Your search keyword '"Dental Materials"' showing total 1,590 results

1. 3D printing and milling accuracy influence full-contour zirconia crown adaptation

Author

Bernardo Camargo, Evita Willems, Wout Jacobs, Kirsten Van Landuyt, Marleen Peumans, Fei Zhang, Jef Vleugels, and Bart Van Meerbeek

Subjects

Dental Cementum, Dental Materials, Crowns, Glass Ionomer Cements, Mechanics of Materials, Printing, Three-Dimensional, Bone Cements, Dental Cements, General Materials Science, General Dentistry

Abstract

To correlate trueness and cement-space characteristics of crowns milled chairside and in the laboratory with those of inkjet 3D-printed crowns, and to assess whether 3D-printing accuracy meets the clinical standard.Thirty crowns were either (1) milled using a chairside Cerec MCXL unit from Cerec Zirconia Mono L (Dentsply Sirona), (2) milled using a LX-O 5-axis (Matsuura Machinery) industrial machine from Initial Zirconia HT (GC), or (3) 3D-printed using an inkjet Carmel 1400 (Xjet) printer (n = 10). Crown trueness determined by comparing the original CAD with each visible-light digitized crown was correlated with the 3D cement-space characteristics recorded by micro-CT. Statistics involved Kruskal-Wallis testing and Spearman correlation.Crown trueness at the intaglio marginal area positively correlated with the marginal and axial cement-space characteristics. 3D-printing revealed data in-between those of the two milling systems with undercut values being not statistically different from those recorded for chairside milling and a low overcut level that was statistically similar to that obtained by laboratory milling. Laboratory milling revealed a significantly better marginal accuracy with a consequently lower cement-space thickness. A higher overcut level was recorded for the chairside-milled crowns in the marginal/occlusal thirds, resulting in the significantly highest occlusal cement-space thickness and cement-volume percentage with a cement thickness above 120 µm (limit considered as clinically acceptable). No statistical difference in trueness was found for the external crown dimensions.The 3D-printed zirconia crowns provided sufficient manufacturing accuracy for clinical use. Accurate milling and printing of the crown's intaglio marginal area is primordial.

Published

2022

2. Ion releasing direct restorative materials: Key mechanical properties and wear

Author

Rawan Daabash, Abdulrahman Alshabib, Mohammed Q. Alqahtani, Richard Bengt Price, Nick Silikas, and Maan M. Alshaafi

Subjects

Dental Materials, Glass Ionomer Cements, Hardness, Surface Properties, Mechanics of Materials, Materials Testing, Water, General Materials Science, Composite Resins, General Dentistry

Abstract

To investigate the depth of cure (DoC), fracture toughness (KTwo ion releasing RBCs, Activa (ACT) and Cention-N (CN) were compared to a conventional RBC (Z350) and a resin-modified glass ionomer cement (Fuji-II-LC). The DoC was measured in a 10-mm deep semi-circular metal mold with a 2-mm internal radius (n = 8). The molds were irradiated from one end for 20-s. The Knoop hardness (KH) was measured at 0.5-mm intervals from the surface after the specimens had been stored at 37 °C for 24-h. To measure the KMaximum hardness value was the highest for Z350 and the lowest for ACT. The depth at which 80% of the maximum KH, was the highest for CN (9.2 mm) and the lowest for Z350 (2 mm). All tested materials met the manufacturers' claims for DoC. After 1-day, the highest KAll tested materials met their manufacturers' claims for DoC. Water storage for 30-days significantly reduced the fracture toughness for ACT and CN. Wear was significantly higher for ACT and CN.

Published

2022

3. Buccal fat pad as a sealant in palatal mucosa tearing: technical note

Author

F, Hernández-Alfaro, D, Soriano-Martín, G, Molins-Ballabriga, and A, Valls-Ontañón

Subjects

Palatal Expansion Technique, Dental Materials, Mucous Membrane, Lacrimal Apparatus Diseases, Adipose Tissue, Otorhinolaryngology, Maxilla, Humans, Osteotomy, Le Fort, Surgery, Oral Surgery, Lacerations

Abstract

For patients with a dentofacial deformity undergoing a planned segmentation of the maxilla for the management of a transverse maxillary arch discrepancy, palatal mucosa tearing may occur during sawing or palatal expansion traction, giving rise to an oronasal communication. This technical note describes the covering of a tear in the palatal mucosa using a buccal fat pad (BFP) flap, in the context of maxillary segmentation during Le Fort I osteotomy. Through the limited buccal incision used for the Le Fort I osteotomy, a small incision is made in the right periosteum posteriorly, and a supraperiosteal dissection is performed to access the BFP. After a sufficient amount of flap is made available, it is gently introduced through the osteotomy gap until it reaches the palatal mucosa defect and is then sutured. In the patient case presented, the palatal mucosa healed fully within 18 days, and the patient reported no nasal regurgitation of food, defective speech, fetid odour, bad taste, or upper respiratory tract or ear infection during the postoperative period. This technique using a BFP flap should therefore be considered in the context of unexpected tearing of the palatal mucosa in patients undergoing a segmented Le Fort I osteotomy.

Published

2022

4. Novel antibacterial low-shrinkage-stress resin-based cement

Author

Rashed, AlSahafi, Xiaohong, Wang, Heba, Mitwalli, Abdullah, Alhussein, Abdulrahman A, Balhaddad, Mary Anne S, Melo, Thomas W, Oates, Jirun, Sun, H K, Xu, and Michael D, Weir

Subjects

Dental Materials, Methylamines, Mechanics of Materials, Biofilms, Dental Cements, Methacrylates, General Materials Science, Lactic Acid, General Dentistry, Anti-Bacterial Agents, Ethers, Resin Cements

Abstract

A low-shrinkage-stress resin-based cement with antibacterial properties could be beneficial to create a cement with lower stress at the tooth-restoration interface, which could help to enhance the longevity of the fixed dental restoration by reducing microleakage and recurrent caries. To date, there has been no report on the development of a low-shrinkage-stress and bio-interactive cement. Therefore, the objectives of this study were to develop a novel low-shrinkage-stress resin-based cement containing dimethylaminohexadecyl methacrylate (DMAHDM) and investigate the mechanical and antibacterial properties for the first time.The monomers urethane dimethacrylate (UDMA) and triethylene glycol divinylbenzyl ether (TEG-DVBE) were combined and denoted as UV resin. Three cements were fabricated: (1) UV+ 0%DMAHDM (experimental control); (2) UV+ 3%DMAHDM, (3) UV+ %5DMAHDM. RelyX Ultimate cement was used as commercial control. Mechanical properties and Streptococcus mutans (S. mutans) biofilms growth on cement were evaluated.The novel bio-interactive cement demonstrated excellent antibacterial and mechanical properties. Compared to commercial and experimental controls, adding DMAHDM into the UV cement significantly reduced colony forming unit (CFU) counts by approximately 7 orders of magnitude, metabolic activities from 0.29 ± 0.03 AThe new antibacterial low-shrinkage-stress resin-based cement provides strong antibacterial action and maintains excellent mechanical properties with reduced polymerization shrinkage stress.A low-shrinkage-stress resin-based cement containing DMAHDM was developed with potent antibacterial effects and promising mechanical properties. This cement may potentially enhance the longevity of fixed dental restoration such as a dental crown, inlay, onlay, and veneers through its excellent mechanical properties, low shrinkage stress, and strong antibacterial properties.

Published

2022

5. Stepwise stress testing of different CAD-CAM lithium disilicate veneer application methods applied to lithium disilicate substructures

Author

Alexandre Luiz Souto Borges, Anelyse Arata, S.A. Feitosa, Jaren T. May, Kim E. Diefenderfer, Nelson Batista de Lima, NB Cook, Indiana University School of Dentistry (IUSD), Nuclear and Energy Research Institute, and Universidade Estadual Paulista (UNESP)

Subjects

Dental Stress Analysis, Ceramics, Materials science, Surface Properties, medicine.medical_treatment, Porcelain Veneer, Dental Porcelain, Dental Materials, Fatigue resistance, Flexural strength, Materials Testing, Lithium disilicate, medicine, Computer-Aided Design, Principal stress, Veneer, Zirconium, Oral Surgery, Composite material, Application methods

Abstract

Made available in DSpace on 2022-04-29T08:45:35Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-01-01 Indiana University Delta Statement of problem: Whether a computer-aided design and computer-aided manufacture (CAD-CAM) fabricated high-translucency lithium disilicate veneer on a lithium disilicate substructure would increase the strength of the restoration compared with a traditional feldspathic porcelain veneer is unclear. Purpose: The purpose of this in vitro study was to evaluate the effect of different lithium disilicate veneer application methods on a lithium disilicate substructure on their biaxial flexural stress (BFS). Material and methods: Lithium disilicate disks were fabricated so that when combined with the veneering disks, they had a dimension of 12×1.2 mm. Experimental groups were as follows (n=15): resin-bonded lithium disilicate veneer, lithium disilicate veneer adhesively cemented to lithium disilicate; sintered lithium disilicate veneer, lithium disilicate veneer sintered to lithium disilicate; sintered feldspathic veneer, feldspathic porcelain applied to lithium disilicate; and monolithic lithium disilicate, the control group. Weibull distribution survival analysis was used to compare the differences in the resistance to fracture after fatigue. The total number of cycles was analyzed by using 1-way ANOVA (α=.05). A finite element analysis (FEA) was also performed. The maximum principal stress (MPS) was used as the failure criterion. Results: The sintered feldspathic veneer group had significantly lower fatigue resistance than sintered lithium disilicate veneer or resin-bonded lithium disilicate veneer (P

Published

2022

6. Friction and wear behavior of chairside CAD-CAM materials against different types of antagonists: An in vitro study

Author

Tugba Serin Kalay, Gencaga Purcek, and Beyza Zaim

Subjects

Ceramics, Materials science, Friction, Enamel paint, Surface Properties, Scanning electron microscope, Composite number, Dental Porcelain, Indentation hardness, Dental Materials, visual_art, Materials Testing, Vickers hardness test, visual_art.visual_art_medium, Surface roughness, Humans, Computer-Aided Design, Profilometer, Oral Surgery, Composite material, Tribometer

Abstract

Statement of problem Studies on the friction and wear behavior of recently introduced chairside computer-aided design and computer-aided manufacture (CAD-CAM) restorative materials are lacking. Purpose The purpose of this in vitro study was to evaluate the wear behavior of chairside CAD-CAM materials against different types of antagonists (human tooth enamel, composite resin, and feldspathic porcelain). Material and methods Specimens (14×14×2 mm) of different CAD-CAM materials (Brilliant Crios, Lava Ultimate, Vita Enamic, Vita Suprinity) were obtained by using a low-speed precision cutter (n=10). Wear tests were performed with a 20-N load, 2.5-mm/s sliding speed, 1-mm sliding distance, and 1500 cycles via a tribometer according to ASTM-G133. The coefficient of friction (CoF) of the material pairs was measured and recorded by using a special software program. Surface roughness (Ra), maximum wear depth, and mean maximum wear depth were measured with a profilometer, and values were analyzed by using 2-way ANOVA and the Bonferroni correction. Vickers hardness of CAD-CAM specimens was determined with a microhardness tester. Microhardness values were analyzed by using 1-way ANOVA and Tukey post hoc tests. Worn surfaces were observed by scanning electron microscopy and a 3D noncontact profilometer to determine the wear pattern and primary wear mechanisms. Results Significant differences were found in the interactions between CAD-CAM materials and different types of antagonists (P Conclusions Vita Suprinity exhibited superior wear resistance and Ra against all antagonists compared with other CAD-CAM materials. However, Vita Suprinity increased the destructive effects on antagonists. The safety of CAD-CAM materials is best determined when the wear behavior of materials and their effect on the antagonist are evaluated together.

Published

2022

7. Initial biocompatibility of novel resins for 3D printed fixed dental prostheses

Author

Sabina Noreen, Wuersching, Reinhard, Hickel, Daniel, Edelhoff, and Maximilian, Kollmuss

Subjects

Dental Materials, Crowns, Glutathione Disulfide, Interleukin-6, Mechanics of Materials, Materials Testing, Printing, Three-Dimensional, Computer-Aided Design, Humans, General Materials Science, Composite Resins, General Dentistry

Abstract

Several materials for 3D printing of fixed dental prostheses (FDP) have been recently introduced. This study aims to evaluate the initial biocompatibility of novel printable resins for manufacturing temporary and permanent FDP.Specimens of five printable resins (VarseoSmile Crown plus, NextDent CB MFH, VarseoSmile Temp, Temp PRINT, P Pro CrownBridge), two types of resins for subtractive manufacturing (Tetric CAD, Telio CAD) and two types of resins with conventional curing processes (Tetric EvoCeram, Protemp 4) were produced and finished. Post-processing was strictly performed according to the manufacturer's protocol. Biocompatibility was evaluated by eluting specimens with cell culture medium and treating human gingival fibroblast cells with the eluates. A 72-hour continuous read cell viability assay measuring the reducing potential of the cells was performed. The cellular inflammatory response in terms of IL-6 and PGETetric CAD and Telio CAD were slightly toxic. All other resins were moderately to severely cytotoxic. VarseoSmile Crown plus and P Pro CrownBridge significantly enhanced PGEFurther post-processing steps such as additional curing and washing may improve the biocompatibility of printable materials.

Published

2022

8. Human osteoblasts response to different dental implant abutment materials: An in-vitro study

Author

Muataz A. Osman, Rasha A. Alamoush, Evgeny Kushnerev, Kevin.G. Seymour, Susan Shawcross, and Julian M. Yates

Subjects

Dental implant materials, Dental Implants, Titanium, Osteoblasts, Polyether ether ketone, Cytotoxicity, Dental Abutments, Titanium nitride, Ketones, Polyethylene Glycols, Modified polyether ether ketone, Dental Materials, Tin, Mechanics of Materials, Materials Testing, Zirconia, Humans, General Materials Science, Zirconium, Titanium surface roughness Biocompatibility Human gingival fibroblasts Human gingival keratinocytes Cell proliferation Cytotoxicity, Human osteoblasts, General Dentistry, Cell proliferation, Cobalt chromium

Abstract

Objectives: This study aimed to investigate human osteoblasts (HOB) response towards different dental implant abutment materials. Methods: Five dental implant abutment materials were investigated: (1) titanium (Ti), (2) titanium coated nitride (TiN), (3) cobalt chromium (CoCr), (4) zirconia (ZrO₂), and (5) modified polyether ether ketone (m-PEEK). HOBs were cultured, expanded, and seeded according to the supplier's protocol (PromoCell, UK). Cell proliferation and cytotoxicity were evaluated at days 1, 3, 5, and 10 using Alamar Blue (alamarBlue) and lactate dehydrogenase (LDH) colorimetric assays. Data were analysed via two-way ANOVA, one-way ANOVA and Tukey's post hoc test (significance was determined as p < 0.05 for all tests). Results: All the investigated materials showed high and comparable initial proliferation activities apart from ZrO₂ (46.92%), with P% of 79.91%, 68.77%, 73.20%, and 65.46% for Ti, TiN, CoCr, and m-PEEK, respectively. At day 10, all materials exhibited comparable and lower P% than day 1 apart from TiN (70.90%) with P% of 30.22%, 40.64%, 37.27%, and 50.65% for Ti, CoCr, ZrO₂, and m-PEEK, respectively. The cytotoxic effect of the investigated materials was generally low throughout the whole experiment. At day 10, the cytotoxicity % was 7.63%, 0.21%, 13.30%, 5.32%, 8.60% for Ti, TiN, CoCr, ZrO₂, and m-PEEK. The Two-way ANOVA and Tukey's Multiple Comparison Method highlighted significant material and time effects on cell proliferation and cytotoxicity, and a significant interaction (p < 0.0001) between the tested materials. Notably, TiN and m-PEEK showed improved HOB proliferation activity and cytotoxic levels than the other investigated materials. In addition, a non-significant negative correlation between viability and cytotoxicity was found for all tested materials. Ti (p = 0.07), TiN (p = 0.28), CoCr (p = 0.15), ZrO₂ (p = 0.17), and m-PEEK (p = 0.12). Significance: All the investigated materials showed excellent biocompatibility properties with more promising results for the newly introduced TiN and m-PEEK as alternatives to the traditionally used dental implant and abutment materials.

Published

2022

9. Annual review of selected scientific literature: A report of the Committee on Scientific Investigation of the American Academy of Restorative Dentistry

Author

David R. Cagna, Terence E. Donovan, James R. McKee, Frederick Eichmiller, James E. Metz, Riccardo Marzola, Kevin G. Murphy, and Matthias Troeltzsch

Subjects

Dental Materials, COVID-19, Humans, Dental Caries, Oral Surgery, Dental Care, Prosthodontics, United States

Abstract

The Scientific Investigation Committee of the American Academy of Restorative Dentistry offers this review of the 2021 dental literature in restorative dentistry to inform busy dentists regarding noteworthy scientific and clinical progress over the past year. Each member of the committee brings discipline-specific expertise to coverage of this broad topical area. Specific subject areas addressed, in order of the appearance in this report, include COVID-19 and the dental profession (new); prosthodontics; periodontics, alveolar bone, and peri-implant tissues; implant dentistry; dental materials and therapeutics; occlusion and temporomandibular disorders; sleep-related breathing disorders; oral medicine and oral and maxillofacial surgery; and dental caries and cariology. The authors focused their efforts on reporting information likely to influence daily dental treatment decisions with an emphasis on future trends in dentistry. With the tremendous volume of dentistry and related literature being published daily, this review cannot possibly be comprehensive. Rather, its purpose is to update interested readers and provide important resource material for those interested in pursuing greater details on their own. It remains our intent to assist colleagues in negotiating the extensive volume of important information being published annually. It is our hope that readers find this work useful in successfully managing the patients and dental problems they encounter.

Published

2022

10. Rinsing postprocessing procedure of a 3D-printed orthodontic appliance material: Impact of alternative post-rinsing solutions on the roughness, flexural strength and cytotoxicity

Author

Anna-Lena, Lambart, Alexander B, Xepapadeas, Bernd, Koos, Ping, Li, and Sebastian, Spintzyk

Subjects

2-Propanol, Dental Materials, Orthodontic Appliances, Polymers, Surface Properties, Mechanics of Materials, Flexural Strength, Materials Testing, Printing, Three-Dimensional, General Materials Science, General Dentistry

Abstract

The present study evaluated the effect of different rinsing postprocessing solutions on surface characteristics, flexural strength, and cytotoxicity of an additive manufactured polymer for orthodontic appliances. These solutions have been deemed an alternative to the standard isopropanol which is a flammable liquid, known to have toxic effects.Tested specimens were manufactured using direct light processing of an orthodontic appliance polymer (FREEPRINT® splint 2.0, Detax) and post-processed with different post-rinsing solutions, including isopropanol (IPA), ethanol (EtOH), EASY 3D Cleaner (EYC), Yellow Magic7 (YM7), and RESINAWAY (RAY), respectively. All groups were post-cured following the manufacturer's instructions. Surface topography and roughness (Ra and Rv) were evaluated. In addition, flexural strength was measured by a three-point bending test. An extract test was performed to evaluate cytotoxicity. The data were analyzed by the Kruskal-Wallis test with Dunn's multiple comparisons test (p 0.05).Various post-rinsing solutions did not significantly affect the roughness values (Ra and Rv). Specimens post-processed with EtOH (98.1 ± 12.4 MPa) and EYC (101.1 ± 6.3 MPa) exhibited significantly lower flexural strength compared to the groups of IPA (110.7 ± 5.3 MPa), RAY (112.1 ± 5.6 MPa) and YM7 (117.3 ± 5.9 MPa), respectively. Finally, there were no cytotoxic effects of parts cleaned with different post-rinsing solutions.Considering the use of 3D-printed orthodontic appliance materials, different rinsing postprocessing procedures did not affect surface characteristics. However, the flexural strength was significantly influenced, which could be attributed to the chemical ingredients of the post-rinsing solutions. Various post-rinsing treatments had no alternation concerning cytocompatibility.

Published

2022

11. Physical characterization of 3 implant systems made of distinct materials with distinct surfaces

Author

Serge Szmukler-Moncler, Ariel J. Raigrodski, and Joao Pimenta

Subjects

Materials science, Surface Properties, Scanning electron microscope, Alloy, chemistry.chemical_element, Surface finish, engineering.material, Abrasion (geology), Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Etching (microfabrication), Materials Testing, Alloys, Aluminum Oxide, Surface roughness, Composite material, Dental Implants, Titanium, 030206 dentistry, Secondary ion mass spectrometry, chemistry, Microscopy, Electron, Scanning, engineering, Oral Surgery

Abstract

Statement of problem Dental implants undergo various surface treatments. Studies that have characterized their surface and subsurface by using the same methods are scarce. Purpose The purpose of this study is to physically characterize the surface and subsurface of implant systems made of commercially pure (cp) titanium (Ti) grade (gr) 4 and Ti alloy gr 23 and to evaluate whether airborne-particle abrasion and acid etching is an appropriate surface treatment for Ti alloy gr 23. Material and methods Implant groups (n=3) were as follows: TG4AO, cp Ti gr 4, treated with anodic oxidation (3.5×8 mm) (NobelReplace Conical; Nobel Biocare); TG23AE, Ti gr 23 (TiAlV ELI) airborne-particle abraded-and-etched (3.9×8 mm) (V3; MIS); and TG4AE, cp Ti gr 4, airborne-particle abraded and etched (3.3×8 mm) (BL; Institut Straumann AG). Surface roughness, surface topography, and elemental and surface composition were investigated with optical profilometry, scanning electron microscopy, energy dispersive X-ray spectroscopy, and X-ray diffraction. The presence and size of Ti hydride (TiH) needles were determined on metallographic sections. Depth profiling was obtained by time-of-flight secondary ion mass spectrometry (ToF-SIMS) to determine possible enrichment of an alloying element at the implant surface. Results The mean arithmetic deviation roughness (Sa), of TG4AO was 0.80 μm. The Sa of TG4AO was 1.22 μm, and the Sa of TG4AO was 1.59 μm. The difference between the groups was significant (P Conclusions The roughness, topography, and composition of the surfaces were different for all implants tested. Airborne-particle abrasion and subsequent etching was an appropriate treatment for Ti gr 23 alloy implants.

Published

2022

12. Effect of hydrothermal and mechanical aging on the fatigue performance of high-translucency zirconias

Author

Pedro Henrique Condé Oliveira Prado, Kiara Serafini Dapieve, Tiago Moreira Bastos Campos, Luiz Felipe Valandro, and Renata Marques de Melo

Subjects

Ceramics, Dental Materials, Surface Properties, Mechanics of Materials, Materials Testing, Yttrium, General Materials Science, Stress, Mechanical, Zirconium, General Dentistry

Abstract

This study aimed to evaluate the impact of mechanical fatigue cycling using the step-stress approach along with hydrothermaldegradation (134 ºC with a constant pressure of 2 bars for 20 h), and a novel intercalated hydrothermal/fatigue aging protocol on different aspects of the aging resistance of three generations of dental zirconias."Y"Z T (VITA), INCORIS "T"ZI (Dentsply Sirona) and "K"ATANA UTML (Noritake Kuraray) - 1st, 2nd and 3rd generation, respectively-, zirconia disks (N = 153), were divided into 6 groups (n = 3) for monotonic testing and 9 groups (n = 15) for mechanical fatigue testing, according to 3 proposed treatments for each zirconia: CF (control - only mechanical fatigue cycling); AF (aging in hydrothermal reactor at 134 °C for 20 h + mechanical fatigue cycling); AFA (Alternating protocol: 4 steps of 5 h of hydrothermal aging intercalated with mechanical fatigue cycling). Mechanical fatigue aging was performed according to the step-stress approach through biaxial flexural setup (piston-on-3-balls, initial strength: 100 MPa, step: 50 MPa/10,000, frequency: 20 Hz) until failure. Data were analyzed using Kaplan-Meier and Mantel-Cox test (α = 0.05), in addition to Weibull analysis. Fractured disks were analyzed in stereomicroscope, Scanning Electron Microscopy and X-Ray Diffraction.Continuous hydrothermal and mechanical fatigue cycling decreased the fatigue strength of YAF group (516 ± 38 MPa), while the alternating protocol increased it (730 ± 58 MPa). KATANA UTML showed no differences for both treatments and did not undergo t-m phase transformation. The TAF group showed the highest fatigue strength (810 ± 76 MPa) and cycles for failure (147,000.00 cycles). The fracture origin for all specimens was on the tensile side in pre-existing defects.INCORIS TZI zirconia had higher fatigue strength and survival rates after hydrothermal and mechanical fatigue aging. Although less resistant, KATANA UTML did not suffer chemical degradation.

Published

2022

13. Clinical outcomes of veneered zirconia anterior partial fixed dental prostheses: A 12-year prospective clinical trial

Author

Raquel Leon-Martine, María Fernanda Solá-Ruíz, Rubén Agustín-Panadero, Eduardo Selva-Otalaorrouchi, and Carlos Labaig-Rueda

Subjects

Periapical pathology, Dentistry, Dental Caries, Esthetics, Dental, Anterior region, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Periodontal disease, Humans, Medicine, Dental Restoration Failure, Prospective Studies, Survival rate, Biological Products, business.industry, Dental prosthesis, Clinical performance, 030206 dentistry, Dental Porcelain, Clinical trial, Dental Veneers, Denture, Partial, Fixed, Zirconium, Oral Surgery, Complication, business

Abstract

Statement of problem Anterior veneered zirconia partial fixed dental prostheses (FDPs) have substituted for metal-ceramic to improve esthetics and biocompatibility. However, the material is susceptible to aging or hydrothermal degradation and to chipping of the feldspathic veneer. Whether these susceptibilities limit the clinical performance of anterior veneered zirconia FPDs is unclear. Purpose The purpose of this prospective clinical study was to analyze the mechanical and biologic behavior of zirconia partial FDPs in the anterior region over a 12-year follow-up period. Material and methods Twenty-seven 3- to 6-unit FDPs fabricated from zirconia veneered with feldspathic porcelain were placed in the anterior region and examined clinically at 1 month, 6 months, and then annually for 12 years, recording mechanical and biologic outcomes. Raw complication rates and time-to-event Kaplan-Meier analysis was conducted and compared as per the partial fixed dental prosthesis type. Results Five FDPs had biologic complications (3 with secondary caries, 1 with periapical pathology, 1 with periodontal disease) and 9 had mechanical complications (7 with chipping and 2 with decementation). Chipping was the most prevalent complication and increasingly found with longer-span fixed partial prostheses (P=.007). Five FDPs had to be replaced because of complete failure, the most frequent cause of failure being secondary caries (P=.003). The mean survival rate (no failures) was 11 years 4 months (95% confidence interval, 10.3-12.7). Conclusions Zirconia FDPs had an 81.5% survival rate over 12 years. A higher incidence of complications took place during the first 3 years, the most common being chipping.

Published

2022

14. Edge chipping of translucent zirconia

Author

Maharaj Singh, Geoffrey A. Thompson, David W. Berzins, and Joseph D. Flask

Subjects

Ceramics, Universal testing machine, Toughness, Materials science, Surface Properties, Diamond, 030206 dentistry, Esthetics, Dental, Edge (geometry), engineering.material, Dental Materials, 03 medical and health sciences, Tetragonal crystal system, 0302 clinical medicine, Phase (matter), Phase composition, Materials Testing, engineering, Cubic zirconia, Zirconium, Oral Surgery, Composite material

Abstract

More translucent dental zirconias have been developed by incorporating the cubic phase and reducing the tetragonal phase content that undergoes transformation toughening, leading to reduced mechanical properties. Whether the clinically relevant mechanical property of the edge chipping toughness of the material is also reduced is unclear.The purpose of this in vitro study was to evaluate the edge chipping toughness and translucency of translucent zirconia, 3mol% yttria-stabilized tetragonal zirconia polycrystal (3Y-TZP), and lithium disilicate.Two translucent zirconia products, Katana and Lava Esthetic; one 3Y-TZP, Lava Plus; and one lithium disilicate, IPS e.max Press were prepared and tested for phase composition via X-ray diffraction (XRD) (n=3), translucency via a spectrophotometer (n=20), and edge chipping via a universal testing machine with a custom-machined specimen holder and diamond indenter (n=20). The 3Y-TZP and lithium disilicate served as the optimal control materials for edge chipping and translucency, respectively. Translucency was compared with 1-way ANOVA and edge toughness with ANCOVA (α=.05).The XRD showed the 3Y-TZP to be almost completely tetragonal phase compared with the 2 translucent zirconia products that were predominantly cubic. Katana UTML and IPS e.max Press had a statistically similar (P.05) translucency that was significantly (P.05) greater than that of Lava Esthetic and Lava Plus. The edge toughness of Katana UTML was 304 N/mm, IPS e.max Press was 354 N/mm, Lava Esthetic was 394 N/mm, and Lava Plus was 717 N/mm, with significance rankings of Katana UTMIPS e.max Press=Lava EstheticLava Plus.Some translucent zirconias had translucency similar to that of lithium disilicate; however, as translucency increased with increased cubic content, edge toughness decreased.

Published

2022

15. Fabrication of a facially generated tooth reduction guide for minimally invasive preparations: A dental technique

Author

Lucas Q. Caponi, Fady Raslan, and Miguel Roig

Subjects

Orthodontics, Computer science, medicine.medical_treatment, 030206 dentistry, Dental Occlusion, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Dental Prosthesis Design, Diagnostic analysis, Occlusal plane, Restorative material, medicine, Computer-Aided Design, Prospective Studies, Oral Surgery, Tooth position, Reduction (orthopedic surgery), Functional rehabilitation

Abstract

This article describes a 3D virtual diagnostic analysis for treatment planning an esthetically driven functional rehabilitation by using computer-aided design and computer-aided manufacturing (CAD-CAM) technology. In this protocol, a digitally planned diagnostic waxing (exocad DentalCAD) was used to visualize the proposed tooth position and the presence of areas without sufficient material thickness for the prospective additive restorations. This approach uses an additively manufactured clear resin guide to selectively reduce surfaces of a tooth erupted beyond the proposed occlusal plane. By using a 3D-printed occlusal reduction guide, the digital diagnostic waxing is accurately represented, tooth reduction controlled, and adequate occlusal clearance for the required restorative material thickness provided with a minimally invasive approach.

Published

2022

16. Influence of thermal and thermomechanical stimuli on a molar tooth treated with resin-based restorative dental composites

Author

Jerrin, Thadathil Varghese, Behzad, Babaei, Paul, Farrar, Leon, Prentice, and B Gangadhara, Prusty

Subjects

Dental Stress Analysis, Dental Materials, Mechanics of Materials, Finite Element Analysis, General Materials Science, Stress, Mechanical, Dental Restoration, Permanent, Composite Resins, Molar, General Dentistry

Abstract

In-vivo experimental techniques to understand the biomechanical behavior of a restored tooth, under varying oral conditions, is very limited because of the invasive nature of the study and complex tooth geometry structure. Therefore, 3D-Finite element analyses are used to understand the behavior of a restored tooth under varying oral conditions. In this study, the distribution of maximum principal stress (MaxPS) and the location of MaxPS on a restored tooth using six different commercially available dental resin composites under the influence of thermal and thermomechanical stimuli are performed.An intact tooth was scanned using µ-CT and segmented to obtain separate geometric models of the tooth, including enamel and dentine. Then, a class II mesial-occlusal-distal (MOD) cavity was constructed for the tooth model. The restored tooth model was further meshed and imported to the commercial Finite Element (FE) software ANSYS. Thermal hot and cold stimuli at 50 °C and 2 °C, respectively, were applied on the occlusal and lingual surface of the tooth model with the tooth's ambient temperature set at 37 °C. A uniform loading of 400 N was applied on the occlusal surface of the tooth to imitate the masticatory forces during the cyclic thermal stimuli.The results of this study showed that the restorative materials with higher thermal conductivity showed a lower temperature gradient between the restoration and enamel, during the application of thermal stimuli, leading to a higher value of MaxPS on the restoration. Moreover, on applying thermal stimuli, the location of MaxPS at the restoration-enamel junction (REJ) changes based on the value of the coefficient of thermal expansion (CTE). The MaxPS distribution on the application of simultaneous thermal and mechanical stimuli was not only dependent on the elastic modulus of restorative materials but also their thermal properties such as the CTE and thermal conductivity. The weakest part of the restoration was at the REJ, as it experienced the peak stress level during the application of thermomechanical stimuli.The findings from this study suggest that restorative materials with lower values of elastic modulus, lower coefficient of thermal expansion and higher values of thermal conductivity result in lower stresses on the restoration. The outcomes from this study also suggest that the thermal and mechanical properties of a restorative material can have a considerable effect on the selection of restorative materials by dental clinicians over conventional restorative materials.

Published

2022

17. Characterization of universal chromatic resin-based composites in terms of cell toxicity and viscoelastic behavior

Author

Ilie, N., Ionescu, A.C., and Diegelmann, J.

Subjects

Resin-based composites, Microscopy, Surface Properties, Electron, Composite Resins, Structural color, Dynamic-mechanical analysis, Cell toxicity, Dental Materials, Universal chromatic materials, Settore MED/28 - Malattie Odontostomatologiche, Hardness, Mechanics of Materials, Materials Testing, Dental, Humans, Microscopy, Electron, Scanning, Scanning, General Materials Science, General Dentistry

Abstract

A current trend to simplify dental restorative procedures is toward using universal chromatic light-cured resin-based composites (RBCs) designed to adapt esthetically to various clinical situations. This study offers a comparative characterization of the mechanical and cytotoxic behavior of such materials that use different techniques to adjust their optical properties (e.g., structural color instead of pigment addition), have different filler systems but are based on a comparable organic matrix.The structural appearance of the filler systems was assessed by scanning electron microscopy. Various quasi-static and viscoelastic parameters were evaluated at clinically relevant frequencies (0.5-5 Hz) using an instrumented indentation test with a Dynamic Mechanical Analysis (DMA) module. Cytotoxicity on human gingival fibroblasts (HGF-1), when exposed to eluates from tested RBCs specimens (up to one month), was assessed using a WST-1 colorimetric proliferation assay. Multifactor analysis of variance was applied to compare the parameters of interest (Martens, Vickers, and indentation hardness; elastic and total indentation work; creep, indentation depth; storage, loss, and indentation moduli; loss factor; cell viability) between analyzed RBCs, loading frequencies, and eluate age.Structural particularities of the filler systems are directly reflected in the mechanical behavior of the analyzed materials. Changes in the filler system, necessary to achieve structural color, generally resulted in lower mechanical properties but a better ability to absorb shock. In contrast, the cytotoxicity was comparable.Based on the performed characterization, universal chromatic RBCs fits in the conventional RBCs class to expect comparable clinical behavior.

Published

2022

18. Highly-filled flowable composite in deep margin elevation: FEA study obtained from a microCT real model

Author

Andrea Baldi, Alessandro Scattina, Giorgio Ferrero, Allegra Comba, Mario Alovisi, Damiano Pasqualini, Lorenzo Peroni, Matteo Muggeo, Filippo Germanetti, and Nicola Scotti

Subjects

Micro-CT, Finite elements, Deep margin elevation, Highly-filled flowable composites, Interfaces, X-Ray Microtomography, Composite Resins, Dental Materials, Mechanics of Materials, Materials Testing, General Materials Science, Dental Cavity Preparation, Dental Restoration, Permanent, General Dentistry

Abstract

To evaluate shear stress (SS) and normal pressure (NP) at the tooth-restoration interface of highly-filled flowable resin composite applied to deep margin elevation technique through FEM analysis generated by a microCT scan.A reference maxillary molar with two class II cavities was prepared according to deep margin elevation protocol. A geometrical model was segmented from a micro-CT scan generating separate volumes of enamel, dentin and restorative materials. The 3D Finite Element (FE) model was subsequently built-up and an axial chewing load was simulated. Data concerning the tooth-restoration interface were analyzed in terms of SS and NP. Different materials and techniques were tested in order to evaluate the effects of the restorative material, the usage of a highly-filled flowable composite as liner and the substrate of the cervical area.Both SS and NP presented similar distribution, but showed significant differences between tested materials. Composites showed more homogeneous behavior in stress distribution compared to ceramic. The use of a highly-filled flowable composite as liner on the cervical margin significantly reduced SS and NP on the cavity floor and the cervical margin area. Lastly, stress distribution in the cavity floor area varied according to the cervical margin substrate: enamel showed a protective role in stress distribution.Highly-filled flowable resin composites showed encouraging results when applied to deep margin elevation from an interfacial mechanical point of view. Further studies are needed to validate these data and to better define the role of cervical enamel in stress distribution.

Published

2022

19. In vitro assessment of PEEK and titanium implant abutments: Screw loosening and microleakage evaluations under dynamic mechanical testing

Author

Miguel Roig Cayón, Josep Cabratosa-Termes, Jordi Ortega-Martínez, Jordi Cano-Batalla, Miquel Punset, Monica Ortiz-Hernandez, Luis Delgado, Universitat Politècnica de Catalunya. Departament de Ciència i Enginyeria de Materials, Universitat Politècnica de Catalunya. BBT - Biomaterials, Biomecànica i Enginyeria de Teixits, and Universitat Internacional de Catalunya

Subjects

Dental Stress Analysis, Materials science, Dental materials, Polymers, Dental implant, medicine.medical_treatment, Bone Screws, Materials dentals, Abutment, Dentistry, chemistry.chemical_element, Dental Abutments, Esthetics, Dental, Benzophenones, 03 medical and health sciences, 0302 clinical medicine, PEEK, Materials Testing, Stereo microscope, medicine, Peek, Humans, Dental Restoration Failure, Dental Implants, Titanium, business.industry, Screw loosening, Titanium alloy, Dental Implant-Abutment Design, 030206 dentistry, Enginyeria biomèdica::Biomaterials::Materials dentals [Àrees temàtiques de la UPC], Dynamic mechanical testing, chemistry, Microleakage, Mechanical Tests, ISO 14801, Zirconium, Implant, Oral Surgery, business

Abstract

Statement of problem. Polyetheretherketone (PEEK) has been advocated to replace metal components in dentistry. Although PEEK is a high-performance polymer with a white color, adequate biological response, and resistance to fracture, data to support PEEK as an alternative material for implant abutments are lacking. Purpose. The purpose of this in vitro study was to assess the mechanical and functional properties of PEEK implant abutments as a nonmetallic alternative to titanium abutments, which presents esthetic limitations and greater difficulty to customize clinically. Material and methods. Implant abutments manufactured by using PEEK (n=24) or titanium grade 5 (n=24) were attached to MIS Implants type M4 3.75×16 mm with an internal screw tightened to 25 Ncm. Screw loosening and microleakage was assessed by submersion in a 2% methylene blue solution for 48 hours at 37 C. Both groups were compared with and without applying dynamic loading; fatigue testing was performed following the International Organization for Standardization (ISO) 14801:2016 standard. All specimens were observed under a stereomicroscope at ×8 magnification. Statistically significant differences among the PEEK and titanium implant abutments were tested with 2-factor ANOVA and the chi-square analysis for nonpaired and paired data, respectively (a=.05). Results. The implant abutments made of titanium were better in all mechanical tests. The torque loss of titanium abutments was approximately 10%, while PEEK showed a significantly higher (P

Published

2022

20. Wear behavior of silica-infiltrated monolithic zirconia: Effects on the mechanical properties and surface characterization

Author

Tiago Moreira Bastos Campos, Renata Marques de Melo, Camila da Silva Rodrigues, Gabriela Freitas Ramos, Larissa Marcia Martins Alves, Universidade Estadual Paulista (UNESP), and Aeronautics Technological Institute (ITA)

Subjects

Ceramics, Materials science, Dental materials, Scanning electron microscope, Process Chemistry and Technology, Glaze, Polishing, Surface finish, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Glazing, Flexural strength, Dental restoration wear, Materials Chemistry, Ceramics and Composites, Cubic zirconia, Composite material, Surface finishing

Abstract

Made available in DSpace on 2022-04-28T19:48:47Z (GMT). No. of bitstreams: 0 Previous issue date: 2022-03-01 Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) The objective of this study was to assess the wear behavior and its effects on the flexural strength of silica-infiltrated zirconia compared to glaze and polishing finishing treatments. To do so, disc-shaped samples of a second-generation zirconia were prepared and divided into three groups: silica infiltration, glazing, or polishing. Half of the samples of each finishing were subjected to sliding wear testing using a steatite antagonist. The discs and antagonists had their volume loss measured. The wear-tested and the other half of samples were subjected to biaxial flexural strength testing and the following characterization analyses were also performed: roughness, hardness, X-ray diffraction, profilometry, and scanning electron microscopy (SEM). Data were evaluated with ANOVA and Weibull analyses. Glazing caused greater antagonist volume loss, followed by silica infiltration, and polishing. Silica-infiltrated zirconia surface was similarly worn to polished, which was lower than that for glazed zirconia. Polished zirconia presented the highest flexural strength. However,the strength decreased and became similar in all worn groups. Silica infiltration showed slightly lower characteristic strength after sliding wear. The highest roughness and hardness values were observed on glazed zirconia. These values decreased after wear testing and became similar to the other groups. SEM evidenced an irregular surface for glazing. No phase transformation occurred after sliding wear. Despite producing some volume loss on zirconia and antagonist surfaces, silica infiltration is a promising alternative for finishing monolithic restorations. Moreover, the damage caused by sliding wear leads to decreasing the strength of zirconia regardless of the surface finishing. Department of Dental Materials and Prosthodontics São Paulo State University (Unesp) Institute of Science and Technology, Av. Eng. Francisco José Longo, 777, Jardim São Dimas, SP Department of Physics Aeronautics Technological Institute (ITA), Praça Marechal Eduardo Gomes, 50, SP Department of Dental Materials and Prosthodontics São Paulo State University (Unesp) Institute of Science and Technology, Av. Eng. Francisco José Longo, 777, Jardim São Dimas, SP FAPESP: 2015/11405-7 FAPESP: 2016/07920-6 FAPESP: 2017/20633-9 FAPESP: 2018/22627-9 CNPq: 408932/2016-3

Published

2022

21. Effect of materials on axial displacement and internal discrepancy of cement-retained implant-supported prostheses

Author

Chan-Jin Park, Kyung-Ho Ko, Lee-Ra Cho, and Yoon-Hyuk Huh

Subjects

Materials science, medicine.medical_treatment, Abutment, Dental Cements, Polymethylmethacrylate resin, chemistry.chemical_element, Dental Abutments, Prosthesis, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Axial displacement, medicine, Dental Implants, Cement retained, technology, industry, and agriculture, 030206 dentistry, Dental Prosthesis Design, chemistry, Computer-Aided Design, Chromium Alloys, Dental Prosthesis, Implant-Supported, Zirconium, Implant, Oral Surgery, Implant supported, Biomedical engineering, Titanium

Abstract

Statement of problem How axial displacement may be affected by the mechanical properties and internal discrepancy of a cement-retained implant-supported prosthesis is unclear. Purpose The purpose of this in vitro study was to assess the difference in internal discrepancy and axial displacement according to the prosthesis material in cement-retained prostheses splinting nonparallel implants. Material and methods Computer-aided design and computer-aided manufacture (CAD-CAM) titanium abutments were fabricated for a vertically placed implant and a 15-degree tilted implant. Three types of prostheses, in zirconia, cobalt-chromium (Co-Cr) alloy, and polymethylmethacrylate resin (PMMA), were fabricated (n=10). The internal discrepancy between the CAD-CAM titanium abutment and the prosthesis was measured by using the replica technique. After luting with an interim cement, they were mounted in Type IV gypsum. The specimens were cyclic loaded, and axial displacement of the prosthesis was measured after 3, 10, 100, and 106 cycles. The internal discrepancy and cumulative axial displacement were assessed by using a 3-way analysis of variance and repeated measures analysis of variance (α=.05). Results The internal discrepancy of the prosthesis did not differ based on the prosthesis material (P=.869); however, it was significantly different based on the measurement location, with the occlusal discrepancy (224 ±29 μm) being greater than the axial discrepancy (21 ±10 μm) (P Conclusions Prostheses made with high-elastic moduli materials exhibited less axial displacement than PMMA prostheses, even though the internal discrepancy was not different. Moreover, vertically placed implants presented a greater axial displacement of the prosthesis than implants with angled placement.

Published

2022

22. Direct and indirect eluates from bulk fill resin-based-composites

Author

Jürgen Durner, Klaus Schrickel, David C. Watts, Marc Becker, and Miriam E. Draenert

Subjects

Dental Materials, Mechanics of Materials, Materials Testing, Humans, Methacrylates, General Materials Science, Composite Resins, General Dentistry

Abstract

Objectives. To compare elutable substances directly released from bulk-fill (BF) resin-based composites (RBCs) with indirect elution from teeth restored with a BF composite. In addition to (co)monomers, the analytical focus was on other potentially toxic ingredients or impurities. Furthermore, the barrier function of the residual dentin/adhesive layer was studied.Methods. Six BF-RBC materials were studied. For each material subgroup, ten human third molar teeth with standard Class-I occlusal cavities were prepared and provided with a three-step adhesive system and the respective composite restoration (tooth groups). Same sized control specimens of the restorativematerial were prepared (‘direct BF-RBC’ groups). Each specimen was placed in an elution chamber such that the elution media (ethanol/water, 3:1) only contacted the tooth root or ¾ height of each specimen. They were incubated at 37 °C for up to 7 d. Samples of eluate were taken after 1, 2, 4 and 7 d and were analysed by high-temperature gas chromatography/mass spectrometry.Results. (Co)monomers such as Bisphenol A ethoxylate dimethacrylate (bisEMA) or tetraethylene glycol dimethacrylate (TEEGDMA) were mostly found in the eluates of the ‘direct BF-RBC’ groups in statistically significantly greater amounts than in the eluates of the ‘tooth groups’. The residual dentin and/or adhesive layers acted as a diffusion barrier for most of the substances except for triethylene glycol dimethacrylate (TEGDMA) or diethylene glycol dimethacrylate (DEGDMA). For TEGDMA up to 3 orders of magnitude more were found in the ‘tooth groups’ compared to the ‘direct BF-RBC’ groups, evidently released by the adhesive system.Substances of Very High Concern (SVHC) including TINUVIN® 328 and BPA were found mainly in the eluates of ‘direct BF-RBC’ groups.Significance. For estimation of biocompatibility, a total system, specifically BF-RBC + adhesive, should always be investigated since individual considerations, such as only elution from a BF-RBC, do not correctly reflect the total clinical situation. The focus of elution tests should not only be on the co(monomers), but also on other ingredients or impurities that may be released.

Published

2022

23. Comparison of physical and biological properties of a flowable fiber reinforced and bulk filling composites

Author

Nina Attik, Pierre Colon, Rémy Gauthier, Charlène Chevalier, Brigitte Grosgogeat, and Hazem Abouelleil

Subjects

Dental Materials, Hardness, Surface Properties, Mechanics of Materials, Materials Testing, Humans, General Materials Science, Composite Resins, General Dentistry, Polymerization

Abstract

To evaluate in vitro the mechanical, biological, and polymerization behavior of a flowable bulk-fill composite with fibers as a dispersed phase.EverX Flow™ (GC Corporation) (EXF), one conventional bulk-fill composite (Filtek™ Bulk Fill Posterior Restorative, 3 M (FBF)), and one flowable bulk composite without fibers (SDR® flow+, Dentsply (SDR)) were tested. Samples were characterized in terms of flexural strength (ISO 4049), fracture toughness (ISO 20795-1), and Vickers hardness. Polymerization stress and volumetric shrinkage were evaluated. The in vitro biological assessment was achieved on cultured primary Human Gingival Fibroblast cells (HGF). The cell metabolic activity was evaluated using Alamar Blue assay at 1, 3, and 5 days of contact to the 3 tested composite extracts (ISO 10993) and cell morphology was evaluated by confocal microscopy. Data were submitted to One-Way analysis of variance (ANOVA) and independent t-test (α = 0.05).FBF showed statistically higher Vickers hardness and flexural modulus than EXF and SDR. However, EXF showed statistically higher KEXF had a significantly higher fracture toughness validating its potential use as a restorative material in stress bearing areas. EXF showed higher shrinkage stress values, and less cytotoxic effect. Fiber reinforced flowable composite is mainly indicated for deep and large cavities, signifying the importance for assessing its shrinkage stress and biological behavior.

Published

2022

24. Effects of milling method and artificial ageing on optical properties of high translucent zirconia for chairside restorations

Author

Kosmas Tolidis and Petros Mourouzis

Subjects

Ceramics, Materials science, Surface Properties, digestive, oral, and skin physiology, technology, industry, and agriculture, Sintering, Dental Materials, Distilled water, Mechanics of Materials, Ageing, Phase (matter), visual_art, Materials Testing, visual_art.visual_art_medium, Computer-Aided Design, General Materials Science, Cubic zirconia, Zirconium, Ceramic, Composite material, Saturation (chemistry), General Dentistry, Yttria-stabilized zirconia

Abstract

Objectives This study aimed to evaluate the optical properties of highly translucent 5 mol% yttria, partially stabilised monolithic zirconia, and 3 mol% yttria-stabilised tetragonal zirconia after their subjection to different milling methods and artificial ageing. Methods Two types of pre-shaded zirconia materials were used: inCoris TZI C and Katana STML. A total of 120 specimens were categorised according to the milling method (dry or wet-milling) and the solution used for milling (fresh distilled water or impregnated water with residues of CAD/CAM ceramic materials). The translucency and contrast ratios of all specimens were calculated after they were subjected to sintering and accelerated ageing. The material phase composition was tested before and after ageing, using X-ray diffraction analysis to evaluate T-M phase transformation. Data were statistically analysed via a three-way analysis of variance between the subject factors, the material and milling method, and the within-subject factor, ageing. The analysis of covariance model was used to analyse the changes in translucency and contrast ratio between baseline and ageing, with statistical significance set at p Results Katana STML and inCoris TZI C showed the highest translucency when dry-milled (21.9 ± 1.4, and 11.8 ± 0.7, respectively), and the lowest when milled with used impregnated water (5.4 ± 1.2 and 10.7 ± 1.3, respectively). Wet-milling using impregnated water, should be avoided owing to the saturation of alumina particles. Accelerated ageing resulted in the same pattern for both materials. Significance Dry milling of highly translucent zirconia can result in higher translucency and lower contrast ratio values.

Published

2022

25. Efficient prediction of the packing density of inorganic fillers in dental resin composites for excellent properties

Author

Hao Niu, Tianyu Gao, Dan-Lei Yang, and Jie-Xin Wang

Subjects

Filler (packaging), Materials science, Surface Properties, Composite number, Composite Resins, Polymerization, Dental Materials, Sphere packing, Volume (thermodynamics), Mechanics of Materials, Materials Testing, Volume fraction, General Materials Science, Particle Size, Composite material, Reduction (mathematics), Ternary operation, General Dentistry, Shrinkage

Abstract

Objective The purpose of this study is to develop a mathematical model for efficient prediction of the packing density of different filler formulations in dental resin composites (DRCs), and to study properties of DRCs at the maximum filler loading (MFL), thereby providing an effective guidance for the design of filler formulations in DRCs to obtain excellent properties. Methods The packing density data generated by discrete element model (DEM) simulation were used to re-derive the parameters of 3-parameter model. The modifier effect was also induced to modify the 3-parameter model. DRCs with 10 filler formulations were selected to test properties at the MFL. The packing densities of binary and ternary mixes in DRCs were calculated by 3-parameter model to explore the regularity of composite packing. Results The predicted packing density was validated by simulation and experimental results, and the prediction error is within 1.40 vol%. The optimization of filler compositions to obtain a higher packing density is beneficial to enhancing the mechanical properties and reducing the polymerization shrinkage of DRCs. In binary mixes, the maximum packing density occurs when the volume fraction of small fillers is 0.35−0.45, and becomes higher with the reduction of particle size ratio. In ternary mixes, the packing density can reach the maximum value when the volume fractions of large and small fillers are in the 0.5−0.75 and 0.15−0.4 ranges, respectively. Significance The modified 3-parameter model can provide an effective method to design the multi-level filler formulations of DRCs, thereby improving the performance of the materials.

Published

2021

26. Changes in color and contrast ratio of resin composites after curing and storage in water

Author

Fernando Neves Nogueira, Vitor de Oliveira Baldo, Igor Studart Medeiros, and Marlus da Silva Pedrosa

Subjects

Materials science, Dental materials, Resin composite, CIELAB, Conservative dentistry, Tooth surface, RK1-715, Reflectivity, Clinical Practice, medicine.anatomical_structure, Color changes, Dentistry, Resin composites, Dentin, medicine, Medicine, Original Article, Contrast ratio, Composite material, General Dentistry, Curing (chemistry)

Abstract

Purpose: To verify the color change and contrast ratio of resin composites after curing and after 30 days of storage in water. Methods: Dentin A2 shades of different light-cured dental resin composites (Vittra APS, FGM, Brazil; Z350 XT, 3M ESPE, EUA; Tetric N-Ceram, Ivoclar Vivadent, Liechtenstein, and Charisma Diamond, Heraeus Kulzer, Germany) were tested. Ten rounded specimens (8 mm × 2 mm) were prepared for each material. Reflectance for all samples was obtained using a spectrophotometer (Minolta CM 3700d, Konica Minolta, Japan) before curing, immediately after curing, and after 30 days of storage in water. The color change (ΔE*lab) and contrast ratio (CR) data were analyzed using a one-way analysis of variance with Tukey's and paired t-tests (α = 1%). Results: For all materials tested, significant color changes were noticeable after curing and after 30 days in water (p 0.01). Conclusion: The CR values and color changes after curing and 30 days of storage in water varied depending on the material tested. This study corroborates the clinical practice of curing a small amount of unpolymerized resin composite on the tooth surface to select the desired shade before undertaking esthetic restorative procedures.

Published

2021

27. A sectional precontoured metal matrix to improve the pontic contour and emergence profile for fiber-reinforced composite resin fixed dental prostheses

Author

Mutlu Özcan, Taciana Marco Ferraz Caneppele, Pablo Lenin Benitez Sellan, Eduardo Bresciani, Universidade Estadual Paulista (Unesp), and University of Zürich

Subjects

Dental Materials, Matrix (mathematics), Materials science, Denture, Partial, Fixed, Glass, Fiber-reinforced composite, Oral Surgery, Composite material, Composite Resins

Abstract

Made available in DSpace on 2021-06-25T10:51:44Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-01-01 Doctoral student GAPEC Academic Group of Clinical Research Department of Restorative Dentistry Institute of Science and Technology São Paulo State University (UNESP) São José dos Campos Brazil Researcher School of Dentistry Universidad Espíritu Santo Professor and Head Dental Materials Unit Center for Dental and Oral Medicine University of Zürich Associate Professor GAPEC Academic Group of Clinical Research Department of Restorative Dentistry Institute of Science and Technology São Paulo State University (UNESP) Doctoral student GAPEC Academic Group of Clinical Research Department of Restorative Dentistry Institute of Science and Technology São Paulo State University (UNESP) São José dos Campos Brazil Associate Professor GAPEC Academic Group of Clinical Research Department of Restorative Dentistry Institute of Science and Technology São Paulo State University (UNESP)

Published

2022

28. Evaluation of the response of esthetic restorative materials to ultraviolet aging

Author

Wael Att, Yu-Sung Choi, and Kiho Kang

Subjects

Ceramics, Materials science, Surface Properties, Color, Esthetics, Dental, medicine.disease_cause, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Spectrophotometry, Materials Testing, medicine, Transmittance, Ceramic, Composite material, Hue, medicine.diagnostic_test, Color difference, Significant difference, 030206 dentistry, Dental Porcelain, visual_art, visual_art.visual_art_medium, Computer-Aided Design, Contrast ratio, Oral Surgery, Ultraviolet

Abstract

Statement of problem The optical properties of esthetic computer-aided design and computer-aided manufacturing (CAD-CAM) materials can change depending on the clinical situation. Studies that compare esthetic CAD-CAM materials based on their optical properties are lacking. Purpose The purpose of this in vitro study was to evaluate the optical properties of esthetic CAD-CAM specimens after ultraviolet (UV) aging based on the type and thickness of the material. Material and methods In total, 240 plate-shaped specimens (14×12×1 mm and 14×12×2 mm) of a nanohybrid composite resin (Tetric CAD), a fine-structure feldspathic ceramic (Vitablocs Mark II), 2 different glass-ceramics (IPS Empress CAD and IPS e.max CAD), a zirconia-reinforced lithium silicate glass-ceramic (Celtra Duo), a polymer-infiltrated ceramic network (Vita Enamic), and 2 different resin nanoceramics (Cerasmart and Lava Ultimate) were fabricated (n=15). The optical parameters were analyzed by spectrophotometry before and after UV aging. The brightness (L∗), red green (a∗), yellow-blue (b∗), chroma (Ch), and hue (h) were measured, and the color difference (ΔE00) values were calculated. The translucency parameter (TP), total transmittance (Tt), and contrast ratio (CR) were also determined. Statistical analyses were performed with 1-way ANOVA, the Tukey honestly significant difference post hoc test, independent- and paired-samples t tests, and 2-way ANOVA (α=.05). Results Significant interactions were observed for the aging process, material type, and thickness for all optical parameters (P Conclusions The optical properties of the CAD-CAM specimens were affected by the aging process, material type, and thickness, and the color stability was clinically applicable in all CAD-CAM materials except groups Lava Ultimate and Cerasmart(ΔE00

Published

2021

29. Comparative evaluation of three types of denture base materials with saliva substitute before and after thermocycling: An in vitro study

Author

Usha Radke, Varunraj Jadhav, Hienna Mahale, Saee Deshpande, and Pravinkumar G. Patil

Subjects

Denture Bases, Materials science, Saliva, Artificial, Izod impact strength test, 030206 dentistry, Comparative evaluation, Contact angle, Dental Materials, 03 medical and health sciences, Hysteresis, 0302 clinical medicine, Goniometer, Materials Testing, Polyamide, Wettability, Saliva substitute, Wetting, Oral Surgery, Composite material, Saliva

Abstract

Statement of problem Xerostomia refers to the decrease in the quality and quantity of saliva. In denture wearers, xerostomia affects the retention of the denture because of lack of wettability of the denture base. However, which denture base resin materials are best wetted by artificial salivary substitutes is unclear. Purpose The purpose of this in vitro study was to determine the wetting properties of 3 different commercially available denture base resin materials with artificial salivary substitute by using contact angle measurements and to compare these properties before and after thermocycling. Material and methods A total 120 specimens were fabricated with 3 different denture base materials (n=40): heat-polymerized polymethylmethacrylate (DenTek), injection-molded nylon polyamide (Valplast), and microwave polymerized (VIPI WAVE). The advancing and receding contact angles were measured with a goniometer by using the WinDrop++ software program. The contact angle hysteresis was calculated from the advancing and receding contact angles values. The same specimens were subjected to thermocycling to measure the advancing and receding contact angles values. The comparative evaluation was carried out before and after thermocycling. Results The mean ±standard deviation contact angles of the microwave-polymerized material were (62.40 ±1.21 degrees) advancing contact angle, (32.12 ±0.66 degrees) receding contact angle, and (30.28 ±1.40 degrees) contact angle of hysteresis. It was followed by the injection-molded nylon polyamide material, whose mean ±standard deviation contact angle values were (68.57 ±1.72 degrees) advancing contact angle, (43.02 ±1.39 degrees) receding contact angle, (26.27 ±2.05 degrees) contact angle hysteresis and high impact strength heat-polymerized polymethylmethacrylate material, whose mean ±standard deviation contact angle values were (69.81 ±0.16 degrees) advancing contact angle, (41.90 ±1.02 degrees) receding contact angle, and (27.91 ±0.97 degrees) contact angle hysteresis. The statistical analysis showed significant differences among contact angle values of the microwave-polymerized material as compared with the heat-polymerized polymethylmethacrylate and injection-molded nylon polyamide materials (P Conclusions The microwave-polymerized material showed better wettability with artificial saliva substitute than heat-polymerized polymethylmethacrylate and injection-molded nylon polyamide.

Published

2021

30. Cytotoxicity and estrogenicity in simulated dental wastewater after grinding of resin-based materials

Author

N. Wingert, Richard Gminski, Elmar Hellwig, C. Reidelbach, Olga Polydorou, Manuel Garcia-Käufer, Kirstin Vach, and Ali Arif

Subjects

Bisphenol A, Materials science, Chromatography, Elution, Fraction (chemistry), Wastewater, Composite Resins, UDMA, Grinding, Dental Materials, chemistry.chemical_compound, chemistry, Distilled water, Mechanics of Materials, Materials Testing, Humans, Methacrylates, General Materials Science, Cytotoxicity, General Dentistry

Abstract

This study evaluated the cytotoxic and estrogenic effects of dust and eluates released into simulated wastewater after grinding of dental resin-based materials.Four materials were used: ceram.x® universal, Filtek™ Supreme XTE, Lava™ Ultimate and Core-X™ flow. From each composite material, samples (5 × 2 mm, n = 50) were prepared according to the manufacturers' instructions. Lava™ Ultimate was used as blocks. All samples were ground to dust with a diamond bur (106 μm) and suspended in distilled water at 60 mg/mL. After storage for 72 h, the suspensions were separated into a soluble (eluate) and a particulate (dust) fraction. Eluates and dusts were evaluated for inhibition of Vibrio fischeri bioluminescence and cytotoxicity on human A549 lung cells (WST-1-Assay). The estrogenic activity was assessed by YES-Assay using Saccharomyces cerevisiae. Additionally, dental monomers (BisGMA, BisEMA, UDMA, TEGDMA, HEMA) and Bisphenol A were investigated.All eluates showed inhibition of V. fischeri bioluminescence at concentrations above 1.1 mg/mL (p0.05). The activity of the eluates of ceram.x® universal and Filtek™ Supreme XTE was significantly higher than Lava™ Ultimate and Core-X™ flow (p0.05). In the WST-1-Assay, all materials induced cytotoxic effects at concentrations of 0.1 mg/mL (p0.05), while no significant differences were detected among them. The tested materials revealed no estrogenic activity. All dental monomers and Bisphenol A showed concentration dependent cytotoxic effects (p0.05), whereas only Bisphenol A induced an estrogenic effect (p0.01).Dust and eluates of resin-based dental materials released into wastewater exert bactericidal and cytotoxic effects in vitro. However, they reveal no estrogenic effect.

Published

2021

31. Non-allergy-related dental and orofacial findings in 625 patients reporting on adverse effects from dental materials

Author

Fabian Cieplik, Pauline Mittermüller, Gottfried Schmalz, Karl-Anton Hiller, and Wolfgang Buchalla

Subjects

Male, Allergy, medicine.medical_specialty, Materials science, 02 engineering and technology, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Internal medicine, Hypersensitivity, medicine, Humans, General Materials Science, In patient, 610 Medicine & health, Adverse effect, Burning mouth, General Dentistry, Retrospective Studies, Retrospective cohort study, 030206 dentistry, Middle Aged, 021001 nanoscience & nanotechnology, medicine.disease, Dry mouth, stomatognathic diseases, Taste disorder, Mechanics of Materials, Cohort, Female, medicine.symptom, 0210 nano-technology, Tooth

Abstract

Objective In a cohort of 500 patients complaining about adverse effects from dental materials, allergies were found to be contributing to the patients’ subjective complaints in only about 14% of the cases. Therefore, the aim of this retrospective study was to investigate an enlarged cohort of 625 patients reporting on adverse effects from dental materials on non-allergy-related dental or orofacial findings with relevance for their subjective complaints. Methods 625 patients visiting a specialized consultation on suspected adverse effects from dental materials were characterized regarding age and sex distribution, subjective complaints, allergies, and dental and orofacial findings with relevance for their subjective complaints. Results This cohort comprised about 81% females and the median age was 58 years. The most often reported subjective complaints were burning mouth (43.8%), taste disorders (28.8%) and dry mouth (22.7%). Allergies toward dental materials were found in 12.3%. In 28.0% of the patients, no dental or orofacial findings with relevance for the subjective complaints expressed by the patients could be found. 19.8% of the patients exhibited relevant functional symptoms, 16.2% relevant orofacial diseases, 15.2% relevant mechanical irritations, 10.1% or 9.4% relevant tooth-related or plaque-related symptoms, respectively, 9.4% hyposalivation, and in 7.2% relevant manufacturing faults were found. Significance In patients complaining about adverse effects from dental materials, a wide variety of dental or orofacial findings need to be considered despite allergies, although a quarter of the patients did not present any relevant dental or orofacial finding. Therefore, specialized consultations and close collaboration with experts from other fields are eligible.

Published

2021

32. The effect of new anti-adhesive and antibacterial dental resin filling materials on gingival fibroblasts

Author

Linn Baumann, Susanne Gerhardt-Szép, Philipp Landenberger, and Stefan Rüttermann

Subjects

Materials science, Biocompatibility, Resin composite, medicine.medical_treatment, Composite number, Dental Cements, Fibroblasts, Composite Resins, Anti adhesive, Anti-Bacterial Agents, Dental Materials, Cytokine, Mechanics of Materials, Filling materials, Materials Testing, medicine, Humans, General Materials Science, Statistical analysis, Delivery system, General Dentistry, Nuclear chemistry

Abstract

Aim of this study was to evaluate the biocompatibility of four experimental antiadhesive and antibacterial dental filling composites on human gingival fibroblasts (HGFs).For these experimental resin composites a delivery system based on novel polymeric hollow beads, loaded with Tego Protect (Aa1), Dimethicone (Aa2), Irgasan (Ab1) and methacrylated polymerizable Irgasan (Ab2) as active agents was used. The cultured HGFs' cell integrity, proliferation, viability, collagen synthesis and cytokine release were measured. For this purpose, human gingival fibroblasts were treated with eluates from all four composites and compared with an experimental standard composite (ST). Eluate extraction times 24 h and 168 h were chosen.Statistical analysis was conducted via a mixed model. Both antibacterial composites reduced proliferation, collagen and cytokine synthesis significantly (p0.05), increasing with time of elution. Ab1 did also have a damaging effect on the membrane and on cell viability.Overall, it can be concluded that the antiadhesive composites showed clear advantages over the antibacterial composites in terms of biocompatibility. This study also continues to show the potential of the new poly-pore system, as it can be used for a variety of other applications in future composite mixtures.

Published

2021

33. Effects of magnetic resonance imaging on the microleakage of five restorative materials: An in vitro study

Author

Funda Yılmaz, Sema Murat, Kıvanç Kamburoğlu, Simel Ayyildiz, and İsmail Hakkı Baltacıoğlu

Subjects

Molar, Dentistry, Composite Resins, Pathology and Forensic Medicine, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Materials Testing, Lithium disilicate, medicine, Dentin, Humans, In vitro study, Radiology, Nuclear Medicine and imaging, Dentistry (miscellaneous), Dental Restoration, Permanent, Porcelain fused to metal, Dental Leakage, medicine.diagnostic_test, Enamel paint, business.industry, Margins of Excision, Magnetic resonance imaging, 030206 dentistry, Magnetic Resonance Imaging, stomatognathic diseases, medicine.anatomical_structure, Glass Ionomer Cements, Research Design, 030220 oncology & carcinogenesis, visual_art, visual_art.visual_art_medium, Surgery, Oral Surgery, business

Abstract

Objective The objective of this study was to assess the effects of 3 T magnetic resonance imaging (MRI) on the microleakage of 5 restorative materials. Methods In total, 100 maxillary molars were randomly assigned to 5 groups (n = 20) for restoration with 5 different materials: amalgam, light-cured glass-ionomer cement, feldspathic porcelain fused to metal, pressed lithium disilicate glass ceramic, and composite resin. In each group, 10 specimens were subjected to MRI, and 10 specimens served as controls with no MRI exposure. Standardized class V cavities were prepared with occlusal margins terminating in enamel and gingival margins terminating in dentin. Microleakage penetration at the enamel and dentin margins was calculated for each group. A chi-square test was used for intergroup comparisons. Statistical significance was established at P Results Microleakage penetration did not differ significantly between specimens subjected to MRI and the controls for any restoration (P ≥ .362 for the enamel margin, P ≥ .067 for the dentin margin) or between specimens treated with different restorative materials (P ≥ .355). No significant differences in microleakage were discovered between the enamel and dentin margins of any of the restorative groups (P ≥ .236). Conclusion MRI had no effect on the microleakage of the 5 restorative materials.

Published

2021

34. Intraoral low-temperature degradation of monolithic zirconia dental prostheses: Results of a prospective clinical study with ex vivo monitoring

Author

S. Le Goff, Thierry Douillard, Jérôme Chevalier, F. Amiard, Claudine Wulfman, M. Lamy de la Chapelle, N. Dardenne, Amélie Mainjot, Nathalie Dupont, Vinciane Koenig, Sandrine Bekaert, Nadia Djaker, Alain Vanheusden, Dental Biomaterials Research Unit - d-BRU [Liège, Belgium], Université de Liège, University Hospital of Liège B35, Unité de Recherche Biomatériaux Innovants et Interfaces (URB2i (URP_4462)), Université de Paris (UP)-Université Sorbonne Paris Nord, Matériaux, ingénierie et science [Villeurbanne] (MATEIS), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS), Chimie, Structures et Propriétés de Biomatériaux et d'Agents Thérapeutiques (CSPBAT), Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Paris 13 (UP13)-Institut Galilée-Université Sorbonne Paris Cité (USPC), Institut des Molécules et Matériaux du Mans (IMMM), Le Mans Université (UM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Department of Public Health, Epidemiology and Health Economics [Liège, Belgium], and Université de Liège-CHU Sart Tilman [Liege, Belgium]

Subjects

Molar, Ceramics, Materials science, Surface Properties, 02 engineering and technology, Depth mapping, [SPI.MAT]Engineering Sciences [physics]/Materials, Stress (mechanics), Dental Materials, Dental Prosthesis, 03 medical and health sciences, Posterior Tooth, 0302 clinical medicine, Materials Testing, Yttrium, General Materials Science, Prospective Studies, General Dentistry, ComputingMilieux_MISCELLANEOUS, Glaze, Monolithic zirconia, Temperature, 030206 dentistry, 021001 nanoscience & nanotechnology, Mechanics of Materials, Prospective clinical study, Zirconium, 0210 nano-technology, Tetragonal zirconia, Biomedical engineering

Abstract

Objective To investigate the intraoral development and kinetics of low-temperature degradation (LTD) in second-generation 3 mol.% yttria-doped tetragonal zirconia polycrystal (3Y-TZP) monolithic prostheses, as well as the influence of masticatory mechanical stress and glaze layer on it. Methods A total of 101 posterior tooth elements were included in a prospective clinical study, which included ex vivo LTD monitoring (at baseline, 6 months, 1 year, and 2 years) using Raman spectroscopy (n = 2640 monoclinic phase measurement points per evaluation time) and SEM. Four types of areas (1–2 mm2 surface, 6 on molars, and 4 on premolars) were analyzed on each element surface: occlusal, axial, glazed, or unglazed. Raman depth mapping and high-resolution SEM were performed on the selected samples. Results LTD developed in 3Y-TZP monolithic restorations 6 months after intraoral placement and progressed with time. After two years, the tetragonal-to-monoclinic transformation was non-uniform, with the presence of localized clusters of transformed grains. In axial areas, the grain aspect was typical of the classical nucleation-growth process reported for LTD, which progresses from the surface to a depth of several tens of microns. However, in occlusal areas, tribological stress generated surface crushing and grain pull-out from the clusters, which induced an underestimation of the aging process when the evaluation was limited to monoclinic phase quantification. Glazing cannot be considered a protection against LTD. Significance If LTD occurs in dental prostheses in the same way as in orthopedic prostheses, its clinical impact is unknown and needs to be further studied.

Published

2021

35. Novel speed sintered zirconia by microwave technology

Author

Yu Zhang, Lilian Costa Anami, Guilherme de Siqueira Ferreira Anzaloni Saavedra, Marina R. Kaizer, Van P. Thompson, Julio Nogueira Luz, Nathália de Carvalho Ramos, Universidade Estadual Paulista (Unesp), Positivo University, New York University College of Dentistry, and School of Dental Medicine

Subjects

Technology, Materials science, Surface Properties, Microwave oven, Dynamic fatigue, Microwave technology, Sintering, Microwave sintering, 02 engineering and technology, Flexural strength, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Materials Testing, Yttrium, General Materials Science, Cubic zirconia, Translucency, Composite material, Microwaves, Microstructure, General Dentistry, Step-stress fatigue, Weibull modulus, 030206 dentistry, 021001 nanoscience & nanotechnology, Grain size, Mechanics of Materials, Zirconium, 0210 nano-technology, Yttria-stabilized tetragonal zirconia

Abstract

Made available in DSpace on 2021-06-25T10:55:12Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-05-01 Objective: Continuous efforts have been made to hasten the zirconia densification process without compromising properties. This study evaluated the long-term structural durability of microwave speed-sintered zirconia (MWZ) relative to a conventionally sintered zirconia (CZ). Methods: As-machined dental 3Y-TZP discs (Ø12 × 1.2 mm) were speed sintered at 1450 °C for 15 min using an industrial microwave oven, while conventional sintering was conducted in a standard dental furnace at 1530 °C for 2 h. Both were followed by natural cooling. The total sintering time was 105 min for MWZ and 600 min for CZ. Groups were compared regarding density, grain size, phase composition, and fracture resistance. Structural durability was investigated employing two fatigue protocols, step-stress and dynamic fatigue. Results: Compared to CZ, MWZ exhibited a slightly lower density (MWZ = 5.98 g/cm3, CZ = 6.03 g/cm3), but significantly smaller grain sizes (MWZ = 0.53 ± 0.09 μm, CZ = 0.89 ± 0.10 μm), lower cubic-zirconia contents (MWZ = 15.3%, CZ = 22.7%), and poorer translucency properties (TP) (MWZ = 13 ± 1, CZ = 29 ± 0.8). However, the two materials showed similar flexural strength (MWZ = 978 ± 112 MPa, CZ = 1044 ± 161 MPa). Additionally, step-stress testing failed to capture the fatigue effect in 3Y-TZP, whereas dynamic fatigue revealed structural degradation due to moisture-assisted slow-crack-growth (SCG). Finally, MWZ possessed a slightly higher Weibull modulus (MWZ = 7.9, CZ = 6.7) but similar resistance to SCG (MWZ = 27.5, CZ = 24.1) relative to CZ. Significance: Dental 3Y-TZP with similar structural durability can be fabricated six-times faster by microwave than conventional sintering. Department of Dental Materials and Prosthodontics Institute of Science and Technology of Sao Jose dos Campos Sao Paulo State University (UNESP), 777 Eng. Francisco Jose Longo Avenue Graduate Program in Dentistry Positivo University Department of Biomaterials and Biomimetics New York University College of Dentistry, 433 1st Ave. Department of Preventive and Restorative Sciences University of Pennsylvanian School of Dental Medicine, 240 S. 40th St. Department of Dental Materials and Prosthodontics Institute of Science and Technology of Sao Jose dos Campos Sao Paulo State University (UNESP), 777 Eng. Francisco Jose Longo Avenue

Published

2021

36. A numerical, theoretical and experimental study of the effect of thermocycling on the matrix-filler interface of dental restorative materials

Author

Yannick Tillier, Yoan Boussès, Nathalie Brulat-Bouchard, Pierre-Olivier Bouchard, Centre de Mise en Forme des Matériaux (CEMEF), MINES ParisTech - École nationale supérieure des mines de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), and Université Côte d'Azur (UCA)

Subjects

Dental composite, Materials science, Surface Properties, Composite number, 02 engineering and technology, Bending, engineering.material, Composite Resins, [SPI.MAT]Engineering Sciences [physics]/Materials, Matrix (chemical analysis), Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Filler (materials), Materials Testing, General Materials Science, Composite material, [SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/Biomaterials, General Dentistry, ComputingMilieux_MISCELLANEOUS, Dental restorative materials, [SPI.MECA.BIOM]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Biomechanics [physics.med-ph], 030206 dentistry, 021001 nanoscience & nanotechnology, [INFO.INFO-MO]Computer Science [cs]/Modeling and Simulation, Mechanics of Materials, Silanization, engineering, Methacrylates, Interphase, 0210 nano-technology

Abstract

Objective Thermocycling is widely used to age dental composites but with very different results from one study to another, even with apparent similar conditions. This study aims at understanding better the relative damaging speed of matrix and fillers, based on theoretical models. Methods Eight formulations of an experimental dental material were produced. The same organic matrix was used and silanated barium glass particles were added as fillers with different filler ratios. Samples were thermocycled up to 10 000 cycles. Three-point bending tests were carried out at different steps. The yield stress was measured among other mechanical properties. Results Composite properties were degraded by thermocycling. The decrease was slight during the first 5 000 cycles whereas it decreased significantly after 10 000 cycles. The Turcsanyi model asserts that the interface yield stress is slightly affected in the first 5 000 cycles and then falls down, while the decrease of matrix yield stress is linear. Significance Each component of a composite does not age at the same rate. First, the matrix acts as a protector until the water finds its way to the interphase. The filler silanization treatment is highly sensitive to hydrolysis and is damaged rapidly from that moment. Numerical simulations and surface observations confirmed that cracks appear to propagate in the neighbourhood of the interface but not directly within it.

Published

2021

37. Optical behavior of one-shaded resin-based composites

Author

Alvaro Della Bona, María M. Pérez, Rosa Pulgar, Javier Ruiz-López, and Cristina Lucena

Subjects

Materials science, Light, Scattering, Composite number, Color, Standard illuminant, 030206 dentistry, 02 engineering and technology, 021001 nanoscience & nanotechnology, Composite Resins, Iridescence, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Spectroradiometer, Mechanics of Materials, Materials Testing, Transmittance, Opalescence, General Materials Science, Diffuse reflection, Composite material, 0210 nano-technology, Absorption (electromagnetic radiation), General Dentistry

Abstract

Objective To evaluate optical properties, and translucency and opalescence parameters of one-shaded resin-based composites. Methods Three one-shaded resin composites (OM — Omnichroma; VP — Venus Pearl; and VD — Venus Diamond) and a group-shaded resin composite (FU- Filtek Universal A2) were used. Three composite discs from each material were fabricated for each of the following thickness: 0.5, 1.0 and 2.0 mm. Diffuse reflectance was measured against white and black backgrounds using a calibrated spectroradiometer, CIE D65 illuminant and the CIE 45°/0° geometry. Translucency parameter (TP) was calculated using Δ E a b * and Δ E 00 . Scattering (S) and absorption (K) coefficients and transmittance (T%) were calculated using Kubelka–Munk’s equations, and a reflection spectrophotometer was used to measure the opalescence parameter (OP). Data was statistically analyzed using Kruskal–Wallis, Mann–Whitney tests, and VAF coefficient. Results Spectral distributions of S, K and T were wavelength dependent, showing significant differences between materials of the same thickness and for different thicknesses of the same material (p Significance One-shaded resin-based composites showed different optical behavior than the group-shaded resin-based composite. Understanding the optical behavior of the one-shaded resin-based composites is essential to optimize their clinical performance.

Published

2021

38. Influence of surface treatments and cyclic fatigue on subsurface defects and mechanical properties of zirconia frameworks

Author

Moustafa N. Aboushelib, Nikolaos Silikas, and Alaaeldin Elraggal

Subjects

Dental Stress Analysis, Ceramics, Cyclic stress, Materials science, Surface Properties, Y-TZP, 02 engineering and technology, law.invention, Abrasion (geology), Flexural strength, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Fracture toughness, law, Materials Testing, Yttrium, General Materials Science, Cubic zirconia, Composite material, General Dentistry, Yttria-stabilized zirconia, Fluorapatite, Reproducibility of Results, 030206 dentistry, 021001 nanoscience & nanotechnology, Laser, Mechanics of Materials, Weibull distribution, Zirconium, 0210 nano-technology, Fractographic analysis

Abstract

Objectives To evaluate the effect of laser fused and air abraded fluorapatite particles on flexural strength σ f and fracture toughness (KIC) of Yttria tetragonal zirconia polycrystal (Y-TZP). Methods 160 polished Y-TZP bars received one of the following surface treatments: airborne particle abrasion (APA) with fluorapatite glass-ceramics (FGC), APA with tribochemical silica-coated alumina (CoJet), laser fused FGC using Nd:YAG Laser (FGC + Laser), while as-sintered polished specimens served as control. Initial flexural strength σ f I was measured to half of the specimens, while the rest underwent cyclic fatigue (1,000,000 cycle of 15N load and 3 s contact time) followed by measuring residual flexural strength σ f R . Fractographic analysis was performed and KIC was calculated. The effect of surface treatment and fatigue on flexural strength was statistically analysed using 2-way ANOVA (α = 0.05). Weibull probability was measured to assess the reliability of flexural strength. Results The highest σ f before or after the fatigue was reported for the control group while the lowest was for FGC + Laser group. Cyclic fatigue significantly decreased the flexural strength of all groups except for FGC + Laser group. There was no significant difference between the KIC between the control and FGC groups, however, a significant reduction of KIC was found in the CoJet group, while FGC + Laser reported the significant lowest value compared to all groups (P = 0.00). Significance Fluorapatite glass-ceramic powder offers a promising alternative for particle abrasion of zirconia-based frameworks.

Published

2021

39. Shrinkage stress and cuspal deflection in MOD restorations: analytical solutions and design guidelines

Author

Alex Fok and Wondwosen Abebe Aregawi

Subjects

Materials science, Modulus, 02 engineering and technology, Composite Resins, Stress (mechanics), Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Materials Testing, medicine, General Materials Science, Composite material, Dental Restoration, Permanent, General Dentistry, Shrinkage, Stiffness, 030206 dentistry, 021001 nanoscience & nanotechnology, Finite element method, Mechanics of Materials, Stress, Mechanical, medicine.symptom, Dental Cavity Preparation, 0210 nano-technology, Material properties, Cavity wall, Beam (structure)

Abstract

Objective This paper aimed to derive analytical solutions for the shrinkage stress and cuspal deflection in model Class-II mesial-occlusal-distal (MOD) resin-composite restorations to better understand their dependence on geometrical and material parameters. Based on the stress solutions, it was shown how design curves could be obtained to guide the selection of dimensions and materials for the preparation and restoration of this class of cavities. Methods The cavity wall was considered as a cantilevered beam while the resin composite was modeled as Winkler’s elastic foundation with closely-spaced linear springs. Further, a mathematical model that took into account the combined effect of material properties, sample geometry and compliance of the surrounding constraint was employed to relate the shrinkage stress at the “tooth-composite” interface to the local compliance of the cavity wall. Exact analytical solutions were obtained for cuspal deflection and shrinkage stress along the cavity wall by solving the resulting differential equation, which had the same form as that for a beam on elastic foundation with a distributed load. To quantify the shrinkage stress at the cavity floor, the resin composite was assumed to be a beam, fixed at both ends and loaded with a uniformly distributed load that approximated the shrinkage stress. The analytical solutions thus obtained were compared with results from finite element analysis (FEA). Results The analytical solution for cuspal deflection contains a dimensionless parameter, γ, which represents the stiffness of the cavity wall relative to that of the cured resin composite. For the same shrinkage strain, cuspal deflection increases with reducing γ, i.e. reducing stiffness of the cavity wall or increasing stiffness of the composite. For the same γ, cuspal deflection increases proportionally with shrinkage strain. Shrinkage stress along the cavity wall is maximum at the cavity corner and reduces towards the occlusal surface; the maximum value depends only on Young’s modulus and the shrinkage strain of the resin composite. For low values of γ, the interfacial stress at the occlusal surface can become compressive. The interfacial stress at the cavity floor can be much higher than that along the cavity wall, increasing exponentially with the resin composite’s thickness. The analytical solutions agree well with FEA predictions. Significance When validated, the analytical solutions and design curves presented in this study can provide useful guidelines for choosing appropriate dimensions of cavity preparations and resin composite materials with suitable mechanical properties for Class-II MOD restorations to help avoid tooth fracture and interfacial debonding caused by polymerization shrinkage.

Published

2021

40. Novel core–shell CHX/ACP nanoparticles effectively improve the mechanical, antibacterial and remineralized properties of the dental resin composite

Author

Yuqing Guo, Zexian Xu, Yinong Qiu, Hongchen Zhang, Ping Zhen, Yang Yanwei, Bin Liu, Zhiqiang Li, Dongyang Ma, Jianxue Li, and Zengjie Fan

Subjects

Materials science, Absorption of water, Nanoparticle, 02 engineering and technology, Composite Resins, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Flexural strength, Materials Testing, General Materials Science, Amorphous calcium phosphate, Solubility, General Dentistry, Curing (chemistry), Flexural modulus, Chlorhexidine, 030206 dentistry, 021001 nanoscience & nanotechnology, Anti-Bacterial Agents, Compressive strength, Mechanics of Materials, Nanoparticles, 0210 nano-technology, Nuclear chemistry

Abstract

Objective The core-shell chlorhexidine/amorphous calcium phosphate (CHX/ACP) nanoparticles were synthesized and used to modify the dental resin composite, aiming to improve its remineralized and antibacterial properties. Methods The core-shell CHX/ACP nanoparticles were synthesized by vesicle-templating technology and characterized, and their sustained release and antibacterial properties were also evaluated. Subsequently, the synthesized nanoparticles were incorporated into the dental resin composite at 1 wt.%, 5 wt.% or 10 wt.% to obtain different experimental groups. The physical properties, including curing depth, double bond conversion rate, water absorption and solubility, the sustained-release effects, and mechanical properties of the modified resin composite were evaluated. The remineralization ability was also measured by SEM. The antibacterial experiment of the modified resin composite with fresh preparation or aging in water for 28 days was carried out by a plate count method. Results The physical and chemical characterizations showed that the synthesized nanoparticles presented a core-shell structure, and their diameter was about 98.5 nm. The shell was composed of ACP with the core full of CHX. These nanoparticles had a release effect on calcium, phosphate ions, and CHX. The nanoparticles could effectively inhibit the growth of S. mutan at a lower concentration (≥50 μg/mL). The curing depth, the double bond conversion, the water absorption, the solubility, the flexural strength, the flexural modulus, and the compressive strength of the modified resin composite were 3.86-4.88 mm, 62.32-73.61%, 1.47-2.84%, 0.21-0.48%, 45.83-109.46 MPa, 2.57-4.91 GPa, and 66.43-160.38 MPa, respectively. The modified resin composite containing 5 wt.% and above CHX/ACP nanoparticles could effectively inhibit the growth of S. mutans regardless of aging in water, with immediate and aging antibacterial rate of more than 92%. In addition, the modified resin composite had a certain remineralization property in the SBF solution verified by SEM. Significance The core-shell CHX/ACP nanoparticles were successfully prepared and used to modify the resin composite. The modified dental resin composite with 5 wt.% CHX/ACP nanoparticles had excellent mechanical, antibacterial, and remineralization properties. It is expected to be an ideal restorative filling material for clinical application.

Published

2021

41. Dental stem cell signaling pathway activation in response to hydraulic calcium silicate-based endodontic cements: A systematic review of in vitro studies

Author

Sanz, José, Lozano, Francisco, Lopez-Gines, Concha, Monleon, Daniel, Llena, Carmen, and Forner, Leopoldo

Subjects

MAPK/ERK pathway, Materials science, Cell, Dental Cements, Biocompatible Materials, 02 engineering and technology, SMAD, Biological Factors, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Ca2+/calmodulin-dependent protein kinase, Medicine and Health Sciences, medicine, Humans, dental stem cells, General Materials Science, General Dentistry, Biomedical and Dental Materials, FOS: Clinical medicine, Silicates, Stem Cells, In vitro toxicology, Wnt signaling pathway, Endodontics and Endodontology, calcium silicate-based cements, in vitro, Oxides, 030206 dentistry, Calcium Compounds, biomineralization, 021001 nanoscience & nanotechnology, signaling pathways, Chemicals and Drugs, Cell biology, Drug Combinations, medicine.anatomical_structure, bioactivity, Mechanics of Materials, Dentistry, Stem cell, Signal transduction, 0210 nano-technology, Signal Transduction

Abstract

Objective To present a qualitative synthesis of in vitro studies which analyzed human dental stem cell (DSC) molecular signaling pathway activation in response to hydraulic calcium silicate-based cements (HCSCs). Methods A systematic electronic search was performed in Medline, Scopus, Embase, Web of Science and SciELO databases on January 20 and last updated on March 20, 2020. In vitro studies assessing the implication of signaling pathways in activity related marker (gene/protein) expression and mineralization induced by HCSCs in contact with human DSCs were included. Results The search identified 277 preliminary results. After discarding duplicates, and screening of titles, abstracts, and full texts, 13 articles were considered eligible. All of the materials assessed by the included studies showed positive results in cytocompatibility and/or bioactivity assays. ProRoot MTA and Biodentine were the modal HCSCs studied, hDPSCs were the modal cell variant used, and the most studied signaling pathway was MAPK. In vitro assays measuring the expression of activity-related markers and mineralized nodule formation evidenced the involvement of MAPK (and its subfamilies ERK, JNK and P38), NF-κB, Wnt/β-catenin, BMP/Smad and CAMKII pathways in the biological response of DSCs to HCSCs. Significance HCSCs considered in the present review elicited a favorable biological response from a variety of DSCs in vitro, thus supporting their use in biologically-based endodontic procedures. MAPK, NF-κβ, Wnt/β-catenin, BMP/Smad and CAMKII signaling pathways have been proposed as potential mediators in the biological interaction between DSCs and HCSCs. Understanding the signaling processes involved in tissue repair could lead to the development of new biomaterial compositions targeted at enhancing these mechanisms through biologically-based procedures.

Published

2021

42. Resin-based dental materials containing 3-aminopropyltriethoxysilane modified halloysite-clay nanotubes for extended drug delivery

Author

Jeffrey P. Youngblood, Ashley Karczewski, Simone Duarte, Sara Kalagi, Victor da Mota Martins, Ítallo Emídio Lira Viana, Richard L. Gregory, Jeffrey A. Platt, and S.A. Feitosa

Subjects

Materials science, 02 engineering and technology, engineering.material, Halloysite, Absorbance, Dental Materials, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Flexural strength, Spectrophotometry, Materials Testing, Ultimate tensile strength, medicine, General Materials Science, General Dentistry, Nanotubes, Propylamines, medicine.diagnostic_test, Flexural modulus, Chlorhexidine, 030206 dentistry, Silanes, 021001 nanoscience & nanotechnology, Silane, Pharmaceutical Preparations, chemistry, Mechanics of Materials, Silanization, engineering, Clay, 0210 nano-technology, Nuclear chemistry

Abstract

Objective To synthesize and characterize a novel resin-based dental material containing 3-aminopropyltriethoxysilane (APTES) surface-modified halloysite-clay nanotubes (HNTs) for long-term delivery of guest molecules. Methods The optimal concentrations of HNT (10, 15, 20 wt.%) and silane (0, 2, 4 vol.%sil) to be incorporated into the resin-based materials were determined (15 wt.%HNT, 4 vol.%sil) after assessment of the mechanical properties (DC%, degree of conversion; FS, flexural strength; FM, flexural modulus; and UTS, ultimate tensile strength). The HNTsil-powder was loaded with chlorhexidine (CHX) to evaluate the effect of the silanization on drug release. Resin-discs were prepared for the following groups: RES (resin), HNT (resin+15 wt.%HNT), HNTsil (resin+15 wt.%HNT silanized), HNT-CHX (resin+15 wt.%HNT loaded with chlorhexidine), HNTsil-CHX (resin+15 wt.%HNTsil-CHX), and 0.2 vol.%CHX (resin+0.2 vol.%CHX solution). Specimens were stored in water for 1, 3, 5, 10, and 15 days at 37 °C. Aliquots from each time point and the final 15-day specimens were evaluated for the zone of inhibition (ZOI) against Streptococcus mutans. CHX release was analyzed using spectrophotometry at absorbance of 300 nm. Data were statistically analyzed (α = 0.05). Results All materials presented similar DC%. Reduced FS but increased FM was detected for 20 wt.%HNT–4%APTES. Groups with 15 wt.% and 20 wt.%HNT with/without APTES presented higher values of UTS. Agar diffusion data indicates that the HNTsil-CHX had a greater ZOI than all other groups over 15 days. HNTsil-CHX had the highest absorbance for day 1 but presented similar values to other groups every time point after. Significance Silanization of nanotubes followed by encapsulation of chlorhexidine is a promising technique for long-term delivery of guest molecules.

Published

2021

43. In vivo aging of zirconia dental ceramics – Part I: Biomedical grade 3Y-TZP

Author

Tomaž Kosmač, Peter Jevnikar, Andraž Kocjan, and Jasna Cotič

Subjects

Dental ceramics, Ceramics, Materials science, Surface Properties, Airborne particle abrasion, Linear kinetics, 030206 dentistry, 02 engineering and technology, 021001 nanoscience & nanotechnology, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Mechanics of Materials, In vivo, Materials Testing, Humans, Yttrium, General Materials Science, Cubic zirconia, Zirconium, 0210 nano-technology, General Dentistry, Aged, Biomedical engineering

Abstract

Objective In vivo aging of biomedical grade 3Y-TZP ceramics in the oral environment was assessed and compared to artificially accelerated in vitro hydrothermal aging extrapolations at 37 °C. Methods 88 discs were pressed and sintered (1450–1500 °C) from two commercial 3Y-TZP compositions containing 0.25% Al2O3 to generate finer- and coarser-grained specimens. As-sintered (AS) and airborne-particle abraded (APA; 50 μm Al2O3) surfaces were investigated. In vivo aging was performed by incorporating specimens in lingual flanges of complete dentures of 12 edentulous volunteers who wore them continuously for up to 24 months. For comparison, in vitro hydrothermal aging at 134 °C was also performed and analysed by XRD and (FIB)-SEM. Data was statistically analysed with linear regression models. Results Finer and coarser-grained specimens exhibited statistically insignificant differences in aging in vivo. The monoclinic fraction (Xm) on AS surfaces abruptly increased to ∼8% after 6 months. The aging process then proceeded with slower linear kinetics (∼0.24%/month). After 24 months, Xm reached ∼12%. The calculated maximum transformed layer was 0.385 μm representing one layer of transformed grains. APA surfaces were highly aging resistant. The initial Xm of ∼4.0% linearly increased by 0.03%/month in vivo. In vitro aging exhibited an initial induction period, followed by linear aging kinetics. Coarser-grained AS surfaces aged significantly faster than fine-grained (2.41%/h compared to 2.16%/h). APA discs aged at a rate of 0.3%/h in vitro. Microcracking within a single grain and pull-out of grain clusters were observed on aged AS surfaces. Significance Biomedical grade 3Y-TZP was susceptible to in vivo aging. After 2 years in vivo, the aging kinetics were almost 3-times faster than the generally accepted in vitro-in vivo extrapolation.

Published

2021

44. Functional fillers for dental resin composites

Author

X. X. Zhu, Yazi Wang, and Meifang Zhu

Subjects

Materials science, Resin composite, 0206 medical engineering, Biomedical Engineering, 02 engineering and technology, General Medicine, 021001 nanoscience & nanotechnology, Composite Resins, 020601 biomedical engineering, Biochemistry, Biomaterials, Dental Materials, Self-healing, Materials Testing, Composite material, 0210 nano-technology, Molecular Biology, Biotechnology

Abstract

Dental resin composites (DRCs) are popular materials to repair caries. Although various types of DRCs with different characteristics have been developed, restoration failures still exist. Bulk fracture and secondary caries have been considered as main causes for the failure of composites restoration. To address these problems, various fillers with specific functions have been introduced and studied. Some fillers with specific morphologies such as whisker, fiber, and nanotube, have been used to increase the mechanical properties of DRCs, and other fillers releasing ions such as Ag+, Ca2+, and F-, have been used to inhibit the secondary caries. These functional fillers are helpful to improve the performances and lifespan of DRCs. In this article, we firstly introduce the composition and development of DRCs, then review and discuss the functional fillers classified according to their roles in the DRCs, finally give a summary on the current research and predict the trend of future development.

Published

2021

45. Impact of hydrothermal aging on the light transmittance and flexural strength of colored yttria-stabilized zirconia materials of different formulations

Author

Nina Lümkemann and Bogna Stawarczyk

Subjects

Materials science, Surface Properties, Sintering, 030206 dentistry, Hydrothermal circulation, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Flexural strength, Colored, visual_art, Flexural Strength, Materials Testing, visual_art.visual_art_medium, Transmittance, Yttrium, Cubic zirconia, Zirconium, Ceramic, Oral Surgery, Composite material, Yttria-stabilized zirconia

Abstract

Statement of problem Yttria-stabilized tetragonal zirconia polycrystal (Y-TZP) materials of different formulations (3Y-TZP, 4Y-TZP, and 5Y-TZP) can be colored by using color liquids. However, practically and clinically relevant factors such as modifications of sintering protocols and hydrothermal aging might affect the extent of light transmittance and flexural strength of zirconia materials of different formulations; studies on these outcomes, however, are lacking. Purpose The purpose of this in vitro study was to test the impact of hydrothermal aging on the light transmittance and flexural strength of colored zirconia materials compared with a lithium-disilicate (LiSi2) ceramic. Material and methods A total of 210 specimens were prepared from 3Y-TZP0.25 (n=30), 3Y-TZP0.05 (n=30), 5Y-TZP (n=30), 4Y-TZP (n=60), pre4Y-TZP (preshaded, n=30), and LiSi2 (n=30). All specimens, except for pre4Y-TZP and LiSi2, were manually colored, predried, and either conventionally sintered at 1450 °C (3Y-TZP0.25, 3Y-TZP0.05, 5Y-TZP, and half of 4Y-TZP) or high-speed sintered at 1580 °C (other half of 4Y-TZP and pre4Y-TZP). Light transmittance was measured initially and after 2, 5, 10, 20, 40, and 160 hours of hydrothermal aging (134 °C, 0.2 MPa). Biaxial flexural strength was tested initially and after 160 hours of hydrothermal aging (n=15). The Kolmogorov-Smirnov test, multivariate analysis, and 1-way ANOVA with the Tukey HSD post hoc test, the t test, and linear mixed models were calculated (α=.05). Results LiSi2 showed the highest translucency, followed by 5Y-TZP, 4Y-TZP, pre4Y-TZPspeed, 3Y-TZP0.05, and 3Y-TZP0.25. 4Y-TZPspeed was most opaque and matte. The decrease in translucency related to aging hours was higher for LiS2 and conventional sintered zirconia materials than for 4Y-TZPspeed and pre4Y-TZPspeed. Initially, 3Y-TZP0.25 had the highest flexural strength, followed by 3Y-TZP0.05, 4Y-TZP, and pre4Y-TZPspeed. pre4Y-TZPspeed was comparable with 4Y-TZPspeed but significantly higher than 5Y-TZP. LiSi2 had the lowest biaxial flexural strength. Hydrothermal aging increased biaxial flexural strength for 3Y-TZP0.25 and 3Y-TZP0.05 (P Conclusions Manually colored, conventionally sintered 4Y-TZP was resistant to hydrothermal aging regarding flexural strength. High-speed sintering inhibited color development for manually colored 4Y-TZP but did not affect the resistance to hydrothermal aging. The findings were reversed for industrially preshaded 4Y-TZP.

Published

2021

46. Evaluating temperature increase during the polymerization of dental acrylic resin materials used for the direct fabrication of anterior deprogramming devices

Author

Savvas N. Kamalakidis, Konstantinos Michalakis, Argirios Pissiotis, Anastasios Kytidis, and Margarita Sidira

Subjects

Exothermic reaction, Materials science, Fabrication, Acrylic Resins, medicine.disease_cause, Polymerization, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Mold, Materials Testing, medicine, Polymethyl Methacrylate, Maxillary central incisor, Composite material, Acrylic resin, Inlay, Temperature, technology, industry, and agriculture, 030206 dentistry, visual_art, visual_art.visual_art_medium, Pulp (tooth), Oral Surgery

Abstract

The polymerization of acrylic resin materials used for the direct fabrication of anterior deprogramming devices results in a temperature increase because of the exothermic reaction. This heat release might cause thermal trauma to the pulp, compromising the tooth's vitality.The purpose of this in vitro study was to compare the temperature increase and the timing of the maximum temperature recording obtained inside the pulp chamber of a maxillary central incisor during the polymerization of different resins materials used for the direct fabrication of anterior deprogramming devices.The exothermic reaction was examined during the polymerization of 4 different polymethyl methacrylate resin products: Pattern Resin LS; GC America, DuraLay inlay pattern resin; Reliance Dental, Kallocryl CPGM red; Speiko, and mega-Model Resin NF; Megadental. A polymeric matrix was fabricated to simulate the anterior deprogramming device. A freshly extracted intact maxillary central incisor was fixed in an acrylic resin mold, and a thermal probe was inserted into the pulp chamber to transmit the temperature recordings. The resin materials were mixed as per the manufacturer's instructions and an equal volume of each was inserted into the plastic matrix, which was then positioned on the tooth. The temperature increase and the time needed to obtain the maximum temperature were recorded. The temperature and time recordings were performed initially for the intact tooth and repeated after the tooth was prepared for a metal-ceramic restoration. The data were analyzed with descriptive statistics, 1-way analysis of variance, and the Tukey Honestly Significant Difference tests (α=.05).In accordance with the 1-way ANOVA, there was a statistically significant difference both in temperature increase (F [7,72] = 3.72, P=.002) and in the recorded time (F [7,72] = 160.80, P.001). The mean temperature inside the pulp chamber ranged from 40.1 °C for the Pattern Resin LS to 41.4 °C for the DuraLay inlay pattern resin material. The mean time recordings ranged from 133 seconds for the Kallocryl CPGM red material to 266 seconds for the DuraLay inlay pattern resin material.The Pattern Resin LS revealed the lowest exothermic reaction (P.05) when compared with the other materials tested in this study, whereas Kallocryl CPGM red had the shortest time increase without being statistically significantly different.

Published

2021

47. Clinical efficacy of methods for bonding to zirconia: A systematic review

Author

William N. Ha, Niall P. Quigley, Clinton Choy, and Denice S.S. Loo

Subjects

business.industry, medicine.medical_treatment, Dental Bonding, Dentistry, 030206 dentistry, Dental bonding, Cochrane Library, Dental Porcelain, Prosthesis, Dental Materials, 03 medical and health sciences, Treatment Outcome, 0302 clinical medicine, Dental porcelain, Denture Design, Denture, Partial, Fixed, Medicine, Cubic zirconia, Zirconium, Clinical efficacy, Oral Surgery, business, Survival rate

Abstract

Statement of problem The polycrystalline nature of zirconia hinders its ability to bond to tooth structure. Consequently, durable bonding to zirconia has been challenging. In vitro studies have evaluated various methods of bonding to zirconia, but clinical data are sparse. Purpose The purpose of this systematic review was to critically appraise clinical studies investigating the survival rate of resin-bonded zirconia fixed partial dentures (FPDs), inlay-retained zirconia FPDs, and zirconia veneers. Material and methods Searches were performed in MEDLINE, EMBASE, PubMed, Web of Science, Scopus, Cochrane Library, and Google Scholar. Clinical studies of over 12 months duration involving bonded zirconia restorations between 1990 and July 2018 were reviewed. All suitable studies were assessed for quality by using a “Questionnaire for selecting articles on Dental Prostheses”. Results Eight studies were ultimately included. Three studies examined posterior inlay-retained FPDs with estimated survival rates of 12.1% at 10 years, 95.8% at 5 years, and 100% at 20 months. Five studies reviewed anterior, resin-bonded FPDs, all of which had a 3- to 10-year survival rate of 100%. Debonds occurred in all studies, but the prostheses could usually be rebonded. Conclusions With correctly designed buccal and lingual coverage retainers and minimal if any veneering porcelain, zirconia-based, posterior, inlay-retained FPDs seem to have a high clinical survival rate. The role of bonding efficacy in this survival rate is unknown. Anterior, cantilevered, resin-bonded zirconia FPDs seem to have a high clinical survival rate. While these prostheses can debond, fracture of the entire prosthesis is unlikely, so they may be rebonded. To bond zirconia, the use of airborne-particle abrasion with 50-μm alumina (Al2O3) at 0.1 to 0.25 MPa in combination with a phosphate monomer-containing adhesive resin is recommended until further studies become available. Dental dam isolation is also recommended during zirconia bonding.

Published

2021

48. Effect of different cement systems and aging on the bond strength of chairside CAD-CAM ceramics

Author

Seda Ustun and Elif Aydogan Ayaz

Subjects

Cement, Ceramics, Surface Properties, Bond strength, Dental Bonding, Dental Cements, 030206 dentistry, Dental bonding, Cementation (geology), Dental Porcelain, Nanoceramic, Resin Cements, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Dental porcelain, Dental cement, visual_art, Materials Testing, visual_art.visual_art_medium, Computer-Aided Design, Ceramic, Oral Surgery, Composite material, Shear Strength

Abstract

The bond strength of different chairside computer-aided design and computer-aided manufacturing (CAD-CAM) restorative materials to dentin with different resin cements needs to be evaluated.The purpose of this in vitro study was to investigate the effect of 3 different cementation systems after thermal aging on the shear bond strength of different CAD-CAM materials.The occlusal surfaces of 63 molar teeth of similar size were removed, and 21 zirconia-reinforced lithium disilicate (Vita Suprinity-VS), 21 polymer infiltrated ceramic (Vita Enamic-VE), and 21 resin nanoceramic (GC Cerasmart-GC) rectangular specimens of 2.5 mm in thickness were obtained. The ceramics were cemented using total etch (TE), self-etch (SE), and self-adhesive (SA) cement systems. Half of the specimens were subjected to thermal aging with 5000 cycles. The shear bond strength test of all the specimens was measured. Fractured ceramic surfaces were examined by scanning electron microscopy/energy dispersive X-ray spectroscopy (SEM/EDX) analysis. The Shapiro-Wilk test, 3-way analysis of variance (ANOVA), and Fisher Least Significant Difference (LSD) tests were used to analyze the shear bond strength test data (α=.05).The highest bond strength value was found in the nonthermal aged VS-TE and the lowest in the thermal aged VE-TE. Significant interaction was found between TE and SE cemented ceramics (P.001). For specimens cemented with the SA system, significant interaction was found among ceramics with thermal aged specimens (P.001). Thermal aging significantly decreased the mean bond strength (P.05).Differences in bond strength were observed in chairside CAD-CAM ceramics when cemented with TE, SE, and SA systems. Additionally, thermal aging significantly reduced the bond strength values of all the ceramic materials, regardless of the cementation procedure. Clinicians should consider these variables and choose the most suitable cementation systems for the material used.

Published

2021

49. Impact of artificial aging by thermocycling on edge chipping resistance and Martens hardness of different dental CAD-CAM restorative materials

Author

Bogna Stawarczyk, Björn Theelke, Nina Lümkemann, and Rüdiger Hampe

Subjects

Ceramics, Materials science, Surface Properties, medicine.medical_treatment, Composite number, Edge (geometry), Composite Resins, Dental Materials, 03 medical and health sciences, 0302 clinical medicine, Brittleness, Dental porcelain, Hardness, Materials Testing, Mustelidae, medicine, Animals, Ceramic, Composite material, Chip size, 030206 dentistry, Dental Porcelain, Artificial aging, visual_art, visual_art.visual_art_medium, Computer-Aided Design, Oral Surgery, Dental restoration

Abstract

Statement of problem The selection of an appropriate restorative material based on fracture behavior is important for the marginal integrity of a dental restoration. For computer-aided design and computer-aided manufacturing (CAD-CAM) restorative materials, information regarding their edge chipping resistance is scarce. Purpose The purpose of this in vitro study was to determine the edge chipping resistance (ECR) and Martens hardness (HM) of 6 different dental CAD-CAM restorative materials before and after thermocycling. Material and methods Four composite resin materials including Brilliant Crios; Cerasmart, an experimental material; Lava Ultimate, a polymer-infiltrated ceramic-network (PICN) material (VITA Enamic), and a glass-ceramic control (IPS Empress CAD) were tested. The specimens were tested before and after thermocycling (30 000 times, 5 °C/55 °C). The ECR was measured for each material (n=25) and related to the point of loading and to the maximum chipping depth. HM was determined for each material (n=25). The Kruskal-Wallis and Mann-Whitney U tests were used to compare materials (α=.05). The impact of thermocycling was analyzed by using the Wilcoxon test (α=.05). The correlations between all parameters were calculated by using the Spearman-Rho test (α=.05). For fractographic analysis of chip patterns, chipped surfaces were analyzed by laser scanning microscopy. Results For ECR and HM, the materials showed different values. ECRmd and ECRpl showed a positive correlation, but both showed a negative correlation to HM. The materials showed a different chip size (P Conclusions All tested CAD-CAM materials behaved as brittle materials, but HM and ECR differed among the materials. The control glass-ceramic material showed the highest values for HM, followed by the PICN material. ECR values revealed the opposite order of materials, with the highest for composite resins. Artificial aging by thermocycling affected all dental CAD-CAM restorative materials. Especially for composite resin materials, ECR changed after aging.

Published

2021

50. Monomer release from direct and indirect adhesive restorations: A comparative in vitro study

Author

Kirsten Van Landuyt, Lode Godderis, Partha S. Saha, Catherine Vercruyssen, Radu Corneliu Duca, Bart Van Meerbeek, Marleen Peumans, Jeroen Vanoirbeek, and Eveline Putzeys

Subjects

Technology, Ceramics, Dental material, medicine.medical_treatment, Composite number, Dental Cements, 02 engineering and technology, chemistry.chemical_compound, 0302 clinical medicine, Materials Testing, General Materials Science, Composite material, Monomer elution, Ceramic blocks, CERAMIC INLAYS, Materials Science, Biomaterials, Aqueous solution, Crowns, 021001 nanoscience & nanotechnology, Cementation (geology), RESIN, Monomer, Mechanics of Materials, Computer-Aided Design, Biocompatibility, 0210 nano-technology, Life Sciences & Biomedicine, Materials science, BLOCKS, Materials Science, Resin blocks, Composite Resins, CAD/CAM, DENTAL MATERIALS, Crown (dentistry), Dental Materials, 03 medical and health sciences, Dentistry, Oral Surgery & Medicine, medicine, Humans, General Dentistry, Cement, Science & Technology, COMPOSITE, Extraction (chemistry), 030206 dentistry, Dental Porcelain, Dental Prosthesis Design, chemistry, Adhesive

Abstract

OBJECTIVES: Indirect dental restorations produced by computer-aided design and computer-aided manufacturing (CAD/CAM) are relatively new in daily dental practice. The aim of the present study was to compare the monomer release between direct composite restorations and indirect CAD/CAM produced restorations (composite, ceramic and hybrid). METHODS: Identical crown restorations were prepared from three indirect materials (Cerasmart, Vitablocs Mark II and Vita Enamic) and one composite material (Clearfil AP-X). For each restoration, eight crown restorations were luted onto tooth samples and immersed into 2.5mL of an aqueous extraction solvent. Additionally, three nonluted crowns of each restoration type were also immersed in the extraction solvent, and served as controls. Every week, the extraction solvent was collected and refreshed, during a period of 8 weeks. The released monomers were quantified using ultra-performance liquid chromatography-tandem mass spectrometry. RESULTS: Indirect restorations release significantly lower quantities of residual monomers than direct restorations, and the monomers released by the luted indirect restorations are mainly derived from the composite material used for cementation. The quantity of monomers released by direct restorations greatly depended on the time of light polymerization. SIGNIFICANCE: In terms of monomer release, indirect restorations are a good alternative to direct restorations to limit patient exposure to residual monomers. It is important to ideally design the fit of indirect restoration so that the cement layer is as thin as possible and the monomer release from this cement layer remains as low as possible. ispartof: DENTAL MATERIALS vol:36 issue:10 pages:1275-1281 ispartof: location:England status: published

Published

2020