Color stability of bleached tooth enamel brushed with different stain-removing toothpastes.

OBJECTIVE: The effects of four toothpastes on the color stability of in-office bleached tooth specimens were determined. MATERIALS AND METHODS: We evaluated an experimental toothpaste (EXP) and three commercially available toothpastes: Colgate Optic White (OPW), Aquafresh White & Protect (AWP), and Crest 3D White (CDW). OPW, AWP, and CDW contained inorganic abrasives, whereas EXP and AWP contained sodium polyphosphate. Forty-eight randomly selected human-extracted maxillary central incisors were bleached and brushed twice daily over 30 days. We analyzed the final color difference (ΔE*ab, ΔE00 , ΔWID ), arithmetic average surface roughness (Ra) of the enamel measured on days 0 and 30, and scanning electron microscopy images of enamel surfaces and toothpastes. ΔE*ab, ΔE00 , ΔWID , and Ra were analyzed using one-way analysis of variance and Tukey's test (α = 0.05). RESULTS: ΔE*ab and ΔE00 values were significantly lower after toothbrushing with EXP, OPW, and CDW than with AWP. OPW induced the greatest positive ΔWID . Ra was significantly increased by OPW and CDW, but slightly increased by AWP, with cube-like particles, and EXP, with no particle-like structures. CONCLUSIONS: Only EXP stabilized the color of bleached teeth without increasing the enamel surface roughness. Sodium polyphosphate with approximately 10 phosphate groups was effective at removing stains. CLINICAL SIGNIFICANCE: The effect of toothpaste on the color stability of bleached teeth depends on the constituting abrasives and chemical components. Polyphosphoric acid has different stain-removal effects depending on its degree of polymerization. Additionally, although certain types of abrasives may be effective for color stability, they also increase the surface roughness of the enamel.

Effect of chemical surface treatment of contaminated CAD-CAM resin composite blocks on surface free energy and bond strength.

PURPOSE: To evaluate the effects of four chemical treatment methods on the contaminated surfaces of VITA ENAMIC (EN) and CERASMART (CS) resin composite computer-aided design-computer-aided manufacturing blocks (RCBs). METHODS: Each RCB was contaminated with a handpiece oil for 1 minute. These contaminated surfaces were then chemically treated by Gel Etchant (PA), Ivoclean (IC), Monobond Etch & Prime (MB), or Ceramics Etch (HF) reagents (n= 12), after which their shear bond strengths, morphologies, failure modes, and surface free energies were examined. RESULTS: The shear bond strengths of the HF-treated surfaces significantly exceeded those of the specimens treated with the other reagents. Adhesive fractures were observed for both the EN and CS blocks after 24 hours of treatment with lubricating oil, PA, and IC. The largest numbers of mixed and cohesive fractures were detected for the MB- and HA-treated specimens. The HF-treated EN and CS blocks possessed the highest surface free energies. The bonding strengths of the resin composites decreased after the contamination of their surfaces; however, the adhesion properties of both blocks were considerably improved by chemical treatment. CLINICAL SIGNIFICANCE: The lubricating oil contamination of dental handpieces significantly reduces the adhesion between the CAD-CAM resin composite block and the resin composite. Therefore, it is necessary to remove contamination and improve the adhesiveness using an optimal chemical surface treatment.

Effect of various resin cements and immediate dentin sealing on tooth fracture resistance of zirconia inlay restorations.

PURPOSE: To compare the effect of the immediate dentin sealing (IDS) and resin cement type on fracture resistance of Class II mesio-occluso-distal (MOD) zirconia inlay restorations. METHODS: 90 Class II MOD cavities on freshly extracted human mandibular third molars, prepared with a high-speed handpiece, were divided into two groups: those with IDS (CR+) and without IDS (CR-). The CEREC system was used to prepare zirconia inlays from Katana super translucent multi-layered blocks. The inlays were cemented with one of three resin cements: RelyX Unicem 2 (RU), Multilink Automix (MA), or Super-Bond (SB). These specimens were stored in water at 37°C for 24 hours and exposed to 5,000 thermal cycles. A vertical load was applied with a metal sphere (Φ 6-mm) on a material testing system, with a crosshead speed of 0.5 mm/minute, until the specimen fractured. Fracture resistance was measured for each tooth, and the fractures were categorized according to Burke's classification. Statistical analyses were conducted using two-way ANOVA and Tukey's honest significant difference tests (P< 0.05). RESULTS: No significant differences in tooth fracture resistance were identified between the CR+ and CR- groups. The SB group had a significantly higher fracture resistance compared to that of the MA group. Fracture morphology showed many mode IV fractures in all groups. IDS did not affect tooth fracture resistance, although there was a significant difference in tooth fracture resistance for different resin cement types used with Class II MOD zirconia inlay restorations. CLINICAL SIGNIFICANCE: Zirconia inlay restorations provide excellent mechanical performance, morphology, and esthetic appearance. In vitro, zirconia inlays cemented with any luting resin cement restored tooth fracture resistance to levels similar to that of intact teeth. Fracture resistance varied among the different resin cements.