Browse > Article
http://dx.doi.org/10.4047/jap.2011.3.3.126

Curing efficiency of various resin-based materials polymerized through different ceramic thicknesses and curing time  

Lee, Jung-Won (Department of Dentistry, College of Medicine, University of Ulsan)
Cha, Hyun-Suk (Department of Dentistry, College of Medicine, University of Ulsan)
Lee, Joo-Hee (Department of Dentistry, College of Medicine, University of Ulsan)
Publication Information
The Journal of Advanced Prosthodontics / v.3, no.3, 2011 , pp. 126-131 More about this Journal
Abstract
PURPOSE. The aim of this in vitro study was to examine the curing efficiency of various resin-based materials polymerized through ceramic restorations with 3 different thicknesses. Curing efficiency was evaluated by determining the surface microhardness (VHN) of the resin specimens. MATERIALS AND METHODS. Four kinds of resin materials were used. Z350 (3M ESPE $Filtek^{TM}$ Z350: A2 Shade), Z250 (3M ESPE $Filtek^{TM}$ Z250: A2 Shade) and $Variolink^{(R)}$ II (VL: Ivoclar vivadent, base: transparent) either with or without a self-curing catalyst (VLC: Ivoclar vivadent, catalyst: low viscosity/transparent) were filled into the silicone mold (10 mm diameter, 1 mm thick). They were cured through ceramic discs (IPS e.max Press MO-0 ingot ivoclar vivadent, 10 mm diameter, 0.5, 1 and 2 mm thicknesses) by LED light-curing units for 20 and 40 seconds. Vicker's microhardness numbers (VHNs) were measured on the bottom surfaces by a microhardness tester. Data were analyzed using a 3-way analysis of variance (ANOVA) at a significance level of 0.05. RESULTS. The thickness of ceramic disc increased, the VHNs of all four resin types were decreased (P<.05). The mean VHN values of the resins light cured for 40 seconds were significantly higher than that of LED for 20 seconds in all four resin materials (P<.05). VLC showed significantly higher VHN values than VL regardless of other conditions (P<.05). Z350 and Z250 showed higher values than VL or VLC (P<.01). CONCLUSION. Thinner ceramic disc with increased curing time resulted higher VHN values of all resin materials. The use of a catalyst produced a greater hardness with all polymerization methods. Restorative resin materials (Z350, Z250) showed higher VHN values than resin cement materials (VL, VLC).
Keywords
Dental ceramic; VHN; Resin-based material; Light curing;
Citations & Related Records
연도 인용수 순위
  • Reference
1 van Meerbeek B, Inokoshi S, Davidson CL, De Gee AJ, Lambrechts P, Braem M, Vanherle G. Dual cure luting composites- Part II: Clinically related properties. J Oral Rehabil 1994;21:57-66.   DOI   ScienceOn
2 Santos GC Jr, El-Mowafy O, Rubo JH, Santos MJ. Hardening of dual-cure resin cements and a resin composite restorative cured with QTH and LED curing units. J Can Dent Assoc 2004;70: 323-8.
3 Rueggeberg FA, Ergle JW, Mettenburg DJ. Polymerization depths of contemporary light-curing units using microhardness. J Esthet Dent 2000;12:340-9.   DOI
4 Magne P, Belser U. Bonded porcelain restorations in the anterior dentition-a biomimetic approach. Chicago: Quintessence Publishing Co., 2002.
5 Jung H, Friedl KH, Hiller KA, Haller A, Schmalz G. Curing efficiency of different polymerization methods through ceramic restorations. Clin Oral Investig 2001;5:156-61.   DOI   ScienceOn
6 Rasetto FH, Driscoll CF, von Fraunhofer JA. Effect of light source and time on the polymerization of resin cement through ceramic veneers. J Prosthodont 2001;10:133-9.   DOI   ScienceOn
7 Moon HJ, Lee YK, Lim BS, Kim CW. Effects of various light curing methods on the leachability of uncured substances and hardness of a composite resin. J Oral Rehabil 2004;31:258-64.   DOI   ScienceOn
8 Asmussen E. Restorative resins: hardness and strength vs. quantity of remaining double bonds. Scand J Dent Res 1982; 90:484-9.
9 Caughman WF, Caughman GB, Shiflett RA, Rueggeberg F, Schuster GS. Correlation of cytotoxicity, filler loading and curing time of dental composites. Biomaterials 1991;12:737-40.   DOI   ScienceOn
10 Rueggeberg FA, Caughman WF. The influence of light exposure on polymerization of dual-cure resin cements. Oper Dent 1993;18:48-55.
11 O'Keefe KL, Pease PL, Herrin HK. Variables affecting the spectral transmittance of light through porcelain veneer samples. J Prosthet Dent 1991;66:434-8.   DOI   ScienceOn
12 Brodbelt RH, O'Brien WJ, Fan PL. Translucency of dental porcelains. J Dent Res 1980;59:70-5.   DOI   ScienceOn
13 Akgungor G, Akkayan B, Gaucher H. Influence of ceramic thickness and polymerization mode of a resin luting agent on early bond strength and durability with a lithium disilicate-based ceramic system. J Prosthet Dent 2005;94:234-41.   DOI   ScienceOn
14 Rueggeberg FA, Craig RG. Correlation of parameters used to estimate monomer conversion in a light-cured composite. J Dent Res 1988;67:932-7.   DOI   ScienceOn
15 Koch A, Kroeger M, Hartung M, Manetsberger I, Hiller KA, Schmalz G, Friedl KH. Influence of ceramic translucency on curing efficacy of different light-curing units. J Adhes Dent 2007;9:449-62.
16 Peutzfeldt A, Asmussen E. The effect of postcuring on quantity of remaining double bonds, mechanical properties, and in vitro wear of two resin composites. J Dent 2000;28:447-52.   DOI   ScienceOn
17 Pianelli C, Devaux J, Bebelman S, Leloup G. The micro- Raman spectroscopy, a useful tool to determine the degree of conversion of light-activated composite resins. J Biomed Mater Res 1999;48:675-81.   DOI   ScienceOn
18 Shortall AC, Harrington E. Effect of light intensity on polymerisation of three composite resins. Eur J Prosthodont Restor Dent 1996;4:71-6.
19 Hooshmand T, Mahmoodi N, Keshvad A. Microhardness of a resin cement polymerized by light-emitting diode and halogen lights through ceramic. J Prosthodont 2009;18:411-6.   DOI   ScienceOn
20 El-Mowafy OM, Rubo MH. Influence of composite inlay/onlay thickness on hardening of dual-cured resin cements. J Can Dent Assoc 2000;66:147.
21 Cheong C, King NM, Pashley DH, Ferrari M, Toledano M, Tay FR. Incompatibility of self-etch adhesives with chemical/dualcured composites: two-step vs one-step systems. Oper Dent 2003;28:747-55.
22 Garber DA, Goldstein RE. Porcelain and composite inlays and onlays: esthetic posterior restorations. Chicago; Quintessence Publishing Co.; 1994.
23 Hofmann N, Papsthart G, Hugo B, Klaiber B. Comparison of photo- activation versus chemical or dual-curing of resin-based luting cements regarding flexural strength, modulus and surface hardness. J Oral Rehabil 2001;28:1022-8.   DOI   ScienceOn
24 Suh BI, Feng L, Pashley DH, Tay FR. Factors contributing to the incompatibility between simplified-step adhesives and chemically- cured or dual-cured composites. Part III. Effect of acidic resin monomers. J Adhes Dent 2003;5:267-82.
25 Calamia JR, Calamia CS. Porcelain laminate veneers: reasons for 25 years of success. Dent Clin North Am 2007;51:399-417.   DOI   ScienceOn
26 Strang R, Macdonald I, O'Hagan S, Murray J, Stephen KW. Variations in performance of curing light units by determination of composite resin setting time. Br Dent J 1987;162:63-5.   DOI   ScienceOn
27 Blackman R, Barghi N, Duke E. Influence of ceramic thickness on the polymerization of light-cured resin cement. J Prosthet Dent 1990;63:295-300.   DOI   ScienceOn