B.A. Vitasek scite author profile

Laser-roughened enamel surfaces have been shown to provide for greater acid-resistance and enhanced restorative material/enamel bond strength. Extracted tooth enamel was irradiated with several lasers: CO2/Nd:YAG (CW), CO2 (RSP), Nd:YAG (CW), Nd:YAG (Q-switched), Argon (CW), and Ar:F excimer. Additional teeth were acid-etched. Energy densities were standardized at 25.47 J/cm2 for all mediums. Surface profile analyses were conducted with a profilometer to determine the amount of enamel surface roughness. The acid-etched samples exhibited both a greater amount of surface roughness and a qualitatively different type of enamel surface morphology than the laser-treated specimens. Independent use of the CO2 and Nd:YAG beams exhibited a moderate amount of roughness, while the coaxial CO2/Nd:YAG beam displayed surface roughness approaching that of the acid-etch samples. Different laser mediums produce enamel surface morphologies that are characteristic of a variety of inherent lasing parameters.

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Bending strength of Fuji® and Ketac® glass ionomers after sonication

Arcoria¹,

Butler²,

Wagner³

et al. 1992

J of Oral Rehabilitation

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Glass ionomer cements mixed by conventional methods contain voids that can decrease their overall strength. This study evaluated the effect of sonication on the reduction of air entrapment by measuring the bending strength in glass ionomer cements (Fujj-II and Ketac-fil). Glass ionomer cement was placed in identical-test vials and sonicated for 45s, 10s, or 0s. The bending strengths were measured (0.005 in min-1) after setting times of 1 or 2 weeks. Mean bending strengths (MPa +/- SD) for the 12 treatment both cements (P < 0.001) and sonication times (P < 0.001). The effect of setting time produced minimal increases in bending strength (P < 0.218). The sonication of freshly mixed glass ionomer cements is a possible solution for reducing voids to increase bending strength.

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Effect of undercut placement on crown retention after thermocycling

Arcoria

DeWald

Vitasek

et al. 1990

J of Oral Rehabilitation

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The aim of this study was to examine the effect of undercuts in castings and/or tooth structure on the retention of crowns luted with glass ionomer cement. After routine full-crown preparations had been made in 48 human premolars, wax patterns were fabricated for each tooth. Retentive coves were then produced with a round bur in either the tooth structure or the wax patterns, or in both. One group of teeth and patterns did not receive any undercuts; this was the control group. Castings were made in non-precious metal. All crowns were luted with glass ionomer cement. Half of the samples were thermocycled, and the remainder were kept at 37 degrees C. Crowns were removed using tension (0.012 cm min-1) and the mean bond strengths calculated. The differences in retentive strengths were tested for statistical significance using ANOVA and Scheffe's test. The presence of coves in castings and/or tooth structure significantly increased the retentive strength of castings cemented with glass ionomer, as compared with conventional crown preparations without retentive undercuts. The effect of thermocycling on the retentive strength of castings cemented with glass ionomer was not statistically significant.

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Effects of coaxial CO₂/Nd:YAG irradiation on periodontal wound healing

Arcoria

Steele

Vitasek³

et al. 1992

Lasers Surg Med

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This study evaluated a coaxial CO2/Nd:YAG laser used during periodontal surgery in mongrel dogs for the purpose of ablating the osseous portions of root surfaces to increase reattachment of soft tissue. Periodontal defects were produced with ligatures of orthodontic wire and elastics. The left mandibular osseous root surfaces were irradiated with a defocused, CW laser beam [power density (PD) = 42.46 W/cm2, energy density (ED) = 424.63 J/cm2]. The left maxillary osseous root surfaces were treated with a beam at twice the energy density [PD = 84.93 W/cm2, ED = 849.3 J/cm2]. The mandibular right quadrant received conventional surgery and the maxillary right quadrant served as the untreated control. Fourteen days after treatment, facial/lingual attached gingivae were scored for soft tissue adherence to bone. Laser irradiation at low ED did not improve soft tissue attachment when compared to conventional treatment. Higher ED irradiation produced significantly less attachment and increased tissue necrosis.

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Microleakage in restorations with glass ionomer liners after thermocycling

Arcoria

Vitasek

DeWald

et al. 1990

Journal of Dentistry

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B.A. Vitasek

Enamel surface roughness analysis after laser ablation and acid‐etching

Bending strength of Fuji® and Ketac® glass ionomers after sonication

Effect of undercut placement on crown retention after thermocycling

Effects of coaxial CO₂/Nd:YAG irradiation on periodontal wound healing

Microleakage in restorations with glass ionomer liners after thermocycling

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Resources

About

B.A. Vitasek

Enamel surface roughness analysis after laser ablation and acid‐etching

Bending strength of Fuji® and Ketac® glass ionomers after sonication

Effect of undercut placement on crown retention after thermocycling

Effects of coaxial CO2/Nd:YAG irradiation on periodontal wound healing

Microleakage in restorations with glass ionomer liners after thermocycling

Contact Info

Product

Resources

About

Effects of coaxial CO₂/Nd:YAG irradiation on periodontal wound healing