Your search keyword '"Almeida EO"' showing total 5 results

1. Zirconia-based dental crown to support a removable partial denture: a three-dimensional finite element analysis using contact elements and micro-CT data.

Author

Rocha EP, Anchieta RB, de Almeida EO, Freitas AC Jr, Martini AP, Sotto-Maior BS, Luersen MA, and Ko CC

Subjects

Animals, Dental Stress Analysis methods, Dogs, Gold chemistry, Humans, Materials Testing, Stress, Mechanical, Crowns, Denture, Partial, Removable, Finite Element Analysis, X-Ray Microtomography, Zirconium pharmacology

Abstract

Veneer fracture is the most common complication in zirconia-based restorations. The aim of this study was to evaluate the mechanical behavior of a zirconia-based crown in a lower canine tooth supporting removable partial denture (RPD) prosthesis, varying the bond quality of the veneer/coping interface. Microtomography (μCT) data of an extracted left lower canine were used to build the finite element model (M) varying the core material (gold core - MAu; zirconia core - MZi) and the quality of the veneer/core interface (complete bonded - MZi; incomplete bonded - MZi-NL). The incomplete bonding condition was only applied for zirconia coping by using contact elements (Target/Contact) with 0.3 frictional coefficients. Stress fields were obtained using Ansys Workbench 10.0. The loading condition (L = 1 N) was vertically applied at the base of the RPD prosthesis metallic support towards the dental apex. Maximum principal (σmax) and von Mises equivalent (σvM) stresses were obtained. The σmax (MPa) for the bonded condition was similar between gold and zirconia cores (MAu, 0.42; MZi, 0.40). The incomplete bonded condition (MZi-NL) raised σmax in the veneer up to 800% (3.23 MPa) in contrast to the bonded condition. The peak of σvM increased up to 270% in the MZi-NL. The incomplete bond condition increasing the stress in the veneer/zirconia interface.

Published

2015

2. Effects of implant diameter and prosthesis retention system on the reliability of single crowns.

Author

Bonfante EA, Almeida EO, Lorenzoni FC, and Coelho PG

Subjects

Cementation methods, Dental Cements, Dental Restoration Failure statistics & numerical data, Dental Stress Analysis, Humans, Prosthesis Retention standards, Reproducibility of Results, Crowns, Dental Implants, Single-Tooth standards, Dental Prosthesis Design, Prosthesis Retention methods

Abstract

Purpose: The probability of survival of implant-supported prostheses may be affected by the interplay between different implant diameters supporting screwed or cemented crowns. The purpose of this study was to investigate the effect of implant diameter and prosthesis retention system on the reliability and failure modes of single crowns., Materials and Methods: Internal-hexagon implants were divided into six groups (n = 21 each) according to implant diameter (3.3, 4.0, or 5.0 mm) and crown retention system (screwed or cemented). Abutments were torqued to the implants, and crowns were then fixed and subjected to step-stress accelerated life testing in water. Use-level probability Weibull curves and reliability for missions of 50,000 cycles at 100, 150, and 200 N were calculated. Failure analysis was performed., Results: Cemented systems presented higher reliability than screwed ones, except between 3.3-mm-diameter cemented and screwed systems at a load of 100 or 150 N. Failure modes were restricted to the abutment screw and varied with implant diameter only in the cement-retained groups., Conclusion: Higher reliability was observed for cement-retained crowns and implants of larger diameter compared to screw-retained and smaller diameter. Failure modes differed between groups.

Published

2015

3. Effect of microthread presence and restoration design (screw versus cemented) in dental implant reliability and failure modes.

Author

Almeida EO, Freitas Júnior AC, Bonfante EA, Rocha EP, Silva NR, and Coelho PG

Subjects

Dental Abutments, Dental Prosthesis Design, Dental Stress Analysis, In Vitro Techniques, Incisor, Maxilla, Microscopy, Electron, Scanning, Reproducibility of Results, Surface Properties, Torque, Crowns, Dental Implants, Dental Restoration Failure

Abstract

Objectives: This study evaluated the reliability and failure modes of implants with a microthreaded or smooth design at the crestal region, restored with screwed or cemented crowns. The postulated null hypothesis was that the presence of microthreads in the implant cervical region would not result in different reliability and strength to failure than smooth design, regardless of fixation method, when subjected to step-stress accelerated life-testing (SSALT) in water., Materials and Methods: Eighty four dental implants (3.3 × 10 mm) were divided into four groups (n = 21) according to implant macrogeometric design at the crestal region and crown fixation method: Microthreads Screwed (MS); Smooth Screwed (SS); Microthreads Cemented (MC), and Smooth Cemented (SC). The abutments were torqued to the implants and standardized maxillary central incisor metallic crowns were cemented (MC, SC) or screwed (MS, SS) and subjected to SSALT in water. The probability of failure versus cycles (90% two-sided confidence intervals) was calculated and plotted using a power law relationship for damage accumulation. Reliability for a mission of 50,000 cycles at 150 N (90% 2-sided confidence intervals) was calculated. Differences between final failure loads during fatigue for each group were assessed by Kruskal-Wallis along with Benferroni's post hoc tests. Polarized-light and scanning electron microscopes were used for failure analyses., Results: The Beta (β) value (confidence interval range) derived from use level probability Weibull calculation of 1.30 (0.76-2.22), 1.17 (0.70-1.96), 1.12 (0.71-1.76), and 0.52 (0.30-0.89) for groups MC, SC, MS, and SS respectively, indicated that fatigue was an accelerating factor for all groups, except for SS. The calculated reliability was higher for SC (99%) compared to MC (87%). No difference was observed between screwed restorations (MS - 29%, SS - 43%). Failure involved abutment screw fracture for all groups. The cemented groups (MC, SC) presented more abutment and implant fractures. Significantly higher load to fracture values were observed for SC and MC relative to MS and SS (P < 0.001)., Conclusion: Since reliability and strength to failure was higher for SC than for MC, our postulated null hypothesis was rejected., (© 2012 John Wiley & Sons A/S.)

Published

2013

4. Influence of crown ferrule heights and dowel material selection on the mechanical behavior of root-filled teeth: a finite element analysis.

Author

Watanabe MU, Anchieta RB, Rocha EP, Kina S, Almeida EO, Freitas AC Jr, and Basting RT

Subjects

Ceramics chemistry, Chromium Alloys chemistry, Composite Resins chemistry, Computer Simulation, Dental Enamel physiology, Dental Prosthesis Design, Dental Pulp Cavity physiology, Dental Stress Analysis, Dentin physiology, Elastic Modulus, Glass chemistry, Gold Alloys chemistry, Humans, Incisor, Materials Testing, Models, Biological, Periodontal Ligament physiology, Stress, Mechanical, Tooth Apex physiology, Tooth Crown physiology, Tooth Root physiology, Tooth, Nonvital physiopathology, Crowns, Dental Materials chemistry, Finite Element Analysis, Imaging, Three-Dimensional methods, Post and Core Technique instrumentation, Tooth Preparation, Prosthodontic classification

Abstract

Purpose: This study used the 3D finite element (FE) method to evaluate the mechanical behavior of a maxillary central incisor with three types of dowels with variable heights of the remaining crown structure, namely 0, 1, and 2 mm., Materials and Methods: Based on computed microtomography, nine models of a maxillary central incisor restored with complete ceramic crowns were obtained, with three ferrule heights (0, 1, and 2 mm) and three types of dowels (glass fiber = GFD; nickel-chromium = NiCr; gold alloy = Au), as follows: GFD0--restored with GFD with absence (0 mm) of ferrule; GFD1--similar, with 1 mm ferrule; GFD2--glass fiber with 2 mm ferrule; NiCr0--restored with NiCr alloy dowel with absence (0 mm) of ferrule; NiCr1--similar, with 1 mm ferrule; NiCr2--similar, with 2 mm ferrule; Au0--restored with Au alloy dowel with absence (0 mm) of ferrule; Au1--similar, with 1 mm ferrule; Au2--similar, with 2 mm ferrule. A 180 N distributed load was applied to the lingual aspect of the tooth, at 45° to the tooth long axis. The surface of the periodontal ligament was fixed in the three axes (x = y = z = 0). The maximum principal stress (σ(max)), minimum principal stress (σ(min)), equivalent von Mises (σ(vM)) stress, and shear stress (σ(shear)) were calculated for the remaining crown dentin, root dentin, and dowels using the FE software., Results: The σ(max) (MPa) in the crown dentin were: GFD0 = 117; NiCr0 = 30; Au0 = 64; GFD1 = 113; NiCr1 = 102; Au1 = 84; GFD2 = 102; NiCr2 = 260; Au2 = 266. The σ(max) (MPa) in the root dentin were: GFD0 = 159; NiCr0 = 151; Au0 = 158; GFD1 = 92; NiCr1 = 60; Au1 = 67; GFD2 = 97; NiCr2 = 87; Au2 = 109., Conclusion: The maximum stress was found for the NiCr dowel, followed by the Au dowel and GFD; teeth without ferrule are more susceptible to the occurrence of fractures in the apical root third., (© 2012 by the American College of Prosthodontists.)

Published

2012

5. All-ceramic crowns over single implant zircon abutment. Influence of young's modulus on mechanics.

Author

Freitas AC Jr, Rocha EP, dos Santos PH, de Almeida EO, and Anchieta RB

Subjects

Aluminum Oxide, Bite Force, Computer Simulation, Dental Prosthesis Design, Elastic Modulus, Finite Element Analysis, Humans, Incisor, Maxilla, Models, Theoretical, Resin Cements, Silicates, Stress, Mechanical, Zirconium, Cementation, Crowns, Dental Abutments, Dental Implants, Single-Tooth, Dental Porcelain, Dental Stress Analysis methods

Abstract

Purpose: The aim of this study was to evaluate the influence of different Young moduli of the ceramic crown on the distribution of tensions in the region of the abutment-crown interface by making use of 2D finite element analysis., Materials: Two representative models of a sagittally sectioned maxilla were built through AutoCad program showing an implant in the region of the upper central incisor and were restored by means of IPS e.max Press or Procera AllCeram on zircon abutment. Numerical analysis (Ansys 10.0) was performed under 2 loading conditions (50 N): on the lingual face, at 45 degrees with the implant's long axis (L1) and perpendicular to the incisal edge (L2). The von Mises equivalent stress (σvM) and maximum principal stress (σmax) were obtained., Results: It was noticed that, independent of the restoring system, the maximum σvM values were in the incisal region of the cementation interface for both loading conditions. The IPS e.max Press system showed higher σvM on the adhesive interface with higher L1 influence. The same behavior was also observed as regards the σmax variation., Conclusions: It was concluded that a restoring system with a lower Young modulus shows higher stress concentration on the abutment-crown interface when cemented on an abutment with a high Young modulus. Thus, IPS e.max Press system provides higher stress concentration in the resin cement layer than Procera AllCeram system, suggesting that the resin cement layer shows lower failure risk when the Procera crown is used.

Published

2010