Novel CaF2 Nanocomposites with Antibacterial Function and Fluoride and Calcium Ion Release to Inhibit Oral Biofilm and Protect Teeth

Mitwalli, Heba; Balhaddad, Abdulrahman A.; AlSahafi, Rashed; Oates, Thomas W.; Melo, Mary Anne S.; Xu, Hockin H.K.; Weir, Michael D.

doi:10.3390/jfb11030056

Cited by 43 publications

(52 citation statements)

References 61 publications

(91 reference statements)

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“…For example, medical devices with protein-repelling properties have been used in artificial blood vessels, implantable artificial hearts, and artificial lungs [ 28 ]. In dentistry, protein repellents have been synthesized with various chemical formulations and incorporated into composite materials, bonding agents, and denture acrylics to inhibit oral biofilm infections [ 27 , 29 , 30 ].…”

Section: Discussionmentioning

confidence: 99%

Antibiofilm and Protein-Repellent Polymethylmethacrylate Denture Base Acrylic Resin for Treatment of Denture Stomatitis

et al. 2021

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Candida albicans (C. albicans) biofilm is a common etiological factor in denture stomatitis. The purpose of this study was to investigate the effects of incorporating 2-methacryloyloxyethyl phosphorylcholine (MPC) as a protein repellent into a new high-impact denture acrylic (HIPA) resin on the surface roughness, solution pH, and C. albicans biofilm adhesion to the denture base. The new acrylic denture resin base was formulated by mixing MPC into HIPA resin at mass fractions of 1.5%, 3%, and 4.5%. Surface roughness was measured using a Mitutoyo surface roughness tester. C. albicans biofilm growth and viability were assessed via colony forming unit counts. The pH of the biofilm growth medium was measured using a digital pH meter. Adding MPC to the HIPA resin at percentages of 1.5% and 3% increased the roughness values significantly (P < 0.05), while adding 4.5% MPC resulted in no difference in roughness values to that of the control group (P > 0.05). All experimental groups demonstrated neutral pH values (pH @ 7) and were not significantly different from each other (P > 0.05). Incorporating 2-methacryloyloxyethyl phosphorylcholine at 4.5% resulted in a significant (@1 log) colony-forming unit reduction compared with the control group with 0% MPC (P < 0.05). A fungal-retarding denture acrylic resin was developed through the incorporation of MPC for its protein-repelling properties. This newly developed denture acrylic material has the potential to prevent oral microbial infections, such as denture stomatitis.

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Section: Discussionmentioning

confidence: 99%

Antibiofilm and Protein-Repellent Polymethylmethacrylate Denture Base Acrylic Resin for Treatment of Denture Stomatitis

et al. 2021

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“…Calcium and fluoride are considered essential ions that can remineralize tooth structure [ 58 ]. The inclusion of CaF 2 nanoparticles in the material makes it antibacterial [ 59 ], stimulates fluoride release [ 60 ], and protects tooth structure against acidic attacks [ 61 ]. Historically, CaF 2 nanoparticles have been added in different dental materials, including pit and fissure sealants [ 62 ], glass ionomer cements [ 63 ], and DAs [ 64 ] and have yielded positive results.…”

Section: Bioactive Inorganic Fillersmentioning

confidence: 99%

“…Another earlier study reported that a 2.0 wt.% CaF 2 filler containing composite demonstrated the highest Vickers hardness, compared with the controls [ 67 ]. In a previous study, nanocomposites containing CaF 2 revealed strong antibacterial and ion releasing properties [ 61 ]. A significant concern with the use of CaF 2 nanoparticles is their stability; however, they are aptly stable in the oral environment than generally presumed [ 68 ].…”

Section: Bioactive Inorganic Fillersmentioning

confidence: 99%

Synergistic Effect of Bioactive Inorganic Fillers in Enhancing Properties of Dentin Adhesives—A Review

et al. 2021

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Dentin adhesives (DAs) play a critical role in the clinical success of dental resin composite (DRC) restorations. A strong bond between the adhesive and dentin improves the longevity of the restoration, but it is strongly dependent on the various properties of DAs. The current review was aimed at summarizing the information present in the literature regarding the improvement of the properties of DAs noticed after the addition of bioactive inorganic fillers. From our search, we were able to find evidence of multiple bioactive inorganic fillers (bioactive glass, hydroxyapatite, amorphous calcium phosphate, graphene oxide, calcium chloride, zinc chloride, silica, and niobium pentoxide) in the literature that have been used to improve the different properties of DAs. These improvements can be seen in the form of improved hardness, higher modulus of elasticity, enhanced bond, flexural, and ultimate tensile strength, improved fracture toughness, reduced nanoleakage, remineralization of the adhesive–dentin interface, improved resin tag formation, greater radiopacity, antibacterial effect, and improved DC (observed for some fillers). Most of the studies dealing with the subject area are in vitro. Future in situ and in vivo studies are recommended to positively attest to the results of laboratory findings.

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“…However, it was not possible to maintain the ion releasing effect over a longer period of time [ 14 , 15 ]. Promising results were obtained with incorporation of nanoparticles of calcium fluoride (nCaF 2 ) to the nanocomposite filling material [ 16 ]. Another efficient source of fluoride ions used in the modification of dental materials are glasses or ceramics, which are a part of glass-ionomer cements (GIC): Full pre-reacted glass–ionomer fillers (F-PRG) and surface pre-reacted glass-ionomer cements (S-PRG) [ 17 , 18 ].…”

Section: Introductionmentioning

confidence: 99%

Release and Recharge of Fluoride Ions from Acrylic Resin Modified with Bioactive Glass

Raszewski¹,

Nowakowska

Więckiewicz

et al. 2021

Polymers

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Background: Oral hygiene is essential for maintaining residual dentition of partial denture wearers. The dental material should positively affect the oral environment. Fluoride-releasing dental materials help to inhibit microbial colonization and formation of plaque as well as to initiate the remineralization process in the early cavity area. Aim: To evaluate fluoride ion release and recharge capacity, sorption, and solubility of polymethyl methacrylate (PMMA) dental resin modified with bioactive glass addition. Materials and methods: Two bioactive glass materials (5 wt% Kavitan, 10 wt% Kavitan, and 10 wt% Fritex) and pure 10 wt% NaF were added to dental acrylic resin. After polymerization of the modified resins, the release levels of fluoride anions were measured based on color complex formation by using a spectrophotometer after 7, 14, 28, and 35 days of storage in distilled water at 37 °C. Subsequently, specimens were brushed with a fluoride-containing tooth paste on each side for 30 s, and the fluoride recharge and release potential was investigated after 1, 7, and 14 days. Sorption and solubility after 7 days of storage in distilled water was also investigated. Results: The acrylic resins with addition of 10% bioactive glass materials released fluoride ions for over 4 weeks (from 0.14 to 2.27 µg/cm2). The amount of fluoride ions released from the PMMA resin with addition of 10 wt% Fritex glass was higher than that from the resin with addition of 10 wt% Kavitan. The acrylic resin containing 10 wt% NaF released a high amount of ions over a period of 1 week (1.58 µg/cm2), but the amount of released ions decreased rapidly after 14 days of storage. For specimens containing 5 wt% Kavitan glass, the ion-releasing capacity also lasted only for 14 days. Fluoride ion rechargeable properties were observed for the PMMA resin modified with addition of 10 wt% Fritex glass. The ion release levels after recharge ranged from 0.32 to 0.48 µg/cm2. Sorption values ranged from 10.23 μm/mm3 for unmodified PMMA resin to 12.11 μm/mm3 for specimens modified with 10 wt% Kavitan glass. No significant differences were found regarding solubility levels after 7 days. Conclusions: The addition of 10 wt% Fritex and 10 wt% Kavitan bioactive glass materials to heat-cured acrylic resin may improve its material properties, with bioactive fluoride ion release ability lasting for over 4 weeks. The resin modified with 10 wt% Fritex glass could absorb fluoride ions from the toothpaste solution and then effectively release them. Addition of fluoride releasing fillers have a small effect on sorption and solubility increase of the modified PMMA resin. Clinical significance: The addition of bioactive glass may be promising in the development of the novel bioactive heat-cured denture base resin.

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Novel CaF2 Nanocomposites with Antibacterial Function and Fluoride and Calcium Ion Release to Inhibit Oral Biofilm and Protect Teeth

Cited by 43 publications

References 61 publications

Antibiofilm and Protein-Repellent Polymethylmethacrylate Denture Base Acrylic Resin for Treatment of Denture Stomatitis

Antibiofilm and Protein-Repellent Polymethylmethacrylate Denture Base Acrylic Resin for Treatment of Denture Stomatitis

Synergistic Effect of Bioactive Inorganic Fillers in Enhancing Properties of Dentin Adhesives—A Review

Release and Recharge of Fluoride Ions from Acrylic Resin Modified with Bioactive Glass

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