MICRO-LEAKAGE OF PREHEATED COMPOSITE AS A CEMENTATION MATERIAL IN INDIRECT ADHESIVE RESTORATION (LITERATURE REVIEW)

Mirza Aryanto

Abstract


Introduction: Composite resin is a material that is often used to perform dental restorations, but it can cause a deficiency called polymerization shrinkage which can be overcome by preheating the composite material. In several studies, there are differences of opinion regarding using preheating techniques at 60oC to overcome polymerization shrinkage. Review: This article intends to analyze the level of microleakage on the restoration of adhesive indirectly as cementing materials with preheated composites. A total of 49 journals from PubMed, NCBI, BMC, Research gate, Z-library, EBSCO, Google Scholar, and other international journal websites were analyzed. Conclusion: The preheating method showed samples with heating of 60oC had statistically lower microleakage at cervical margins. However, preheating resulted in an increase in the contraction voltage of undesirable polymerization.

Keywords


Microleakage, Preheated Composite, Preheated Cementation

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References


Afroz S, Rathi S, Rajput G, Rahman SA. Dental Esthetics and its Impact on Psycho-Social Well-Being and Dental Self Confidence: A Campus Based Survey of

North Indian University Students. J Indian Prosthodont Soc. 2013;13(4):455–460.

AlJehani YA, Baskaradoss JK, Geevarghese A, AlShehry MA. Current Trends in Aesthetic Dentistry. Health (Irvine Calif). 2014;06(15):1941–1949.

Pal A, Kumar Chinnaiyan S, Mallik A, Bhattacharjee C. A Review on Anterior Teeth Restorations. Int J Pharmacol Res. 2014;4(4):156–157.

Kurniawan R, Hadriyanto W, Kristanti Y. Perbedaan Kebocoran Mikro Restorasi Inlei Resin Komposit Menggunakan Resin Semen Dual Cure Yang Berbeda. J Ked Gi. 2013; 2(4):115-121

Azeem RA, Sureshbabu NM. Clinical Performance of Direct Versus Indirect Composite Restorations In Posterior Teeth: A Systematic Review. J Concerv Dent. 2018; 1(21):2-9

Wongsari NS, Nugroho JJ. Pengaruh Preheating pada Resin Komposit. PDGI Makassar. 2012;1–5.

Alvarado MSU, Garcia DME, Guillen AP, Arriaga JCF, Ramirez GFR, Magdaleno MO. Evaluation of the Bond Strength and Marginal Seal of Indirect Restorations of Composites Bonded with Preheating Resin. Eur J Dent. 2020; (14):644-650.

Huzal G. Examination of The Effect of Preheating Process on Microtensile Bond Strength in The Cementation of Indirect Restorations. International Dental Research. 2018; 1(8):15-21.

Askarizade N, Norouzi N, Nemati S. The Effect of Bonding Agents on The Microleakage of Sealant Following Contamination with Saliva. J Indian Soc Pedod Prev Dent. 2016;64–66.

Mukuan T, Abidjulu J, Wicaksono D. Gambar Kebocoran Tepi Tumpatan Pasca Restorasi Resin Komposit Pada Mahasiswa Program Studi Kedokteran Gigi Angkatan 2005-2007. E-Gigi. 2013;1(2):115–120.

Yang J, Raj DJ, Sherlin H. Effects of Preheated Composite on Microleakage-An In-Vitro Study. J Clin Diagnostic Res. 2016;10(6):36–38.

Didron PP, Chrzanowski W, Ellakwa A. Effect of Temperatures on Polymerization Stress and Microleakage of Class V Composite Restorations. Open J Compos Mater. 2013; (3):107–112.

Abad-Coronel C, Naranjo B, Valdiviezo P. Adhesive Systems Used in Indirect Restorations Cementation: Review of The Literature. Dentistry Journal. 2019;3(7):1-18.

Veneziani M. Posterior indirect adhesive restorations: updated indications and the Morphology Driven Preparation Technique. The International Journal Of Esthetic Dentistry. 2017; 2(12):2-28

Jensen M. Aschheim K, ed. Esthetic Dentistry: A Clinical Approach to Techniques and Materials. 3rd ed. S. Louis: Elsevier Inc.; 2015:56-63

Moore BK. Dental Materials. McDonald and Avery Dentistry for The Child and Adolescent. 9th ed. Maryland Heights: Elsevier; 2011;302.

Anusavice KJ, Shen C, Rawls HR. Phillips’ Science of Dental Materials. 12th ed. St. Louis: Elsevier; 2012;277–329.

Heboyan AG, Vardanyan AR, and Avetisyan AA. Cement Selection In Dental Practice. World Science. 2019;3(2);4-9.

Noort, Richard Van. Introduction to Dental Materials. 4th ed. St. Louis: Elsevier; 2014:74-77.

Slokar L, Pranjic J, Carek A. Metallic Materials for Use in Dentistry. The Holistic Approach to Environment. 2017; (1):39-58.

Helvey. GA. Classification of dental ceramics. Inside Dentistry:2013;63-76

Powers JM, Sekaguchi RL. Craig’s: Restorative Dental Materials. 13th Ed. St. Louis: Mosby Inc. 2012: 118–164.

Azizah N, Aziz A, Sinamo S, Sim M. Kesesuaian Warna GTC Keramik-Logam terhadap Gigi Asli pada Pasien di RSGM Prima Medan. Syntax Idea. 2020; 10(2):805-814.

Kampanas N. Resin Composite Pre-Heating - A Literature Review of The Laboratory Results. Int J Oral Dent Heal. 2018;4(2):1–5.

Soliman E, Elgayar IL, Adel A. Effect of Preheating on Microleakage. and Microhardness of Composite Resin. (An In Vitro Study). Alexandria Dental Journal. 2016; 41(1):4-11.

Goldstein RE, Lamba S, Lawson NA, Beck P, Oster RA, Burgerss JO. Microleakage Around Class V Composite Restorations After Ultrasonic Scaling And Sonictoothbrushing Around Their Margin. Journal of Esthetic and Restorative Dentistry. 2017; 29(1):41-78

Kumar P, Shenoy A, Joshi S. The Effect of Various Surface Contaminants on the Microleakage of Two Different Generation Bonding Agents: A Stereomicroscopic Study. Journal Conservative Dentistry. 2012;15(3);

-269.

Khurshid Z, Najeeb S, Zafar MS, Sefat F. Advanced Dental Biomaterials. United States: Elsevier; 2019:132–133

Zaazou MH, Ibrahim MA, Nagi SM. The Effect of Surface Sealent on Microleakage and Solubility of Nano-Glassionomer Restoration. Jurnal of Applied Sciences Research. 2013; 9(3):1993-1994.

Schmid-Schwap M, Graf A, Preinerstorfer A, Watts DC, Piehslinger E, Schedle A. Microleakage After Thermocycling of Cemented Crowns—A Meta-Analysis. Dental materials. 2011; 27(9):855-869.

Lopes LCP, Terada RSS, Tsuzuki FM, Giannini M, Hirata R. (2020). Heating and Preheating of Dental Restorative Materials—A Systematic Review. Clinical Oral Investigations. 2020; 12(24):4225-4235

Torres CR, Caneppele TMF, Borges AB, Torres ACM, Araujo MAM. Influence of Pre-Cure Temperature on Vickers Microhardness of Resin Composite. Int Journal of Contempory Dentistry. 2011; 3(2):41-45.

Deb S, Di Silvio L, Mackler HE, Millar BJ. Pre-Warming of Dental Composites. Dent Mater. 2011; 27(4):51-59.

Dos Santos RA, Lima RA, Soares GP et al. Effect of Preheating Resin Composite and Light-Curing Units on The Microleakage of Class II Restorations Submitted to Thermocycling. Oper Dent. 2011; 36(1):60-65.

Karaarslan ES, Usumez A, Ozturk B, Cebe MA. Effect of Cavity Preparation Techniques and Different Preheating Procedures on Microleakage of Class V Resin Restorations. Eur J Dent. 2012; 6(1):87-9

Elbahrawy E & Attia R. Influence of Pre-Curing Warming on Micro-Leakage, Micro-Hardness and Degree of Conversion of High Viscosity Bulk Fill Composite Resins: An in Vitro Study. Egyptian Dental Journal. 2018; 3(64):2717-2735.

Zavattini, et al. An in Vitro Study to Evaluate Microleakage in II Mesio-Occlusal-Distal Class II Resin Composite Restorations Using A Micro-CT Scan and A Metal Tracer. European Journal of Dentistry. 2018; 12(3): 369-3




DOI: https://doi.org/10.33854/jbd.v9i1.985

DOI (PDF): https://doi.org/10.33854/jbd.v9i1.985.g418

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