into three groups. Bracket was bonded to each specimen using orthodontic adhesive resin (Transbond XT) that was incorporated with titanium dioxide/chitosan nanoparticles. Each sample was submerged in bacterial suspension and was incubated for 24 hours. Streptococcus mutans colony around orthodontic bracket was counted with Total Plate Count methodandthen analyzed using statistical analysis. Results: There is no difference in Streptococcus mutans colony around orthodontic brackets among three treatment groups. Conclusion: Antibacterial effect of orthodontic adhesive resins incorporated with titanium dioxide nanoparticles did not differ from orthodontic adhesive resins incorporated with or without chitosan nanoparticles. This is depicted from the number of Streptococcus mutans colonies around the orthodontic brackets.Keywords: Chitosan nanoparticles, Orthodontic adhesive resin, Streptococcus mutans, Titanium dioxide nanoparticles

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Antibacterial Activity of Orthodontic Cement Containing Quaternary Ammonium Polyethylenimine Nanoparticles Adjacent to Orthodontic Brackets

Cited by 27 publications

References 16 publications

Nanoparticles of Quaternary Ammonium Polyethylenimine Derivatives for Application in Dental Materials

Nanoparticles of Quaternary Ammonium Polyethylenimine Derivatives for Application in Dental Materials

Mechanical properties of an experimental resin based composite containing silver nanoparticles and bioactive glass

Antibacterial Effect of Titanium Dioxide Nanoparticles and Chitosan Nanoparticles in Orthodontic Adhesive Resin on Streptococcus Mutans Colony

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