Investigation the Effect of Restorations Fabricated with CAD/CAM Technology, the Heat-Press Technique, and Type of Resin Cement on Marginal and Internal Adaptation of All Ceramic Crowns

SUMMARY Objective: To evaluate the significance of reduced axial wall height on retention of adhesively luted, all-ceramic, lithium disilicate premolar computer-aided design/computer-aided manufacturing (CAD/CAM) crowns based on preparations with a near ideal total occlusal convergence of 10°. Methods: Forty-eight recently extracted premolars were randomly divided into four groups (n=12). Each group received all-ceramic CAD/CAM crown preparations featuring axial wall heights of 0, 1, 2, and 3 mm, respectively, all with a 10° total occlusal convergence. Scanned preparations were fitted with lithium disilicate all-ceramic crowns that were luted with a self-etching resin cement. Specimens were tested to failure at a 45° angle to the tooth long axis with failure load converted to megapascals (MPa) based on the measured bonding surface area. Mean data were analyzed using analysis of variance/Tukey's post hoc test (α=0.05). Results: Lithium disilicate crowns adhesively luted on preparations with 0 axial wall height demonstrated significantly less failure resistance compared with the crowns luted on preparations with axial wall heights of 1 to 3 mm. There was no failure stress difference between preparations with 1 to 3 mm axial wall height. Conclusions: Under conditions of this study, adhesively luted lithium disilicate bicuspid crowns with a total occlusal convergence of 10° demonstrated similar failure resistance independent of axial wall height of 1 to 3 mm. This study provides some evidence that adhesion combined with an ideal total occlusal convergence may compensate for reduced axial wall height.

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Influence of the fabrication method on the fracture behavior of all-ceramic prosthesis

Cerâmica ◽

10.1590/0366-69132018643702371 ◽

2018 ◽

Vol 64 (370) ◽

pp. 284-287

Author(s):

A. C. Piccoli ◽

M. Borba

Keyword(s):

Fracture Behavior ◽

Testing Machine ◽

Slip Casting ◽

Fracture Load ◽

Resin Cement ◽

Fabrication Method ◽

All Ceramic ◽

Cad Cam ◽

Ceramic Crowns ◽

Student’S T

Abstract Different methods are available to produce all-ceramic dental prosthesis. Each processing step may introduce flaws to the material, which compromises its properties and reliability. The objective of this study was to evaluate the effect of fabrication method on the fracture behavior of prosthetic crowns produced with an alumina-based glass-infiltrated zirconia-reinforced ceramic. Two groups of all-ceramic crowns were produced according to the fabrication method of the infrastructure (IS) (n=30): IZC - IS produced by CAD-CAM; IZS - IS produced by slip-casting. The IS were veneered with porcelain and cemented to fiber-reinforced composite dies with resin cement. Crowns were loaded in compression to failure using a universal testing machine, at 1 mm/min crosshead speed and 37 ºC distilled water. Fractography was performed using stereomicroscope and SEM. Data were statistically analyzed with Student’s t test (α=0.05) and Weibull analysis. There were no significant differences among the experimental groups for fracture load (p=0.481) and Weibull modulus. For both groups, the failure mode was catastrophic failure involving IS and porcelain. It was concluded that the fabrication methods evaluated resulted in all-ceramic crowns with similar fracture behavior and reliability.

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Marginal fit of all-ceramic crowns fabricated using two extraoral CAD/CAM systems in comparison with the conventional technique

Clinical Cosmetic and Investigational Dentistry ◽

10.2147/ccide.s130856 ◽

2017 ◽

Vol Volume 9 ◽

pp. 13-18 ◽

Cited By ~ 11

Author(s):

Fawaz Alqahtani

Keyword(s):

Conventional Technique ◽

Marginal Fit ◽

All Ceramic ◽

Cad Cam ◽

Ceramic Crowns ◽

Cam Systems

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Computer-Aided Designed/Computer-Assisted Manufactured (CAD/CAM) All-Ceramic Crowns Appear to Perform Better than All-Composite Resin Crowns Following the First 3 Years of Placement

Journal of Evidence Based Dental Practice ◽

10.1016/j.jebdp.2011.09.015 ◽

2011 ◽

Vol 11 (4) ◽

pp. 203-205 ◽

Cited By ~ 4

Author(s):

J. Robert Kelly

Keyword(s):

Composite Resin ◽

Computer Assisted ◽

All Ceramic ◽

Computer Aided ◽

Cad Cam ◽

Ceramic Crowns ◽

Better Than

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The Tooth as a Basis for Biomimetic Design

10.1115/imece2000-2663 ◽

2000 ◽

Author(s):

Van P. Thompson ◽

Stephen Kao ◽

Ivory Kirkpatrick

Keyword(s):

High Cycle Fatigue ◽

Critical Role ◽

Contact Loads ◽

All Ceramic ◽

Cad Cam ◽

Molar Teeth ◽

Natural Teeth ◽

Wide Transition ◽

Ceramic Crowns ◽

Improved Performance

Abstract Teeth are uniquely capable of withstanding high forces (>200 N) with small contact area (< 0.5 mm2) and a high number of fatigue cycles (> 107) with little evidence of damage. Yet the tooth is comprised of an outer very brittle, anisotropic, highly crystalline enamel layer supported by an inner soft, but tough dentin. These structures are joined by a small (appoximately 30 microns wide) transition zone called the dento-enamel junction (DEJ). The DEJ plays a critical role in transfer of stress across the layers of the tooth. How the enamel-dentin complex (EDC) comprised of these layers and the DEJ is able to withstand the high contact loads and high cycle fatigue is not well understood. An understanding of the interplay of the various components would serve as the basis for design of dental ceramic or resin based composite crowns capable of service lives approaching those on natural teeth. Current all ceramic crowns have high failure rates (1–5% per yr) on molar teeth and improved performance is required before CAD-CAM restorations can be successful.

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