Current status of zirconia-based fixed restorations.

Zirconium dioxide (zirconia) ceramics are currently used for fixed restorations as a framework material due to their mechanical and optical properties. This review article describes the current status of zirconia-based fixed restorations, including results of current in vitro studies and the clinical performance of these restorations. Adaptation of zirconia-based restorations fabricated with CAD/CAM technology is within an acceptable range to meet clinical requirements. In terms of fracture resistance, zirconia-based fixed partial dentures (FPDs) have the potential to withstand physiological occlusal forces applied in the posterior region, and therefore provide interesting alternatives to metal-ceramic restorations. Clinical evaluations have indicated an excellent clinical survival of zirconia-based FPDs and crown restorations. However, some clinical studies have revealed a high incidence of chipping of veneered porcelain. Full-coverage zirconia-based restorations with adequate retention do not require resin bonding for definitive cementation. Resin bonding, however, may be advantageous in certain clinical situations and is a necessity for bonded restorations, such as resin-bonded FPDs. Combined surface treatment using airborne particle abrasion and specific adhesives with a hydrophobic phosphate monomer are currently reliable for bonding to zirconia ceramics. Further clinical and in vitro studies are needed to obtain long-term clinical information on zirconia-based restorations.

[1]  W. Mörmann,et al.  Marginal and internal fit of all-ceramic CAD/CAM crown-copings on chamfer preparations. , 2005, Journal of oral rehabilitation.

[2]  T. Gerds,et al.  Fracture resistance of different zirconium dioxide three-unit all-ceramic fixed partial dentures , 2007, Acta odontologica Scandinavica.

[3]  P. Vult von Steyern,et al.  Fracture strength of four-unit Y-TZP FPD cores designed with varying connector diameter. An in-vitro study. , 2007, Journal of oral rehabilitation.

[4]  M Heller,et al.  Mechanical properties and short-term in-vivo evaluation of yttrium-oxide-partially-stabilized zirconia. , 1989, Journal of biomedical materials research.

[5]  T. Gerds,et al.  Influence of framework configuration on the marginal adaptation of zirconium dioxide ceramic anterior four-unit frameworks , 2005, Acta odontologica Scandinavica.

[6]  Hideo Matsumura,et al.  Influence of convergence angle and cement space on adaptation of zirconium dioxide ceramic copings , 2008, Acta odontologica Scandinavica.

[7]  Mine Dundar,et al.  Influence of cervical finish line type on the marginal adaptation of zirconia ceramic crowns. , 2009, Operative dentistry.

[8]  José F L Lozano,et al.  A comparison of the marginal vertical discrepancies of zirconium and metal ceramic posterior fixed dental prostheses before and after cementation. , 2009, The Journal of prosthetic dentistry.

[9]  S. Koutayas,et al.  Zirconia in dentistry: Part 1. Discovering the nature of an upcoming bioceramic. , 2009, The European journal of esthetic dentistry : official journal of the European Academy of Esthetic Dentistry.

[10]  Daniel Edelhoff,et al.  Marginal and internal fits of fixed dental prostheses zirconia retainers. , 2009, Dental materials : official publication of the Academy of Dental Materials.

[11]  M. Rosentritt,et al.  Fracture characteristics of anterior resin-bonded zirconia-fixed partial dentures , 2009, Clinical Oral Investigations.

[12]  K. Akca,et al.  CAD/CAM ZIRCONIA VS. SLIP-CAST GLASS-INFILTRATED ALUMINA/ZIRCONIA ALL-CERAMIC CROWNS: 2-YEAR RESULTS OF A RANDOMIZED CONTROLLED CLINICAL TRIAL , 2009, Journal of applied oral science : revista FOB.

[13]  M. Kılıçarslan,et al.  Effect of zirconium-oxide ceramic surface treatments on the bond strength to adhesive resin. , 2006, The Journal of prosthetic dentistry.

[14]  M. Kern,et al.  Four-year clinical results of fixed dental prostheses with zirconia substructures (Cercon): end abutments vs. cantilever design. , 2009, European journal of oral sciences.

[15]  J. Strub,et al.  ZrO2 three-unit fixed partial dentures: comparison of failure load before and after exposure to a mastication simulator. , 2007, Journal of oral rehabilitation.

[16]  Florian Beuer,et al.  Precision of fit: zirconia three-unit fixed dental prostheses , 2009, Clinical Oral Investigations.

[17]  S. Holst,et al.  Influence of surface treatment and simulated aging on bond strengths of luting agents to zirconia. , 2007, Quintessence international.

[18]  Moustafa N. Aboushelib,et al.  Selective infiltration-etching technique for a strong and durable bond of resin cements to zirconia-based materials. , 2007, The Journal of prosthetic dentistry.

[19]  Lothar Borchers,et al.  Marginal accuracy of four-unit zirconia fixed dental prostheses fabricated using different computer-aided design/computer-aided manufacturing systems. , 2009, European journal of oral sciences.

[20]  Matthias Kern,et al.  Effect of different artificial aging conditions on ceramic-composite bond strength. , 2002, The International journal of prosthodontics.

[21]  Andreas Bindl,et al.  Fit of all-ceramic posterior fixed partial denture frameworks in vitro. , 2007, The International journal of periodontics & restorative dentistry.

[22]  Irena Sailer,et al.  Five-year clinical results of zirconia frameworks for posterior fixed partial dentures. , 2007, The International journal of prosthodontics.

[23]  S. Rinke,et al.  Prospective evaluation of zirconia posterior fixed partial dentures: four-year clinical results. , 2013, The International journal of prosthodontics.

[24]  Hideo Matsumura,et al.  Marginal and internal adaptation of zirconium dioxide ceramic copings and crowns with different finish line designs. , 2007, Dental materials journal.

[25]  R. T. Pascoe,et al.  Ceramic steel? , 1975, Nature.

[26]  B. Reitz,et al.  Zirconia-TZP and alumina--advanced technologies for the manufacturing of single crowns. , 1999, The European journal of prosthodontics and restorative dentistry.

[27]  J M Crolet,et al.  Biomechanical Compatibility and Design of Ceramic Implants for Orthopedic Surgery , 1988, Annals of the New York Academy of Sciences.

[28]  Lothar Borchers,et al.  Different CAD/CAM-processing routes for zirconia restorations: influence on fitting accuracy , 2011, Clinical Oral Investigations.

[29]  P. Vallittu,et al.  Effect of surface conditioning methods on the bond strength of luting cement to ceramics. , 2003, Dental materials : official publication of the Academy of Dental Materials.

[30]  D. Edelhoff,et al.  HIP zirconia fixed partial dentures--clinical results after 3 years of clinical service. , 2008, Quintessence international.

[31]  M. Molin,et al.  Bond strength of composite luting cement to zirconia ceramic surfaces. , 2005, Dental materials : official publication of the Academy of Dental Materials.

[32]  G. Sjögren,et al.  Fracture resistance of yttrium oxide partially-stabilized zirconia all-ceramic bridges after veneering and mechanical fatigue testing. , 2005, Dental materials : official publication of the Academy of Dental Materials.

[33]  Lothar Borchers,et al.  Stresses and distortions within zirconia-fixed dental prostheses due to the veneering process. , 2009, Acta biomaterialia.

[34]  P. Vigolo,et al.  An in vitro evaluation of fit of zirconium-oxide-based ceramic four-unit fixed partial dentures, generated with three different CAD/CAM systems, before and after porcelain firing cycles and after glaze cycles. , 2008, Journal of prosthodontics : official journal of the American College of Prosthodontists.

[35]  M. Schmitter,et al.  Clinical performance of extended zirconia frameworks for fixed dental prostheses: two-year results. , 2009, Journal of oral rehabilitation.

[36]  José F L Lozano,et al.  Marginal fit of Zirconia posterior fixed partial dentures. , 2008, The International journal of prosthodontics.

[37]  P VultvonSteyern,et al.  All-ceramic fixed partial dentures. Studies on aluminum oxide- and zirconium dioxide-based ceramic systems. , 2005 .

[38]  S. Holst,et al.  Zirconia posterior fixed partial dentures: a prospective clinical 3-year follow-up. , 2009, The International journal of prosthodontics.

[39]  Takashi Miyazaki,et al.  Effect of sintering on the marginal and internal fit of CAD/CAM-fabricated zirconia frameworks. , 2007, Dental materials journal.

[40]  P Carlson,et al.  All-ceramic fixed partial dentures designed according to the DC-Zirkon technique. A 2-year clinical study. , 2005, Journal of oral rehabilitation.

[41]  M. Kern,et al.  Bonding to zirconia ceramic: adhesion methods and their durability. , 1998, Dental materials : official publication of the Academy of Dental Materials.

[42]  F. Komine,et al.  A single-retainer zirconium dioxide ceramic resin-bonded fixed partial denture for single tooth replacement: a clinical report. , 2005, Journal of oral science.

[43]  Hang Wang,et al.  The effects of thermal mismatch and fabrication procedures on the deflection of layered all-ceramic discs. , 2005, Dental materials : official publication of the Academy of Dental Materials.

[44]  N. Heussen,et al.  Clinical behavior of zirconia-based fixed partial dentures made of DC-Zirkon: 3-year results. , 2008, The International journal of prosthodontics.

[45]  L. Gauckler,et al.  Prospective clinical study of zirconia posterior fixed partial dentures: 3-year follow-up. , 2006, Quintessence international.

[46]  H. Koizumi,et al.  Influence of priming agents on the short-term bond strength of an indirect composite veneering material to zirconium dioxide ceramic. , 2009, Quintessence international.

[47]  Anders Ortorp,et al.  A 3-year retrospective and clinical follow-up study of zirconia single crowns performed in a private practice. , 2009, Journal of dentistry.

[48]  M. Steiner,et al.  Fracture strength of prefabricated all-ceramic posterior inlay-retained fixed dental prostheses. , 2010, Dental materials : official publication of the Academy of Dental Materials.

[49]  Markus B Blatz,et al.  In vitro evaluation of shear bond strengths of resin to densely-sintered high-purity zirconium-oxide ceramic after long-term storage and thermal cycling. , 2004, The Journal of prosthetic dentistry.

[50]  U. Lohbauer,et al.  The effect of finish line preparation and layer thickness on the failure load and fractography of ZrO2 copings. , 2008, The Journal of prosthetic dentistry.

[51]  M. Molin,et al.  Five-year clinical prospective evaluation of zirconia-based Denzir 3-unit FPDs. , 2008, The International journal of prosthodontics.

[52]  J. D. Brewer,et al.  Effect of two connector designs on the fracture resistance of all-ceramic core materials for fixed dental prostheses. , 2009, The Journal of prosthetic dentistry.

[53]  D. Edelhoff,et al.  Prospective study of zirconia-based restorations: 3-year clinical results. , 2010, Quintessence international.

[54]  Per Vult von Steyern,et al.  Fracture strength of three-unit fixed partial denture cores (Y-TZP) with different connector dimension and design. , 2009, Swedish dental journal.

[55]  R Sjölin,et al.  The Decim system for the production of dental restorations. , 1999, International journal of computerized dentistry.

[56]  M. Stiesch,et al.  Influence of the veneering process on the marginal fit of zirconia fixed dental prostheses. , 2010, Journal of oral rehabilitation.

[57]  G. Sjögren,et al.  Fracture resistance of all-ceramic zirconia bridges with differing phase stabilizers and quality of sintering. , 2006, Dental materials : official publication of the Academy of Dental Materials.

[58]  M. Kern,et al.  Long-term resin bond strength to zirconia ceramic. , 2000, The journal of adhesive dentistry.

[59]  P Schärer,et al.  Reliability and strength of all-ceramic dental restorations fabricated by direct ceramic machining (DCM). , 2001, International journal of computerized dentistry.

[60]  Ariel J Raigrodski,et al.  The efficacy of posterior three-unit zirconium-oxide-based ceramic fixed partial dental prostheses: a prospective clinical pilot study. , 2006, The Journal of prosthetic dentistry.

[61]  H. Koizumi,et al.  Adhesive bonding of zirconia with single-liquid acidic primers and a tri-n-butylborane initiated acrylic resin. , 2010, The journal of adhesive dentistry.

[62]  J. Tinschert,et al.  Fracture resistance of lithium disilicate-, alumina-, and zirconia-based three-unit fixed partial dentures: a laboratory study. , 2001, The International journal of prosthodontics.

[63]  Yoav Finer,et al.  Fracture strength and fatigue resistance of all-ceramic molar crowns manufactured with CAD/CAM technology. , 2008, Journal of prosthodontics : official journal of the American College of Prosthodontists.

[64]  Matthias Kern,et al.  Clinical long-term survival of two-retainer and single-retainer all-ceramic resin-bonded fixed partial dentures. , 2005, Quintessence international.

[65]  R. Crisp,et al.  A clinical evaluation of all-ceramic bridges placed in UK general dental practices: first-year results , 2008, BDJ.

[66]  H. Miura,et al.  Internal coating of zirconia restoration with silica-based ceramic improves bonding of resin cement to dental zirconia ceramic. , 2010, Bio-medical materials and engineering.

[67]  K. Ludwig,et al.  Fracture strength of all-ceramic posterior inlay-retained fixed partial dentures. , 2007, Dental materials : official publication of the Academy of Dental Materials.

[68]  E. Richter,et al.  Effect of design of all-ceramic resin-bonded fixed partial dentures on clinical survival rate. , 2006, The international journal of periodontics & restorative dentistry.

[69]  Edward McLaren,et al.  CAD/CAM Dental technology. , 2011, Compendium of continuing education in dentistry.

[70]  Wael Att,et al.  Marginal adaptation of three different zirconium dioxide three-unit fixed dental prostheses. , 2009, The Journal of prosthetic dentistry.

[71]  C. Marchack,et al.  Customization of milled zirconia copings for all-ceramic crowns: a clinical report. , 2008, The Journal of prosthetic dentistry.

[72]  H. Rudolph,et al.  Fracture performance of computer-aided manufactured zirconia and alloy crowns. , 2009, Quintessence international.

[73]  Irena Sailer,et al.  Randomized controlled clinical trial of zirconia-ceramic and metal-ceramic posterior fixed dental prostheses: a 3-year follow-up. , 2009, The International journal of prosthodontics.

[74]  D Suttor,et al.  LAVA--the system for all-ceramic ZrO2 crown and bridge frameworks. , 2001, International journal of computerized dentistry.

[75]  P Schärer,et al.  Zirconia posts: a new all-ceramic concept for nonvital abutment teeth. , 1995, Journal of esthetic dentistry.

[76]  D. Edelhoff,et al.  Three-year clinical prospective evaluation of zirconia-based posterior fixed dental prostheses (FDPs) , 2009, Clinical Oral Investigations.

[77]  D. Edelhoff,et al.  Influence of preparation angle on marginal and internal fit of CAD/CAM-fabricated zirconia crown copings. , 2009, Quintessence international.

[78]  D. Edelhoff,et al.  Noteworthy Abstracts of the Current Literature High strength CAD/CAM fabricated veneering material sintered to zirconia copings - A new fabrication mode for all-ceramic restorations , 2009 .

[79]  L. Winchester Bond strengths of five different ceramic brackets: an in vitro study. , 1991, European journal of orthodontics.

[80]  J. Sorensen,et al.  The shear bond strength between luting cements and zirconia ceramics after two pre-treatments. , 2005, Operative dentistry.

[81]  B. Calès,et al.  Long-term in vivo and in vitro aging of a zirconia ceramic used in orthopaedy. , 1994, Journal of biomedical materials research.