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Is mechanical retention for adhesive core build-up needed to restore a vital tooth with a monolithic zirconium crown? : An in vitro study

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: To show the influence of retentive cavity, cavity wall preparation and different luting techniques on the fracture resistance of severely damaged teeth restored with adhesive core build-ups and monolithic zirconium crowns. Methods: Extracted molars were prepared with 2 mm ferrule height and divided into eleven groups (n = 8/group). In nine groups a retentive occlusal cavity with a width and depth of 1 or 2 mm was prepared. Two control groups without a retentive cavity were made. Zirconium crowns were manufactured. 48 copings were cemented with glass-ionomer cement (Ketac Cem), the others (n = 40) with adhesive resin cement (Panavia F 2.0). Artificial ageing was carried out in the following way: n = 88, thermocycling (10,000 cycles, 6° C/60° C), n = 80 chewing simulation (1,200,000 cycles, 64 N). The samples were tested for load at first damage and fracture load with non-axial force. For statistical analysis ANCOVA with post hoc, Bonferroni-adjusted t-test were used ( p ≤ 0.05). Results: No differences between the tested cements were detected. Influence of the cavity wall thickness was significant ( p = 0.001). Mostly, the samples with wall thickness of 2 mm showed better results. Both control groups (no cavity) showed results comparable to study groups with cavity. Conclusions: Retentive cavity is most likely not mandatory. However, if prepared, the cavity wall thickness is of higher importance than cavity depth. Glass-ionomer and adhesive resin cement are comparable for use with zirconia crowns.
Rocznik
Strony
117--125
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
  • Department of Prosthetic Dentistry, Faculty of Medicine Carl Gustav Carus, Technische Universität Dresden, Dresden, Germany
autor
  • Department of Prosthodontics, University Hospital Heidelberg, Heidelberg, Germany
  • Division of Dental Materials, Faculty of Dentistry, Wroclaw Medical University, Wroclaw, Poland
autor
  • Institute for Medical Informatics and Biometry (IMB), Faculty of Medicine Carl Gustav Carus, Technische Universität Dresden, Dresden, Germany
autor
  • Department of Prosthodontics, University Hospital Heidelberg, Heidelberg, Germany
Bibliografia
  • [1] AL-AMLEH B., LYONS K., SWAIN M., Clinical trials in zirconia: a systematic review, J. Oral Rehabil., 2010, 37, 641–52.
  • [2] AMARAL F.L.B., COLUCCI V., PALMA-DIBB R.G., CORONA S.A.M., Assessment of In Vitro Methods Used to Promote Adhesive Interface Degradation: A Critical Review, J. Esthet. Restor. Dent., 2007, 19, 340–353.
  • [3] COTES C., CARDOSO M., MELO R.M., VALANDRO L.F., BOTTINO M.A., Effect of composite surface treatment and aging on the bond strength between a core build-up composite and a luting agent, J. Appl. Oral Sci., 2015, 23, 71–8.
  • [4] DROSCHL H.H., WENDL B., Comparison of bond strength using various fixation methods, World J. Orthod., 2007, 8, 153–6.
  • [5] FOKKINGA W.A., KREULEN C.M., LE BELL-RONNLOF A.M., LASSILA L.V., VALLITTU P.K., CREUGERS N.H., In vitro fracture behavior of maxillary premolars with metal crowns and several post-and-core systems, Eur. J. Oral Sci., 2006, 114, 250–6.
  • [6] FONTIJN-TEKAMP F.A., SLAGTER A.P., VAN DER BILT A., VAN T., HOF M.A., WITTER D.J., KALK W., JANSEN J.A., Biting and chewing in overdentures, full dentures, and natural dentitions, J. Dent. Res., 2000, 79, 1519–24.
  • [7] GOODACRE C.J., CAMPAGNI W.V., AQUILINO S.A., Tooth preparations for complete crowns: an art form based on scientific principles, J. Prosthet. Dent., 2001, 85, 363– 76.
  • [8] HEINTZE S.D., Crown pull-off test (crown retention test) to evaluate the bonding effectiveness of luting agents, Dent. Mater., 2010, 26, 193–206.
  • [9] KERN M., Bonding to oxide ceramics-laboratory testing versus clinical outcome, Dent. Mater., 2015, 31, 8–14.
  • [10] KOMINE F., FUSHIKI R., KOIZUKA M., TAGUCHI K., KAMIO S., MATSUMURA H., Effect of surface treatment on bond strength between an indirect composite material and a zirconia framework, J. Oral. Sci., 2012, 54, 39–46.
  • [11] LARSSON C., WENNERBERG A., The clinical success of zirconia-based crowns: a systematic review, Int. J. Prosthodont., 2014, 27, 33–43.
  • [12] LUTHY H., LOEFFEL O., HAMMERLE C.H., Effect of thermocycling on bond strength of luting cements to zirconia ceramic, Dent. Mater., 2006, 22, 195–200.
  • [13] MIYAZAKI T., NAKAMURA T., MATSUMURA H., BAN S., KOBAYASHI T., Current status of zirconia restoration, J. Prosthodont. Res., 2013, 57, 236–61.
  • [14] NG Y. L., MANN V., RAHBARAN S., LEWSEY J., GULABIVALA K., Outcome of primary root canal treatment: systematic review of the literature - part 1. Effects of study characteristics on probability of success, Int. Endod. J., 2007, 40, 921–39.
  • [15] OZCAN M., BERNASCONI M., Adhesion to zirconia used for dental restorations: a systematic review and meta-analysis, J. Adhes. Dent., 2015, 17, 7–26.
  • [16] RAMMELSBERG P., ABU-ELYAN M., ERDELT K., In-vitro study of adhesive core materials under crowned teeth., Deutsch. Zahnärtl. Z., 2001, 56, 589–593.
  • [17] RINKE S., LANGE K., ROEDIGER M., GERSDORFF N., Risk factors for technical and biological complications with zirconia single crowns, Clin. Oral Investig., 2015, 19, 1999–2006 .
  • [18] RODRIGUES S. A., JR., FERRACANE J. L., DELLA BONA A., Influence of surface treatments on the bond strength of repaired resin composite restorative materials, Dent. Mater., 2009, 25, 442–51.
  • [19] ROSENTRITT M., PLEIN T., KOLBECK C., BEHR M., HANDEL G., In vitro fracture force and marginal adaptation of ceramic crowns fixed on natural and artificial teeth, Int. J. Prosthodont., 2000, 13, 387–91.
  • [20] SCHLEY J.S., HEUSSEN N., REICH S., FISCHER J., HASELHUHN K., WOLFART S., Survival probability of zirconia-based fixed dental prostheses up to 5 yr: a systematic review of the literature, Eur. J. Oral Sci., 2010, 118, 443–50.
  • [21] SCHMITTER M., MUSSOTTER K., OHLMANN B., GILDE H., RAMMELSBERG P., Dependence of in vitro fracture strength of adhesive core buildup and crown complexes on preparation design and cementation technique, J. Adhes. Dent., 2008, 10, 145–50.
  • [22] SCHMITTER M., POSAVEC T., MUELLER D., MUSSOTTER K., RAMMELSBERG P., RUES S., Failure load of teeth restored by use of alumina copings: Influence of residual tooth structure and cementation, Dent. Mater. J., 2013, 32, 537–43.
  • [23] SCHWARTZ R.S., ROBBINS J.W., Post placement and restoration of endodontically treated teeth: a literature review, J. Endod., 2004, 30, 289–301.
  • [24] SCHWINDLING F.S., HARTMANN T., PANAGIDIS D., KRISAM J., RUES S., SCHMITTER M., In vitro investigation on extensively destroyed vital teeth: is fracture force a limiting factor for direct restoration?, J. Oral Rehabil., 2014, 41, 920–7.
  • [25] TITLEY K.C., CHERNECKY R., ROSSOUW P. E., KULKARNI G.V., The effect of various storage methods and media on shear-bond strengths of dental composite resin to bovine dentine, Arch. Oral Biol., 1998, 43, 305–11.
  • [26] TJADERHANE L., NASCIMENTO F.D., BRESCHI L., MAZZONI A., TERSARIOL I.L., GERALDELI S., TEZVERGIL-MUTLUAY A., CARRILHO M.R., CARVALHO R.M., TAY F.R., PASHLEY D.H., Optimizing dentin bond durability: control of collagen degradation by matrix metalloproteinases and cysteine cathepsins, Dent. Mater., 2013, 29, 116–35.
  • [27] TORBJORNER A., FRANSSON B., A literature review on the prosthetic treatment of structurally compromised teeth, Int. J. Prosthodont., 2004, 17, 369–76.
  • [28] TURP V., SEN D., TUNCELLI B., OZCAN M., Adhesion of 10-MDP containing resin cements to dentin with and without the etch-and-rinse technique, J. Adv. Prosthodont., 2013, 5, 226–33.
  • [29] VAN MEERBEEK B., PERDIGÃO J., LAMBRECHTS P., VANHERLE G., The clinical performance of adhesive, J. Dent., 1998, 26, 1–20.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-af7246dc-c978-4db3-a59c-5110952fafcc
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