Camila Sabatini scite author profile

A novel chlorhexidine-containing adhesive may offer comparable dentin-resin bond stability to the use of 2.0% chlorhexidine digluconate applied as a therapeutic primer while also providing a simplified clinical application technique. SUMMARYPurpose: The present study aimed to investigate a novel adhesive system containing 0.2% chlorhexidine digluconate (CHX) for its ability to improve the stability of the adhesive interface compared with the use of 2% CHX as a therapeutic primer. Furthermore, the study aimed to confirm the inhibitory properties of these CHX concentrations (0.2% and 2.0%) on dentin matrix metalloproteinase activity by gelatin zymography.Methods: Superficial dentin substrate for bonding was obtained from 120 non-carious human molars. A conventional adhesive Peak LC Bond and a CHX-containing adhesive Peak Universal Bond were used either in combination with 35% phosphoric acid (etch-and-rinse approach) or with self-etching primer (selfetch approach) for evaluation of the variables CHX treatment (2.0% therapeutic primer and 0.2% adhesive), adhesive approach (etch-andrinse and self-etch), and storage time (24 hours and six months). A bonding jig was used to fabricate composite cylinders, which were stored for either 24 hours or six months, after which shear bond strength (SBS) was evaluated using a notched-edge testing device. A three-way analysis of variance and a Student t-test with a significance level of p,0.05 were used to analyze the data. Extracts from concentrated demineralized human dentin powder were subjected to sodium dodecyl sulfate polyacrylamide gel electrophoresis and incubated in the presence of 0.2% and 2.0% CHX.Results: No significant effect of CHX treatment, adhesive approach, storage time variables, or their interactions on mean SBS was

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Effect of Pre-heated Composites and Flowable Liners on Class II Gingival Margin Gap Formation

Sabatini¹,

Blunck²,

Denehy³

et al. 2010

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A Conservative Treatment for Amelogenesis Imperfecta with Direct Resin Composite Restorations: A Case Report

Sabatini

Guzmán-Armstrong

2009

J Esthet Restor Dent

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Rehabilitation of a patient with amelogenesis imperfecta (AI) from both the functional and esthetic standpoints represents a challenge. The complexity of the condition requires an interdisciplinary approach for optimal treatment outcomes. A number of treatment options have been proposed. Recently, the use of bonded restorations has gained popularity because of the many benefits associated with these materials; excellent esthetics, conservative approach, and improved wear make their use advantageous. This article describes a direct approach with resin composite restorations for the transitional treatment of an adolescent with hypoplastic AI who had not completed skeletal growth. Protection against further wear, sensitivity, and plaque accumulation while significantly enhancing the patient's esthetic appearance made this case a success. Furthermore, this article describes the use of a "Clear matrix" technique, which considerably helped simplify the placement of the bonded restorations.

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In Vitro Evaluation of Benzalkonium Chloride in the Preservation of Adhesive Interfaces

Sabatini

Kim

Alias

2014

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Benzalkonium chloride preserves resin-dentin bonds by reducing collagen solubilization. When incorporated into adhesive blends, benzalkonium chloride provides comparable bond stability to other inhibitors and application protocols without adding more steps to the bonding sequence. SUMMARYInhibition of endogenous dentin matrix metalloproteinases (MMPs) by benzalkonium chloride (BAC) decreases collagen solubilization and may help improve resin-dentin bond stability. Objective: This study evaluated the resin-dentin bond stability of experimental adhesive blends containing BAC and the stability of dentin matrices by assessing the mass loss and collagen solubilization from dentin beams pretreated with BAC.Materials and Methods: Twenty-five healthy molars were used for the bond strength evaluation of a two-step etch-and-rinse adhesive (Adper Single Bond Plus, SB) modified with BAC or not. The following groups were tested: 1) SB with no inhibitor (control); 2) topical 2.0% chlorhexidine + SB; 3) 1.0% BAC etchant + SB; 4) 0.5% BAC-SB; and 5) 1.0% BAC-SB. Microtensile bond strength (lTBS) and failure mode distribution under standard error of the mean were evaluated after 24 hours and six months of storage in artificial saliva (AS). A two-way analysis of variance and Tukey test with a significance level of p,0.05 was used for data analysis. In addition, 30 completely demineralized dentin beams from human molars were either dipped in deionized water (DW, control) or dipped in 0.5% and 1.0% BAC for 60 seconds, and then incubated in AS. Collagen solubilization was assessed by evaluating the dry mass loss and quantifying the amount of hydroxyproline (HYP) released from hydrolyzed specimens after four weeks of incubation.Results: The control group demonstrated lower lTBS than some of the experimental groups containing BAC at 24 hours and six months (p,0.05). When BAC was incorporated into the adhesive blend in concentrations of 0.5% and *Camila Sabatini, DDS, MS, assistant professor,

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Camila Sabatini

Color Stability of Ten Resin‐Based Restorative Materials

Effect of a Chlorhexidine-containing Adhesive on Dentin Bond Strength Stability

Effect of Pre-heated Composites and Flowable Liners on Class II Gingival Margin Gap Formation

A Conservative Treatment for Amelogenesis Imperfecta with Direct Resin Composite Restorations: A Case Report

In Vitro Evaluation of Benzalkonium Chloride in the Preservation of Adhesive Interfaces

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