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2. Load response of periodontal ligament: assessment of fluid flow, compressibility, and effect of pore pressure

Author

Bergomi, Marzio, Wiskott, H. W. Anselm, Botsis, John, Mellal, Aissa, and Belser, Urs C.

Subjects
Biomechanics -- Research, Ligaments -- Properties, Fluid mechanics -- Observations, Engineering and manufacturing industries, Science and technology
Abstract

The periodontal ligament (PDL) functions both in tension and in compression. The presence of an extensive vascular network inside the tissue suggests a significant contribution of the fluid phase to the mechanical response. This study examined the load response of bovine PDL under different pore pressure levels. A custom-made pressure chamber was constructed. Rod-shaped specimens comprising portions of dentine, bone, and intervening layer of PDL were extracted from bovine mandibular molars. The dentine ends of the specimens were secured to the actuator while the bone ends were affixed to the load cell. The entire assemblage was surrounded by the pressure chamber, which was then filled with saline. Specimens loaded at 1.0 Hz sinusoidal displacement were subjected to four different environmental fluid pressures (i.e., pressures of 0.0-1.0 MPa). The video images recorded during the tests were analyzed to determine whether or not fluid exchange between the PDL and the surrounding medium took place during mechanical loading. A value for the tissue's apparent Poisson ratio was also determined. The following observations were made: (1) fluid was squeezed out and pumped into the ligament during the compressive and tensile loading phases, (2) the PDL was highly compressible, and (3) the pore pressure had no influence on the mechanical response of the PDL. The present tests emphasized the biphasic structure of PDL tissue, which should be considered as a porous solid matrix through which fluid can freely flow. [DOI: 10.1115/1.4000154] Keywords: periodontal ligament, fluid flow, compressibility, pore pressure

Published
2010

6. The Effect of Water Storage, Elapsed Time and Contaminants on the Bond Strength and Interfacial Polymerization of a Nanohybrid Composite.

Author

Perriard, Jean, Lorente, Maria Cattani, Scherrer, Susanne, Belser, Urs C., and Wiskott, H. W. Anselm

Subjects
DENTAL bonding, POLYMERIZATION, DENTAL adhesives, DENTAL equipment, DENTAL resins, FRACTOGRAPHY, DENTAL research, WATER
Abstract

Purpose: To systematically characterize the effect of time lapse, water storage, and selected contaminants on the bond strength of a nanofilled dental composite. Materials and Methods: Half-dumbbell-shaped samples were fabricated out of light-polymerizing composite resin. To function as substrates they were aged for 30 days in water. Prior to bonding, the substrates' surfaces were subjected to the following treatments: 1) Removing a 0.2- to 0.4-mm layer using a fluted carbide bur; 2) grit blasting with 50 μm alumina particles; 3) etching with phosphoric acid gel; 4) grit blasting followed by etching; 5) blasting with tribochemical particles followed by silane application; 6) sanding with 400-grit paper, air aging of the adherent half-sample before bonding; 7) surface contamination with saliva; 8) surface contamination with blood. In each group (n = 30), freshly polymerized (except in group 6) adherent half-samples were bonded to the substrate half-samples by a layer of unfilled adhesive resin. Fifteen full dumbbell-shaped specimens were subjected to tensile testing after 1 h and 15 after 7 days water storage. In a positive control group, freshly cured half-samples were bonded shortly after fabrication. The tensile strength was analyzed using Weibull statistics and presented in terms of the material's characteristic strength and shape parameter. Fractographs of the two weakest and strongest samples of each group were produced. The surfaces were searched to locate hackle, wake hackle and the origin of the fracture. Results: Surface roughness and time lapse increased the bond strength of the repaired specimens. All groups in which surface roughness was produced before bonding increased in repair strength. Post-bonding aging improved strength. Fractographs yielded interpretable data whenever larger surfaces of single phase bonding resin were present. Conclusion: 1) Roughening and etching an aged composite's surface prior to applying a coat of unfilled resin and the filled material increases repair bond strength by up to 100%. 2) The repair bond strength of a roughened aged composite is 25% to 30% inferior to the tensile strength of solid specimens. 3) After 7 days' storage in water, no detrimental effect could be seen from saliva or blood contamination if the surfaces were properly rinsed. [ABSTRACT FROM AUTHOR]

Published
2009

7. Resistance of ITI Implant Connectors to Multivectorial Fatigue Load Application.

Author

Wiskott, H. W. Anselm, Pavone, Antonello F., Scherrer, Susanne S., Renevey, Roger R., and Belser, Urs C.

Subjects
DENTAL implants, DENTAL abutments, DENTAL screws, DENTAL cements, DENTAL ceramics, DENTAL metallurgy, TORQUE, CANTILEVERS
Abstract

Purpose: In an effort to provide patients with mechanically optimized implant connectors, this study was designed to assess the relative fatigue resistance of five types of connectors for the ITI implant system: (1)standard (screw-on) abutments torqued to 35, 70, and 140 Ncm; (2)metal Octa connectors torqued to 35 Ncm; (3) ceramic Octa connectors torqued to 15 and 35 Ncm; (4)cemented cast-on abutments; and (5)an experimental screw-retained composite core. Materials and Methods: To duplicate the alternating and multivectorial intraoral loading patterns, the specimens were subjected to the rotating cantilever beam test. The implants, their connectors, and abutments were spun around their longitudinal axes while a perpendicular force was applied to the external end. The objective was to determine the force level at which 50% of the specimens would survive 106 load cycles. The mean force levels at 50% failure and their 95% confidence intervals were determined using staircase analysis. Results: The fatigue resistances of the standard (screw-on) abutment, metal Octa connector, and ceramic Octa connector torqued to 35 Ncm were within a few percent of one another. The fatigue resistance of the cemented caston abutment was approximately half that of the screwed connectors, and the experimental screw-retained composite core's resistance was about 30%. Increasing the preload in the standard abutments and ceramic Octa connectors increased their fatigue resistance. Conclusion: Preloaded screwed components were mechanically superior to cemented cast-on abutments and screw-retained composite buildups. For the screw-on connectors, augmenting preload (ie, torque) augmented the resistance to fatigue loading. [ABSTRACT FROM AUTHOR]

Published
2004

8. Microstructures of Brazings and Welds Using Grade 2 Commercially Pure Titanium.

Author

Wiskott, H. W. Anselm, Doumas, Thierry, Scherrer, Susanne S., Susz, Christian, and Belser, Urs C.

Subjects
BRAZING alloys, WELDED joints, TITANIUM, BRAZING, DENTAL metallurgy, STRAINS & stresses (Mechanics), STRENGTH of materials
Abstract

Purpose: Microstructural analyses of commercially pure titanium (CpTi) are scarce. The present report presents the micrographs, fractographs, elemental characteristics, and hardness profiles of brazed joints and weldments using machined rods of CpTi. Materials and Methods: CpTi rods were joined using four techniques: laser welding, electric-arc welding, electron-beam welding, and gold- and Ti-filler brazing. The specimens were then subjected to tensile and fatigue loading. After sectioning and patterning, optical micrographs of intact joints were obtained. Fractured surfaces were investigated using scanning electron microscopy (SEM). The joint's composition was determined by SEM--energy dispersive x-ray analysis. Hardness was determined at specific locations using a microindenter. Results: While laser welding left the parent metal's equiaxed structure fairly intact, electric-arc welding, electron-beam welding, and brazing created a heat-affected zone in the vicinity of the joint. The extent and characteristics of the heat-affected zone depended on the amount of heat transferred to the specimens. In this respect, brazing essentially increased grain size and altered their shape. Electron-beam welding augmented this phenomenon, yielding grains that encompassed the full diameter of the joint. Electric-arc welding disrupted the granular pattern and generated highly lamellar/acicular structures. Conclusion: Hardness was not a good indicator of mechanical resistance, nor was the joint's structural continuity with the parent substrate. Still, acicular microstructures were characterized by a peculiar behavior in that such joints were highly resistant to tensile stresses while their fatigue strength ranged among the lowest of the joints tested. [ABSTRACT FROM AUTHOR]

Published
2001

9. The Effect of Film Thickness and Surface Texture on the Resistance of Cemented Extracoronal Restorations to Lateral Fatigue Loading.

Author

Wiskott, H. W. Anselm, Belser, Urs C., and Scherrer, Susanne S.

Subjects
DENTAL cements, SURFACE roughness, DYNAMIC testing of materials, THICKNESS measurement, DENTAL abutments, DENTAL glass ionomer cements, ZINC compounds
Abstract

Purpose: The aim of the present study was to assess the effect of cement-film thickness and surface texture (roughness) on the resistance of cemented crowns to dynamic lateral loading. Materials and Methods: Crown and abutment analogues were cemented using zinc-oxide-eugenol, zinc-phosphate, glass-ionomer, and composite cements. The space left for the cement lute was 0.02, 0.05, 0.1, 0.2, and 0.5 mm. The 3 degrees of surface texture subjected to investigation were (1) polished with up to 4,000-grit paper, (2) sanded using a 1,000-grit paper, and (3) sandblasted with 50-μm aluminum oxide. Testing was conducted according to the staircase procedure. The specimens were subjected to rotational fatigue loading until the cement bond failed or the components reached 1000,000 stress cycles. Results: The results showed that the relation between cement thickness and resistance to dynamic lateral loading is hyperbolic. For the zinc-oxide-eugenol, the zinc-phosphate, and the glass-ionomer cements increasing surface texture had a moderate effect. For composite cement, sandblasting doubled the resistance to dynamic lateral loading. For both parameters tested (cement thickness and surface texture), the ascending order of resistance was: zinc-oxide-eugenol, zinc-phosphate, and glass-ionomer cements. Crowns cemented with composite cement presented the highest resistance to dynamic lateral loading. Conclusion: Within the confines of the present experimental design, it is concluded that (1) decreasing the width of the cement layer increases the resistance to dynamic lateral loading, and (2) texturing the surface of the abutment and the restorations as after sandblasting increases the resistance to dynamic lateral loading. [ABSTRACT FROM AUTHOR]

Published
1999

10. The Effect of Tooth Preparation Height and Diameter on the Resistance of Complete Crowns to Fatigue Loading.

Author

Wiskott, H. W. Anselm, Nicholls, Jack I., and Belser, Urs C.

Subjects
DENTAL crowns, DENTAL glass ionomer cements, DENTAL cements, PROSTHODONTICS, DENTAL abutments, DENTISTRY, DENTAL care
Abstract

This study investigated the relationship between tooth preparation height and diameter and the resistance of cemented crowns to dynamic loading. Crown and abutment analogs were cemented using zinc oxide-eugenol, zinc phosphate, glass-ionomer, and resin composite luting agents. Abutment height varied from 1 to 7 mm in increments of 1 mm. Diameters of 3, 4, 3, 6, 7, and 8 mm were tested. A testing apparatus designed to apply dynamic stresses was used. The cemented crowns were loaded until the cement bond failed or the components reached 1 million stress cycles. The staircase technique was applied for data analysis. The results showed that: (1) the relationship between abutment height (or diameter) and resistance to dynamic lateral loading is approximately linear; and (2) crowns luted using resin composite cement were more resistant than those placed using glass-ionomer cement, which in turn were more resistant than crowns cemented with zinc phosphate or zinc oxide-eugenol cements. [ABSTRACT FROM AUTHOR]

Published
1997

11. Stress fatigue: basic principles and prosthodontic implications.

Author

Wiskott, H. W. Anselm, Nicholls, Jack I., Belser, Urs C., Wiskott, H W, Nicholls, J I, and Belser, U C

Subjects
PROSTHODONTICS, PROSTHETICS, FATIGUE (Physiology), DENTAL technology, DENTURES, DENTISTRY
Abstract

Clinical evidence indicates that the majority of fractures that occur in prosthodontic structures do so after a period of many years. Such failures generally are not related to an episode of acute overload but result from fatigue failure. This paper reviews the current knowledge of fatigue failure and test methods. An overview of published studies is given, and the authors suggest guidelines for future prosthodontic studies of this nature. [ABSTRACT FROM AUTHOR]

Published
1995

12. A Fixed Prosthodontics Centric Relation Registration Technique Using Resin Copings.

Author

Wiskott, H. W. Anselm and Nicholls, Jack I.

Subjects
PROSTHODONTICS, DENTAL resins, DENTAL materials, DENTISTRY, PROSTHETICS, DENTAL technology, DENTAL impressions, DENTAL chemistry, DENTAL care
Abstract

The registration of an accurate centric relation is one of the most critical steps in a prosthodontic rehabilitation, yet it sometimes is an uncertain procedure. A technique using resin copings, each supporting an occlusal contact, is presented. By careful, selective addition of resin, the centric relation recording can be controlled. The technique requires a pattern of abutments to provide stability, and is, therefore, primarily applicable to fixed prosthodontics. Nonetheless, it is versatile enough to accommodate a variety of clinical situations. [ABSTRACT FROM AUTHOR]

Published
1989

13. Fixed Prosthodontics : Principles and Clinics

Author

Wiskott, H. W. Anselm and Wiskott, H. W. Anselm

Subjects
Bridges (Dentistry), Crowns (Dentistry), Prosthodontics, Dental technology
Abstract

Written with the dental student in mind, this textbook presents a methodical and scientifically based approach to restorative dentistry using fixed prosthodontics. In addition to a comprehensive overview of the clinical concepts of fixed prosthodontics, the author supplies the interdisciplinary context for related basic sciences as well as the clinical fields of periodontics, orthodontics, operative dentistry, and implant dentistry. Once the scientific background is established, the text guides the reader, chapter by chapter, through the process of providing reliable treatment, and the accompanying illustrations depict common clinical situations and recommended treatment options to clarify the essential principles of fixed prosthodontics. By addressing the strategic, operational, and technical aspects of prosthetic dentistry, the author outlines the clinical steps of restorative dentistry and simplifies the complex concepts that students struggle with in the early phases of professional development.

Published
2011

14. Three-dimensional morphometry of strained bovine periodontal ligament using synchrotron radiation-based tomography

Author

Bergomi, Marzio, Cugnoni, Joel, Wiskott, H. W. Anselm, Schneider, Philipp, Stampanoni, Marco, Botsis, John, Belser, Urs C., University of Zurich, and Wiskott, H W A

Subjects
Equine Cheek Teeth, periodontal ligament, Compression, 610 Medicine & health, Articular-Cartilage, 2702 Anatomy, 2722 Histology, 170 Ethics, 1309 Developmental Biology, 1307 Cell Biology, Blood-Vessel System, Mechanical-Behavior, 1105 Ecology, Evolution, Behavior and Systematics, stomatognathic system, morphology, synchrotron radiation-based tomography, 1312 Molecular Biology, Vasculature, 10237 Institute of Biomedical Engineering, Creep Response Analysis, three-dimensional vascular network
Abstract

The periodontal ligament (PDL) is a highly vascularized soft connective tissue. Previous studies suggest that the viscous component of the mechanical response may be explained by the deformation-induced collapse and expansion of internal voids (i.e. chiefly blood vessels) interacting with liquids (i.e. blood and interstitial fluids) flowing through the pores. In the present work we propose a methodology by means of which the morphology of the PDL vascular plexus can be monitored at different levels of compressive and tensile strains. To this end, 4-mm-diameter cylindrical specimens, comprising layers of bone, PDL and dentin covered by cementum, were strained at stretch ratios ranging from lambda = 0.6 to lambda = 1.4 and scanned using synchrotron radiation-based computer tomography. It was concluded that: (1) the PDL vascular network is layered in two distinct planes of blood vessels (BVs): an inner layer (close to the tooth), in which the BVs run in apico-coronal direction, and an outer layer (close to the alveolar bone), in which the BVs distribution is more diffuse; (2) during tension and compression, the porosity tissue is kept fairly constant; (3) mechanical straining induces important changes in BV diameters, possibly modifying the permeability of the PDL and thus contributing to the viscous component of the viscoelastic response observed under compressive forces.

Published
2010
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25. Incidence of fractures and lifetime predictions of all-ceramic crown systems using censored data.

Author

SCHERRER, SUSANNE S., DE RIJK, WALDEMAR G., WISKOTT, H. W. ANSELM, and BELSER, URS C.

Subjects
DENTAL ceramics, DENTAL crowns, DENTAL glass ionomer cements, DENTAL fillings, DENTAL resins, MOLARS
Abstract

Purpose: To determine Kaplan-Meier survival estimates and Weibull lifetime predictions for four all-ceramic crown systems from long-term data (>5 yrs). Materials and Methods: Single unit crowns of Cerestore (n=30), Dicor (n=30), Hi-Ceram (n=22) and In-Ceram (n=68) were placed in 95 patients treated in a university clinic. They were cemented using glass-ionomer (GI) for Cerestore, zinc phosphate (ZP) for Dicor, and 75% ZP (n=51), 20% GI (n=13) and 5% resin-based cement (n=4) for In-Ceram crowns. The follow-up times were 8 yrs for Cerestore, 7 yrs for Dicor, 6 yrs for Hi-Ceram and 5 yrs for In-Ceram. The statistical analyses were based on censored data sets. A progressively censored Weibull distribution allowing for lifetime predictions beyond the actual observation time was used as well as the Kaplan-Meier Survival Product Limit Estimate (PLE), which provides survival estimates up to the maximum time of follow-up. Results: Cerestore, Dicor and Hi-Ceram demonstrated molar fractures in the first 2 yrs, whereas for In-Ceram these occurred during the third and fourth year of the study. The Kaplan-Meier Survival PLE was 69% For Cerestore at 8 yrs, 86% for Dicor at 7 yrs, 81% for Hi-Ceram at 6 yrs, 92% for In-Ceram at 5 yrs. The predicted Weibull characteristic time T0 (time at which 63% of the restorations would have failed) was 23 yrs for Cerestore, 34 yrs for Dicor, 31 yrs for Hi-Ceram, and 16 yrs for In-Ceram. However, when using data sets arbitrarily limited to the three first years of follow-up, T0 decreased significantly for Cerestore, Dicor and Hi-Ceram due to the number of early fractures. Such Weibuil lifetime date illustrate the risk of predicting long-term (>5 yrs) survival using short-term (≤3 yrs) data on ceramic restorations, which exhibit fracturing in the initial years. [ABSTRACT FROM AUTHOR]

Published
2001

27. Hydrothermal degradation of a 3Y-TZP translucent dental ceramic: A comparison of numerical predictions with experimental data after 2 years of aging.

Author

Cattani-Lorente M, Durual S, Amez-Droz M, Wiskott HW, and Scherrer SS

Subjects
Dental Stress Analysis, Elastic Modulus, Hardness, Hot Temperature, Materials Testing, Models, Statistical, Phase Transition, Surface Properties, Ceramics chemistry, Dental Materials chemistry, Yttrium chemistry, Zirconium chemistry
Abstract

Objectives: The purpose of the study was to assess the hydrothermal resistance of a translucent zirconia with two clinical relevant surface textures by means of accelerated tests (LTD) and to compare predicted monoclinic fractions with experimental values measured after two years aging at 37°C., Methods: Polished (P) and ground (G) specimens were subjected to hydrothermal degradation by exposure to water steam at different temperatures and pressures. The t-m phase transformation was quantified by grazing incidence X-ray diffraction (GIXDR). The elastic modulus and hardness before- and after LTD were determined by nanoindentation., Results: G specimens presented a better resistance to hydrothermal degradation than P samples. Activation energies of 89 and 98kJ/mol and b coefficients of 2.0×10(-5) and 1.8×10(-6) were calculated for P and G samples respectively. The coefficients were subsequently used to predict transformed monoclinic fractions at 37°C. A good correlation was found between the predicted values and the experimental data obtained after aging at 37°C during 2 years. Hydrothermal degradation led to a significant decrease of the elastic moduli and hardness in both groups., Significance: The dependency of the t-m phase transformation rate on temperature must be determined to accurately predict the hydrothermal behavior of the zirconia ceramics at oral temperatures. The current prevailing assumption, that 5h aging at 134°C corresponds to 15-20 years at 37°C, will underestimate the transformed fraction of the translucent ceramic at 37°C. In this case, the mechanical surface treatment influences the ceramic's transformability. While mild grinding could potentially retard the hydrothermal transformation, polishing after occlusal adjustment is recommended to prevent wear of the antagonist teeth and maintain structural strength., (Copyright © 2015 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.)

Published
2016
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28. TiNOx coatings on roughened titanium and CoCr alloy accelerate early osseointegration of dental implants in minipigs.

Author

Durual S, Rieder P, Garavaglia G, Filieri A, Cattani-Lorente M, Scherrer SS, and Wiskott HW

Subjects
Animals, Cell Differentiation, Swine, Swine, Miniature, Chromium Alloys, Dental Implants, Osseointegration, Titanium
Abstract

Introduction: Titanium nitride oxide (TiNOx) coatings are known for their biocompatibility, hardness and high resistance to corrosion and wear. Further, they can be applied by plasma vapor deposition onto a wide variety of metallic, mineral, or organic substrates. In cell cultures, TiNOx coatings applied onto SLA (sandblasted, large grit, acid etched)-roughened titanium surfaces increased human primary osteoblast proliferation by 1.5 times in the first 2 weeks after seeding, while maintaining a high degree of cell differentiation. Therefore, the objectives of the present study were (i) to determine whether these findings would translate into the enhanced osseointegration of TiNOx-coated implants in vivo and (ii) to compare the osseointegration of Ti-SLA (titanium-SLA) and CoCr-SLA (cobalt-chromium-SLA) implants coated with TiNOx., Methods: Forty-eight cylinders made of Ti-SLA, Ti-SLA-TiNOx (TiNOx-coated Ti-SLA) and CoCr-SLA-TiNOx (TiNOx-coated CoCr-SLA) were implanted into the lower jawbone of 8 minipigs. The bone-to-implant contact was determined after 1 week, 2 weeks, 1 month and 3 months., Results: Osseointegration proceeded normally on all 3 surfaces, with equal activity after the first week of healing. After 2 weeks, bone-to-implant contact was 1.8 times higher on TiNOx coatings, either deposited on Ti or on CoCr. These differences fell off after 1 and 3 months of healing., Conclusions: When compared to standard SLA titanium, TiNOx coatings enhance implant osseointegration during the first month of healing. Furthermore, this stimulating effect is independent of the substrate, leading to similar results whether the coating is applied onto SLA-Ti or onto SLA-CoCr., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published
2013
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29. TiNOx coatings increase human primary osteoblasts proliferation independently of the substrate: a short report.

Author

Rieder P, Scherrer S, Filieri A, Wiskott HW, and Durual S

Subjects
Alkaline Phosphatase genetics, Alkaline Phosphatase metabolism, Bone Morphogenetic Protein 2 genetics, Bone Morphogenetic Protein 2 metabolism, Cell Differentiation drug effects, Core Binding Factor Alpha 1 Subunit genetics, Core Binding Factor Alpha 1 Subunit metabolism, Humans, Osteoblasts drug effects, Osteopontin genetics, Osteopontin metabolism, Osteoprotegerin genetics, Osteoprotegerin metabolism, Stainless Steel chemistry, Surface Properties, Cell Proliferation drug effects, Coated Materials, Biocompatible pharmacology, Osteoblasts cytology, Titanium pharmacology
Abstract

Introduction: When applied onto SLA titanium, Titanium Nitride Oxide (TiNOx) coatings are known for their stimulating effect on osteoblast proliferation while maintaining a high degree of differentiation., Objective: To determine whether the stimulating effect of TiNOx coatings is or is not dependent of the metal substrate., Methods: A TiNOx coating was deposited on roughened stainless steel (SS-SLA-TiNOx). The proliferation and differentiation of human primary osteoblasts were determined and compared to that observed on standard SLA titanium. To this end, cell proliferation and gene expression were monitored for a time course of 3 weeks, with or without additional stimulation by 100 nM 1.25(OH)2 vitamin D3., Results: A 1.5 fold increase in the proliferation rate of cells grown on SS-SLA-TiNOx as compared to Ti-SLA surfaces was observed. A high level of differentiation was also noted., Conclusion: TiNOx coatings yield similar proliferation and differentiation rates when applied onto roughened Ti and SS. This might translate into a more effective osseointegration of endosseous implants made of stronger metals than Ti.

Published
2012
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30. Low temperature degradation of a Y-TZP dental ceramic.

Author

Cattani-Lorente M, Scherrer SS, Ammann P, Jobin M, and Wiskott HW

Subjects
Elastic Modulus, Hardness, Microscopy, Atomic Force, Microscopy, Electron, Scanning, Nanotechnology, Phase Transition, Spectrometry, Fluorescence, Surface Properties, X-Ray Diffraction, Cold Temperature, Dental Porcelain chemistry, Yttrium chemistry, Zirconium chemistry
Abstract

Bars of Y-TZP ceramic for dental restorations were subjected to hydrothermal degradation via in vitro exposure to water steam at 140°C for 7 days. X-ray diffraction, atomic force microscopy and scanning electron microscopy techniques were applied to observe and quantify the tetragonal-monoclinic (t-m) phase transformation associated with the process. Nanoindentation was used to assess the ceramic's mechanical properties before and after hydrothermal degradation. Texture associated with martensitic t-m transformation was observed at the grain surface. The t-m transformation followed nucleation-and-growth kinetics, with predominance of the nucleation process. The transformation occurred within a layer of 6 μm below the surface. Mechanical properties deteriorated with hydrothermal degradation, resulting in a 30% reduction of Young's modulus and hardness. A strong correlation was found between the increasing monoclinic fraction and the decline in mechanical response. It was thus concluded that the emergence of the monoclinic phase and the associated microcracking were the most likely causes for the degradation of mechanical properties., (Copyright © 2010. Published by Elsevier Ltd.)

Published
2011
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31. Fatigue behavior in water of Y-TZP zirconia ceramics after abrasion with 30 μm silica-coated alumina particles.

Author

Scherrer SS, Cattani-Lorente M, Vittecoq E, de Mestral F, Griggs JA, and Wiskott HW

Subjects
Chemical Phenomena, Dental Stress Analysis instrumentation, Elastic Modulus, Humans, Materials Testing, Microscopy, Electron, Scanning, Particle Size, Pliability, Silicates chemistry, Stress, Mechanical, Surface Properties, X-Ray Diffraction, Aluminum Oxide chemistry, Dental Etching methods, Dental Porcelain chemistry, Silicon Dioxide chemistry, Water chemistry, Yttrium chemistry, Zirconium chemistry
Abstract

Objective: The use of a 30 μm alumina-silica coated particle sand (CoJet™ Sand, 3M Espe), has shown to enhance the adhesion of resin cements to Y-TZP. The question is whether or not sandblasting 30 μm particles does negatively affect the fatigue limit (S-N curves) and the cumulative survival of Y-TZP ceramics., Method: Four zirconia materials tested were: Zeno (ZW) (Wieland), Everest ZS (KV) (KaVo), Lava white (LV) and Lava colored (LVB) (3M Espe). Fatigue testing (S-N) was performed on 66bar of 3 mm × 5 mm × 40 mm with beveled edges for each zirconia material provided by the manufacturers. One half of the specimens were CoJet sandblasted in the middle of the tensile side on a surface of 5 mm × 6 mm. Cyclic fatigue (N=30/group) (sinusoidal loading/unloading at 10 Hz between 10% and 100% load) was performed in 3-point-bending in a water tank. Stress levels were lowered from the initial static value (average of N=3) until surviving 1 million cycles. Fatigue limits were determined from trend lines. Kaplan-Meier survival analysis was performed to determine the failure stress at the median percentile survival level for 1 million of cycles before and after sandblasting. The statistical analyses used the log-rank test. Characterization of the critical flaw was performed by SEM for the majority of the failed specimens., Results: The fatigue limits "as received" (ctr) were: LV=720 MPa, LVB=600 MPa, KV=560 MPa, ZW=470 MPa. The fatigue limits "after CoJet sandblasting" were: LV=840 MPa, LVB=788 MPa, KV=645 MPa, ZW=540 MPa. The increase in fatigue limit after sandblasting was 15% for Zeno (ZW) and Everest (KV), 17% for Lava (LV) and 31% for Lava colored (LVB). The KM median survival stresses in MPa were: ZW(ctr)=549 (543-555), ZW(s)=587 (545-629), KV(ctr)=593 (579-607), KV(s)=676 (655-697), LVB(ctr)=635 (578-692), LVB(s)=809 (787-831), LV(ctr)=743 (729-757), LV(s)=908 (840-976). Log-rank tests were significantly different (p<0.001) for all sandblasted groups vs. the "as received" except for Zeno (Wieland) (p=0.295). Failures started from both intrinsic and machined flaws., Significance: 30 μm particle sandblasting did significantly improve the fatigue behavior of three out of four Y-TZP ceramic materials and can therefore be recommended for adhesive cementation procedures. This study was supported in part by grants from the Swiss Society for Reconstructive Dentistry (SSRD) and 3M Espe., (Copyright © 2010 Academy of Dental Materials. All rights reserved.)

Published
2011
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32. Hydro-mechanical coupling in the periodontal ligament: a porohyperelastic finite element model.

Author

Bergomi M, Cugnoni J, Galli M, Botsis J, Belser UC, and Wiskott HW

Subjects
Animals, Biomechanical Phenomena, Cattle, Compressive Strength, Computer Simulation, Elasticity, Extracellular Fluid physiology, Finite Element Analysis, Hydrodynamics, In Vitro Techniques, Permeability, Porosity, Stress, Mechanical, Models, Biological, Periodontal Ligament physiology
Abstract

Harmonic tension-compression tests at 0.1, 0.5 and 1 Hz on hydrated bovine periodontal ligament (PDL) were numerically simulated. The process was modeled by finite elements (FE) within the framework of poromechanics, with the objective of isolating the contributions of the solid- and fluid phases. The solid matrix was modeled as a porous hyperelastic material (hyperfoam) through which the incompressible fluid filling the pores flowed in accordance with the Darcy's law. The hydro-mechanical coupling between the porous solid matrix and the fluid phase circulating through it provided an apparent time-dependent response to the PDL, whose rate of deformation depended on the permeability of the porous solid with respect to the interstitial fluid. Since the PDL was subjected to significant deformations, finite strains were taken into account and an exponential dependence of PDL permeability on void ratio - and therefore on the deformation state - was assumed. PDL constitutive parameters were identified by fitting the simulated response to the experimental data for the tests at 1 Hz. The values thus obtained were then used to simulate the tests at 0.1 and 0.5 Hz. The results of the present simulation demonstrate that a porohyperelastic model with variable permeability is able to describe the two main aspects of the PDL's response: (1) the dependency on strain-rate-the saturated material can develop volumetric strains by only exchanging fluid and (2) the asymmetry between tension and compression, which is due to the effect of both the permeability and the elastic properties on deformation., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published
2011
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33. Surface roughness and EDS characterization of a Y-TZP dental ceramic treated with the CoJet™ Sand.

Author

Cattani Lorente M, Scherrer SS, Richard J, Demellayer R, Amez-Droz M, and Wiskott HW

Subjects
Aluminum chemistry, Chemical Phenomena, Computer-Aided Design, Crystallography, Electron Probe Microanalysis, Ethanol chemistry, Humans, Materials Testing, Silicon chemistry, Solvents chemistry, Spectrometry, X-Ray Emission, Surface Properties, Time Factors, Ultrasonics, Water chemistry, X-Ray Diffraction, Aluminum Oxide chemistry, Dental Etching methods, Dental Porcelain chemistry, Silicon Dioxide chemistry, Yttrium chemistry, Zirconium chemistry
Abstract

Objectives: (1) To determine the surface roughness and material loss of a Y-TZP ceramic before and after tribochemical grit blasting and (2) to characterize the changes in elemental surface composition and the phase transformations after tribochemical treatment., Methods: Machined bar shaped specimens (Zeno, Wieland) were subdivided into three groups. After grit blasting for 10, 20 and 30s respectively, half of the specimens of each group were ultrasonically cleaned in ethanol for 10min. The other half was rinsed with a water spray. Surface roughness was measured using an electro-mechanical profilometer. The elemental composition of the samples was obtained by energy dispersive X-ray spectroscopy (EDS). X-ray diffraction (XRD) was used for phase transformations determination., Results: The median Ra increased significantly from 0.24 to 0.32-0.38μm after grit blasting. Augmentations were also noted for R(max), R(v) and R(p). The highest roughness parameters were, obtained for water sprayed specimens and samples abraded for 30s. Loss of material ranged between 1 and 3μm for 30s grit blasting. Tetragonal and cubic phases were identified in 'as machined' specimens. Grit blasting resulted in domain switching and lattice deformations. The elemental composition comprised Si and Al. The duration of grit blasting did not significantly, influence the atomic percentages of Si or Al. Significantly lower values for both Si and Al were noted, after ultrasonic cleaning., Significance: Grit blasting with CoJet™ Sand resulted in an increase of surface roughness, a removal of maximum 3μm of material and coated the surface with submicron silica and alumina particles., (Copyright © 2010 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.)

Published
2010
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34. Three-dimensional morphometry of strained bovine periodontal ligament using synchrotron radiation-based tomography.

Author

Bergomi M, Cugnoni J, Wiskott HW, Schneider P, Stampanoni M, Botsis J, and Belser UC

Subjects
Animals, Blood Vessels diagnostic imaging, Blood Vessels physiology, Cattle, Microcirculation physiology, Periodontal Ligament blood supply, Periodontal Ligament diagnostic imaging, Periodontal Ligament physiology, Porosity, Specimen Handling methods, Stress, Mechanical, Synchrotrons, Tomography, X-Ray Computed methods, Ultrasonography, Periodontal Ligament anatomy & histology
Abstract

The periodontal ligament (PDL) is a highly vascularized soft connective tissue. Previous studies suggest that the viscous component of the mechanical response may be explained by the deformation-induced collapse and expansion of internal voids (i.e. chiefly blood vessels) interacting with liquids (i.e. blood and interstitial fluids) flowing through the pores. In the present work we propose a methodology by means of which the morphology of the PDL vascular plexus can be monitored at different levels of compressive and tensile strains. To this end, 4-mm-diameter cylindrical specimens, comprising layers of bone, PDL and dentin covered by cementum, were strained at stretch ratios ranging from lambda = 0.6 to lambda = 1.4 and scanned using synchrotron radiation-based computer tomography. It was concluded that: (1) the PDL vascular network is layered in two distinct planes of blood vessels (BVs): an inner layer (close to the tooth), in which the BVs run in apico-coronal direction, and an outer layer (close to the alveolar bone), in which the BVs distribution is more diffuse; (2) during tension and compression, the porosity tissue is kept fairly constant; (3) mechanical straining induces important changes in BV diameters, possibly modifying the permeability of the PDL and thus contributing to the viscous component of the viscoelastic response observed under compressive forces.

Published
2010
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35. Fractographic ceramic failure analysis using the replica technique.

Author

Scherrer SS, Quinn JB, Quinn GD, and Wiskott HW

Subjects
Aluminum Oxide, Dental Impression Materials, Dental Impression Technique, Equipment Failure Analysis methods, Microscopy, Electron, Scanning, Polyvinyls, Siloxanes, Surface Properties, Zirconium, Dental Porcelain, Dental Restoration Failure, Replica Techniques
Abstract

Objectives: To demonstrate the effectiveness of in vivo replicas of fractured ceramic surfaces for descriptive fractography as applied to the analysis of clinical failures., Methods: The fracture surface topography of partially failed veneering ceramic of a Procera Alumina molar and an In-Ceram Zirconia premolar were examined utilizing gold-coated epoxy poured replicas viewed using scanning electron microscopy. The replicas were inspected for fractographic features such as hackle, wake hackle, twist hackle, compression curl and arrest lines for determination of the direction of crack propagation and location of the origin., Results: For both veneering ceramics, replicas provided an excellent reproduction of the fractured surfaces. Fine details including all characteristic fracture features produced by the interaction of the advancing crack with the material's microstructure could be recognized. The observed features are indicators of the local direction of crack propagation and were used to trace the crack's progression back to its initial starting zone (the origin). Drawbacks of replicas such as artifacts (air bubbles) or imperfections resulting from inadequate epoxy pouring were noted but not critical for the overall analysis of the fractured surfaces., Significance: The replica technique proved to be easy to use and allowed an excellent reproduction of failed ceramic surfaces. It should be applied before attempting to remove any failed part remaining in situ as the fracture surface may be damaged during this procedure. These two case studies are intended as an introduction for the clinical researcher in using qualitative (descriptive) fractography as a tool for understanding fracture processes in brittle restorative materials and, secondarily, to draw conclusions as to possible design inadequacies in failed restorations.

Published
2007
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36. Rotational fatigue-resistance of seven post types anchored on natural teeth.

Author

Wiskott HW, Meyer M, Perriard J, and Scherrer SS

Subjects
Ceramics, Composite Resins, Dental Stress Analysis, Metals, Models, Dental, Rotation, Dental Restoration Failure, Post and Core Technique
Abstract

Purpose: To develop a laboratory model aimed at duplicating the failure process of post and core restorations. The load pattern applied was to be repetitive (fatigue) and multivectorial. To determine and compare the resistance under fatigue loading of seven endodontic post/natural root combinations: stainless steel-, titanium-, ceramic-, composite-fiber/epoxy-, two glass-fiber/epoxy- and glass-fiber/acrylic posts., Materials and Methods: The repetitive, alternating and multivectorial intraoral force pattern was reproduced by subjecting the specimens to the rotating cantilever beam test. To this end, the samples were designed as rotation-symmetric structures comprising a root, a post, periodontal ligament- and bone analogs and a restoration analog. The following posts were tested: Unimetric-Ti, Unimetric-SS, Biopost, Composipost, Easypost, DT Lightpost, Everstickpost. The samples were spun around their long axes while being clamped into a revolving collet on one end and loaded normal to their long axis on the other end. The aim was to determine the load level at which 50% of the specimens survived- and 50% fractured before 10E6 cycles. The 50% means were determined using the staircase procedure., Results: In increasing order of magnitude, the resistances to fatigue loading were as follows: Biopost, Unimetric-Ti, Unimetric-SS, Composipost, Easypost, Everstickpost, DT Lightpost., Significance: The fatigue resistance of the two fibrous posts with the highest fatigue resistance was twice that of any of the ceramic or metal posts.

Published
2007
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37. Using implant connectors to support clinical abrasion probes: a methodological study.

Author

Wiskott HW, Perriard J, Scherrer SS, Bois N, and Belser UC

Subjects
Adult, Aged, Dental Prosthesis Design, Dental Prosthesis, Implant-Supported, Female, Humans, Male, Middle Aged, Acrylic Resins chemistry, Ceramics chemistry, Composite Resins chemistry, Dental Restoration Wear, Dental Veneers, Polyurethanes chemistry
Abstract

Objectives: To validate a procedure aimed at assessing the clinical wear rate of full crown veneering materials. To confirm its clinical applicability and alignment capacity in the ancillary profiling apparatus. To quantify the wear rate of a full crown veneering composite (Sinfony, 3M-ESPE) as compared to that of a ceramic (negative control) and an unfilled resin (positive control)., Methods: The technique consisted in utilizing implant supported crowns which were either screw-fastened to endosseous implants via ITI-Straumann Octa connectors or to an Octa analog on an x-y measuring table. After initial contour profiling, 14 crowns were placed in the mouths of seven patients. Six crowns were veneered with composite, four with ceramic and four with an unfilled resin. The crowns were removed at 3, 6, 9, 12, 15, 18 and 24 months and digitalized contour profiles were obtained. Contour profiling consisted in securing the restorations to the x-y table and assessing the z-coordinate using an LVDT stylus. At the end of the experimental period, loss of material was computed as the differences between the initial- and subsequent measurements., Results: The total error of the method was estimated at +/-10 microm. The composite's annual wear rate was 75 microm/year, the ceramic wore at ca. 6 microm/year and the unfilled resin wore at 160 microm/year. Wear was unevenly distributed and concentrated on occlusal contact areas., Significance: (1) A technique utilizing ITI-Straumann octagonal implant connectors is suitable for clinical use. (2) The veneering composite wears at a rate that is superior to ADA guidelines for composites intended for direct fillings.

Published
2007
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