Biodegradation of Resin-Dentin Interfaces Increases Bacterial Microleakage

Kermanshahi, Sanaz

12 February 2010

Bis-GMA-containing resin-composites undergo biodegradation by human saliva derived esterases, yielding Bis-hydroxy-propoxy-phenyl-propane (Bis-HPPP). The hypothesis of this study is that the exposure of dental restorations to saliva-like esterase activities accelerates marginal bacterial microleakage. Resin-composites (Scotchbond, Z250, 3M) bonded to human dentin were incubated in either buffer, or dual-esterase media (pseudocholinesterase/cholesterol-esterase; PCE-CE) with activity levels simulating that of human saliva, for up to 90 days. Incubation solutions were analyzed for resin degradation by-products using high-performance liquid-chromatography. Post-incubation, specimens were suspended in a chemostat-based biofilm fermentor cultivating Streptococcus mutans NG8 for 7 days. Bacterial microleakage was assessed by confocal laser scanning microscopy. Bis-HPPP production, as well as depth and spatial volume of bacterial cell penetration within the interface increased with incubation time. Biodegradation and bacterial microleakage were significantly higher for 30 and 90 day PCE-CE vs. buffer incubated groups (p<0.05). Conclusion: An overall decline in interfacial integrity was observed following exposure to human saliva-like esterases over time.

Biodegradation

Bacterial Microleakage

Resin-dentin interface

0567

Biodegradation of Resin-Dentin Interfaces Increases Bacterial Microleakage

Kermanshahi, Sanaz

12 February 2010

Bis-GMA-containing resin-composites undergo biodegradation by human saliva derived esterases, yielding Bis-hydroxy-propoxy-phenyl-propane (Bis-HPPP). The hypothesis of this study is that the exposure of dental restorations to saliva-like esterase activities accelerates marginal bacterial microleakage. Resin-composites (Scotchbond, Z250, 3M) bonded to human dentin were incubated in either buffer, or dual-esterase media (pseudocholinesterase/cholesterol-esterase; PCE-CE) with activity levels simulating that of human saliva, for up to 90 days. Incubation solutions were analyzed for resin degradation by-products using high-performance liquid-chromatography. Post-incubation, specimens were suspended in a chemostat-based biofilm fermentor cultivating Streptococcus mutans NG8 for 7 days. Bacterial microleakage was assessed by confocal laser scanning microscopy. Bis-HPPP production, as well as depth and spatial volume of bacterial cell penetration within the interface increased with incubation time. Biodegradation and bacterial microleakage were significantly higher for 30 and 90 day PCE-CE vs. buffer incubated groups (p<0.05). Conclusion: An overall decline in interfacial integrity was observed following exposure to human saliva-like esterases over time.

Biodegradation

Bacterial Microleakage

Resin-dentin interface

0567

Proliferation of Pathogenic Biofilms within Sealer-root Dentin Interfaces is Affected by Sealer Type and Aging Period

Roth, Karina Adriana

20 December 2011

Objective: To assess biofilm proliferation within the sealer-dentin interfaces of methacrylate resin-based sealers, self-etch (SE) and total-etch (TE), and an epoxy resin-based sealer (EP). Methods: Standardized human root specimens were filled with the test materials and were aged for 1 week, 1, 3 or 6 months in saline (n=3/group). Monoclonal biofilms of Enterococcus faecalis were grown on the specimens for 7 days in continuous media reactor. The extent of biofilm proliferation of E. faecalis within the sealer-dentin interface for each material at each incubation period was assessed using fluorescence microscopy of dihydroethidium-stained specimens. Results: TE had less biofilm proliferation than EP and SE (p<0.01). Deeper biofilm proliferation was detected in SE and EP specimens aged for 1 and 3 months than those aged for 1 week or 6 months (p<0.05). Conclusion: Self-etch and epoxy resin-based sealers were more susceptible to interfacial biofilm proliferation than total-etch system at shorter incubation periods.

Dentistry 0567

Proliferation of Pathogenic Biofilms within Sealer-root Dentin Interfaces is Affected by Sealer Type and Aging Period

Roth, Karina Adriana

20 December 2011

Objective: To assess biofilm proliferation within the sealer-dentin interfaces of methacrylate resin-based sealers, self-etch (SE) and total-etch (TE), and an epoxy resin-based sealer (EP). Methods: Standardized human root specimens were filled with the test materials and were aged for 1 week, 1, 3 or 6 months in saline (n=3/group). Monoclonal biofilms of Enterococcus faecalis were grown on the specimens for 7 days in continuous media reactor. The extent of biofilm proliferation of E. faecalis within the sealer-dentin interface for each material at each incubation period was assessed using fluorescence microscopy of dihydroethidium-stained specimens. Results: TE had less biofilm proliferation than EP and SE (p<0.01). Deeper biofilm proliferation was detected in SE and EP specimens aged for 1 and 3 months than those aged for 1 week or 6 months (p<0.05). Conclusion: Self-etch and epoxy resin-based sealers were more susceptible to interfacial biofilm proliferation than total-etch system at shorter incubation periods.

Dentistry 0567

Desenvolvimento de sistemas adesivos empregando monômeros surfactantes como alternativa ao hidróxietil metacrilato (HEMA) / Development of adhesive systems employing surfactant monomers as substitute to hydroxyethyl methacrylate (HEMA)

Zanchi, Cesar Henrique

07 May 2010

Made available in DSpace on 2014-08-20T14:30:11Z (GMT). No. of bitstreams: 1 Tese_Cesar_Henrique_Zanchi.pdf: 1068579 bytes, checksum: 8e2ef86f128f91b16a71c1a2e41952f6 (MD5) Previous issue date: 2010-05-07 / This study evaluated the influence of surfactant dimethacrylates (SD) on the resin-to-dentin immediate and long term microtensile bond strength (μTBS) and characterized the interfacial micromorphology of hybrid layer of the experimental HEMA-free self-etching systems. Five experimental HEMA-free two step self-etching systems containing different surfactant dimetacrylates (SD) (Bis-EMA 10, Bis-EMA 30, PEG 400, PEG 1000 and PEG 400 UDMA) and a HEMA-containing systems (control) were formulated. Sixty bovine incisors were allocated into six groups according each experimental adhesive system used. The teeth had the superficial coronal dentins exposed and were restored and sectioned to obtain sticks randomly allocated into 3 storage periods: 24h, 6 and 12 months. Thereafter the specimens were subjected to the μTBS test. Immediate μTBS data were analyzed by One-way ANOVA and Tukey s test. Long term μTBS data were analyzed by Kruskall-Wallis and Dunn test (α = 0.05). Analysis of the adhesive-dentin interfaces were performed through scanning electron microscopy. Between the HEMA-free groups, the adhesive system formulated with PEG 400 UDMA produced the highest μTBS and was similar to HEMA-containing group. Specimens of the 24 hours of storage were statistically higher for all groups tested when compared those after 6 and 12 months storage. None difference was found between 6 months and 12 months storage for each group. All the adhesives systems presented similar partially demineralized hybrid layer (1.5-3.0 μm thickness) with well formed resin tags. All SD present reasonable μTBS, being the PEG 400 UDMA a promising monomer to be considered as HEMA substitute in adhesive systems compositions. / Este estudo avaliou a influência de dimetacrilatos surfactantes (DS) na resistência de união à dentina por microtração (RU), imediata e após armazenagem, além de caracterizar a micromorfologia da camada híbrida de sistemas adesivos experimentais autocondicionantes livres de HEMA. Foram formulados cinco sistemas adesivos autocondicionantes de dois passos livres de HEMA contendo diferentes DS (Bis-EMA 10, Bis-EMA 30, PEG 400, PEG 1000 and PEG 400 UDMA) e um sistema contendo HEMA, empregado como controle. Foi realizada a exposição da dentina superficial de sessenta incisivos bovinos posteriormente alocados em seis grupos experimentais de acordo com o sistema adesivo empregado. Os dentes foram restaurados e seccionados para obter espécimes (palitos) posteriormente divididos em três períodos de armazenagem: 24h, 6 e 12 meses. Após, os espécimes foram sujeitos ao teste de RU. Resultados de RU imediata foram analisados por ANOVA 1-fator e teste complementar de Tukey. Resultados de RU após envelhecimento foram analisados por Kruskall-Wallis e teste de Dunn (α = 0.05). Analises das interfaces de união dente-restauração foram realizadas através de microscopia eletrônica de varredura. Entre os grupos livres de HEMA, o sistema adesivo formulado com PEG 400 UDMA produziu maior RU e foi estatisticamente similar ao grupo controle contendo HEMA. Os espécimes testados após 24 horas de armazenamento apresentaram RU estatisticamente maior para todos os grupos quando comparados os espécimes testados após 6 e 12 meses de armazenagem. Não foram observadas diferenças significativas entre os grupos testados após 6 e 12 meses. Todos os sistemas adesivos apresentaram camada hibrida parcialmente desmineralizada (1.5-3 μm de espessura) com formação de prolongamentos resinosos. Em geral os sistemas adesivos demonstraram valores de RU satisfatórios, sendo o PEG 400 UDMA um monômero promissor para o desenvolvimento de sistemas adesivos livres de HEMA.

Adesivos dentários

Surfactante

Interface resina-dentina

Biodegradação

Dental adhesive

Surfactant

Microtensile bond strength test

Resin-dentin interface

Biodegradation

CNPQ::CIENCIAS DA SAUDE::ODONTOLOGIA

Effect of halloysite aluminosilicate clay nanotube incorporation into bonding agents on shear bond strength to human dentin

Alkatheeri, Mohammed Saeed

January 2013

Indiana University-Purdue University Indianapolis (IUPUI) / In adhesive dentistry, obtaining a good bond is a fundamental goal. It has been suggested that filler addition to the adhesives would increase the bonding strength of the adhesive layer. Halloysite aluminosilicate nanotubes (HNTs) are biocompatible, hydrophilic, durable, and have high mechanical strength. These advantages make them good candidates to be used as reinforcing agents for improving the properties of dental adhesives. The objective of this study was to evaluate the effect of incorporating HNTs into a commercial two-step etch-and-rinse adhesive system or one-step self-etch adhesive system on dentin shear bond strength. HNTs were incorporated into the two commercial adhesive systems in 0 wt%, 5 wt%, 10 wt%, and 20 wt%. The commercial control adhesives and the experimental adhesives were used to bond occlusal dentin of 120 extracted human molar teeth and then tested for shear bond strength by a universal testing machine with a semi-circular edge at a crosshead speed of 1.0 mm/min. Debonded specimens were examined under light microscopy to evaluate the fracture pattern. Resin-dentin interface were evaluated under scanning electron microscopy (SEM) after bonding dentin slabs using commercial control adhesives and experimental adhesive that showed numerically highest shear bond strength from each adhesive system. Two-way ANOVA was used to evaluate the effects of adhesive system and nanofiller content on shear bond strength. Pair-wise comparisons between groups were made using Fisher's (LSD) (p < 0.05). For the self-etch adhesive system, only incorporation of 5 wt% showed a significant increase in shear bond strength to dentin compared with the commercial control group. For the etch-and-rinse adhesive system, there was no significant difference in shear bond strength between HNTs filled adhesives groups and the commercial control group. Resin-dentin interface SEM evaluation showed nanotubes infiltrated into dentinal tubules. In conclusion, incorporating the self-etch adhesive system with 5 wt% HNTs increased the bond strength to dentin. Incorporation of up to 10 wt% filler concentration into both the self-etch and the etch-and-rinse adhesive systems did not adversely affect the bond strength to dentin or the handling properties. HNTs can penetrate along with resin tags into dentinal tubules, which could expand the use of their unique properties.

clay nanotubes

nano-filler

dentin adhesive

shear bond strength

resin-dentin interface

Aluminum Silicates -- chemistry

Shear Strength

Nanotubes -- chemistry

Adhesives -- chemistry

Dentin-Bonding Agents -- chemistry

Dental Bonding -- methods