瓷贴面修复体与牙釉质黏结强度的研究进展

摘要/Abstract

摘要： 瓷贴面因其微创、美观而成为临床应用的热点。瓷贴面的黏结效果如何,是成功修复的关键。高矿化低水分的牙釉质为瓷贴面黏结提供了理想部位,本文就瓷贴面修复体的材料种类、树脂黏结剂、黏结面的表面处理、黏结层厚度等影响瓷贴面修复体与牙釉质黏结强度的相关因素的研究进展作一综述。

关键词: 瓷, 贴面, 黏结

Abstract: Porcelain veneer had gained more and more attention in dental clinical applications due to its advantages such as good esthetic effects and minor invasiveness. The reliable and consistent adhesive bonding were the key to success. The enamel which featured high mineralization and low moisture would be the ideal bonding part for porcelain veneer. This article was aimed to summarize the research progress regarding to those factors that might had effect on the bonding strength between the porcelain veneer and the enamel including the restoration types of resin adhesives and bonding surface preparations.

Key words: Porcelain, Veneer, Bonding

中图分类号:

R783.3

程竑, 张富强. 瓷贴面修复体与牙釉质黏结强度的研究进展[J]. 上海口腔医学, 2014, 23(1): 120-125.

CHENG Hong, ZHANG Fu-qiang. Research progress of bonding strength between procelain veneer and enamel[J]. Shanghai Journal of Stomatology, 2014, 23(1): 120-125.

参考文献

[1] Filho AM, Vieira LC, Araújo E, et al. Effect of different ceramic surface treatment on resin microtensile bond strength[J]. J Prosthodont, 2004, 13(1): 28-35.
[2] Kumbuloglu O, User A, Toksavul S, et al. Intra-oral adhesive systems for ceramic repairs: a comparison[J]. Acta Odontol Scand, 2003, 61(5): 268-272.
[3] Komine F, Tomic M, Gerds T, et al. Influence of different adhesive resin cements on the fracture strength of aluminum oxide ceramic posterior crowns[J]. J Prosthet Dent, 2004, 92(4): 359-364.
[4] Burke FJ, Fleming GJ, Nathanson D, et al. Are adhesive technologies needed to support ceramics? An assessment of the current evidence [J]. J Adhes Dent, 2002, 4(1): 7-22.
[5] Chaiyabutr Y, McGowan S, Phillips KM, et al. The effect of hydrofluoric acid surface treatment and bond strength of a zirconia veneering ceramic[J]. J Prosthet Dent, 2008, 100(3): 194-202.
[6] Calamia JR, Calamia CS. Porcelain laminate veneers: reasons for 25 years of success [J]. Dent Clin North Am, 2007, 51(2): 399-417.
[7] Chang JC, Hart DA, Estey AW, et al. Tensile bond strengths of five luting agents to two CAD/CAM restoration materials and enamel [J]. J Prosthet Dent, 2003, 90(1): 18-23.
[8] Vallittu PK, Forss H. A study of bonding glass polyalkenoate cement to the surface of dental ceramic material [J]. Int Dent J, 1997, 47(1): 53-58.
[9] Reis AF, Giannin M, Kauaguchi A, et al. Comparison of microtensile bond strength to enamel and dentin of human, bovine, and porcine teeth[J]. J Adhes Dent, 2004, 6(2): 117-121.
[10] Peumans M, De Munck J, Fieuws S, et al. A prospective ten-year clinical trial of porcelain veneers[J]. J Adhes Dent, 2004, 6(1): 165-176.
[11] Fleming GJ, Maguire FR, Bhamra G, et al. The strengthening mechanism of resin cements on porcelain surfaces[J]. J Dent Res, 2006, 85(3): 272-276.
[12] Klosa K, Wolfart S, Lemann F, et al. The effect of storage conditions, contamination modes and cleaning procedures on the resin bond strength to lithium disilicate ceramic[J]. J Adhes Dent, 2009, 11(2): 127-135.
[13] Fischer H, Schfer M, Marx R. Effect of surface roughness on flexural strength of veneer ceramics[J]. J Dent Res, 2003, 82(12): 972-975.
[14] Kern M, Thompson VP. Sandblasting and silica coating of a glass-infiltrated alumina ceramic: volume loss, morphology, and changes in the surface composition[J]. J Prosthet Dent,1994,71(5): 453-461.
[15] Kussano CM, Bonfante G, Batista JG, et al. Evaluation of shear bond strength of composite to porcelain according to surface treatment [J]. Braz Dent J, 2003, 14(2): 132-135.
[16] Aida M, Hayakawa T, Mizukawa K. Adhension of composite to porcelain with various surface conditions[J]. J Prosthet Dent, 1995, 73(5): 464-470.
[17] Kermanshah H, Borougeni AT, Bitaraf T. Comparison of the microshear bond strength of feldspathic porcelain to enamel with three luting resins [J]. J Prothodont Res, 2011, 55(2): 101-106.
[18] Awliya W, Odén A, Yaman P, et al. Shear bong strength of a resin cement of densely sintered high-purity alumina with various surface conditions[J]. Acta Odontol Scand, 1998, 56(1): 9-13.
[19] Piotrowski PR. Comparative studies on the adhesion of a silicone elastomer to a chromium-cobalt dental alloy[J]. Eur J Prosthodont Reter Dent, 2001, 9(2): 141-146.
[20] Ozcan M, Alkumru HN, Gemalmaz D. The effect of surface treatment on the shear bond strength of luting cement to a glass-infilitrated alumina ceramic[J]. Int J Prothodont, 2001, 14(4): 335-339.
[21] Blixt M, Adamczak E, Lindén LA, et al. Bonding to densely sintered alumina surface: effect of sandblasting and silica coating on shear bond strength of luting cements [J]. Int J Prothodont, 2000, 13(2): 221-226.
[22] Madani M, Chu FC, Mcdonald AV, et al. Effect of surface treatments on shear bond strength between a resin cement and alumina core [J]. J Proshet Dent, 2000, 83(6): 644-647.
[23] Chaiyabutr Y, McGowan S, Phillips KM, et al. The effect of hydrofluoric acid surface treatment and bond strenth of a zirconia veneering ceramic [J]. J Prosthet Dent, 2008, 100(3): 194-202.
[24] Dérand P, Dérand T. Bond strength of luting cements to zirconium oxide ceramics[J]. Int J Prothodont,2000,13(2):131-135.
[25] Kern M, Wegner SM. Bonding to zirconia ceramic: adhesion methods and their durability [J]. Dent Mater, 1998, 14(1): 64-71.
[26] Koizumi H, Nakayama D, Komine F, et al. Bonding of resin-based luting cements to zirconia with and without the use of ceramic priming agents [J]. J Adhes Dent, 2012, 14(4): 385-392.
[27] Chen C, Kleverlaan CJ, Feilzer AJ. Effect of an experimental zirconia-silica coating technique on micro tensile bond strength of zirconia in different priming conditions [J]. Dent Mater, 2012, 28(8): e127-134.
[28] Queiroz JR, Massi M, Nogueira L Jr, et al. Silica-based nano-coating on zirconia surfaces using reactive magnetron sputtering: effect on chemical adhesion of resin cements [J]. J Adhes Dent, 2013, 15(2): 151-159.
[29] Akin H, Ozkurt Z, Kirmali O, et al. Shear bond strength of resin cement to zirconia ceramic after aluminum oxide sandblasting and various laser treatments[J]. Photomed Laser Surg,2011,29(12): 797-802.
[30] Subasi MG, Inan O. Influence of surface treatments and resin cement selection on bonding to zirconia [J]. Lasers Med Sci, 2014,29(1):19-27.
[31] Freedman G, Leinfelder K. Seventh-generation adhesive systems [J]. Dent Today, 2002, 21(11): 106-111.
[32] Chang JC, Hurst TL, Hart DA, et al. 4-META use in dentistry: a literature review [J]. J Prosthet Dent, 2002, 87(2): 216-224.
[33] Fleming GJ, Jandu HS, Nolan L, et al. The influence of alumina abrasion and cement lute on the strength of a porcelain laminate veneering material [J]. J Dent, 2004, 32(1): 67-74.
[34] 张方明, 赵云凤, 陈新民. Plat铸造陶瓷与牙釉质黏结强度的研究 [J]. 现代口腔医学杂志, 2002, 16(3): 222-223.
[35] Bhamra G, Palin WM, Fleming GJ. The effect of surface roughness on the flexure strength of an alumina reinforced all-ceramic crown material [J]. J Dent, 2002, 30(4): 153-160.
[36] Alkhiary YM, Morgano SM, Giordano RA. Effects of acid hydrolysis and mechanical polishing on surface residual stresses of low-fusing dental ceramics [J]. J Prosthet Dent, 2003, 90(2): 133-142.
[37] Dbradovi-Djurici K, Medi V,Dodi S, et al. Dilemmas in zirconia bonding: a review [J]. Srp Arh Celok Lek, 2013, 141(5-6): 395-401.
[38] Borges GA, Sophr AM, de Goes MF, et al. Effect of etching and airborne particle abrasion on the microstructure of different dental ceramics [J]. J Prosthet Dent, 2003, 89(5): 479-488.
[39] Borges GA, Agarwal P, Miranzi BA, et al. Influence of different ceramics on resin cement Knoop Hardness Number [J]. Oper Dent, 2008, 33(6): 622-628.
[40] El-Badrawy WA, Leung BW, El-Mowafy O, et al. Evaluation of proximal contacts of posterior composite restorations with 4 placement techniques[J]. J Can Dent Assoc,2003,69(3):162-167.
[41] Puri S. Comprehensive dentistry using chairside CAD/CAM technology: a case report[J]. Dent Today, 2009, 28(4): 92, 94, 96.
[42] Noie F, O′Keefe KL, Powers JM. Color stability of resin cements after accelerated aging [J]. Int J Prosthodont, 1995, 8(1): 51-55.
[43] Cho SH, Chang WG, Lim BS, et al. Effect of die spacer thickness on shear bond strength of porcelain laminate veneers[J]. J Prosthet Dent, 2006, 95(3): 201-208.
[44] Addison O, Fleming GJ. The influence of cement lute, thermocycling and surface preparation on the strength of a porcelain laminate veneering material[J]. Dent Mater,2004,20(3): 286-292.
[45] Dundar B, Guzel KG. An analysis of the shear strength of the bond between enamel and procelain laminate veneers with different etching systems: acid and Er, Cr: YSGG laser separately and combined [J]. Lasers Med Sci, 2011, 26(6): 777-782.
[46] Toman M, Toksavul S, Akin A. Bond strength of all-ceramics to tooth structure: using new luting systems [J]. J Adhes Dent, 2008, 10(5): 373-378.
[47] Magne P, Douglas WH. Interdental design of porcelain veneers in the presence of composite fillings: finite element analysis of composite shrinkage and thermal stresses [J]. Int J Prosthodont, 2000, 13(2): 117-124.
[48] Cho SH, Chang WG, Lim BS, et al. Effect of die space thickness on shear bond strength of porcelain laminat veneers [J]. J Prosthet Dent, 2006, 95(3): 201-208.
[49] Liu HL, Lin CL, Sun MT, et al. Numerical investigation of macro- and micro-mechanics of a ceramic veneer bonded with various cement thicknesses using the typical and submodeling finite element approaches [J]. J Dent, 2009, 37(2): 141-148.
[50] Usumez A, Ozturk AN, Usumez S, et al. The efficiency of different light sources to polymerize resin cement beneath porcelain laminate veneers[J]. J Oral Rehabil,2004,31(2):160-165.
[51] Troedson M, Dérand T. Shear stresses in the adhesive layer under porcelain veneers: a finite element method study[J]. Acta Odontol Scand, 1998, 56(5): 257-262.
[52] Holtan JR, Lua MJ, Belvedere PC, et al. Evaluating the effect of glove coating on the shear bond strength of the porcelain laminate veneer [J]. J Am Dent Assoc, 1995, 126(5): 611-616.
[53] Aboush YE. Removing saliva contamination from porcelain veneers before bonding[J]. J Prosthet Dent,1998, 80(6): 649-653.