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Current approaches in adhesive systems

Year 2020, , 193 - 202, 22.06.2020
https://doi.org/10.18663/tjcl.667021

Abstract

Dental caries is a common disease on a global scale. Resin composites are the most popular materials to restore caries by bonding to tooth tissues via adhesives. The constituents of the comtemporary adhesive systems not only prepare the dental subtsrate but also adhere to the restoration material by forming an hybrid layer. This hybrid layer thus the restorations are vulnerable to degradation in time. Hence, it is important to review the factors related to the mechanisms of degradation and stabilization of the hybrid layer to support the implementation of new materials and techniques in the future. The aim of this review is to present the effects of the studies on the hybrid layer for dentin adhesion.

References

  • 1. Kaya, T. Diş hekimliğinde kullanılan multimod, etch and rinse ve self etch adezivlerin süt ve daimi dişlerin sınıf I restorasyonlarında mikrosızıntı açısından karşılaştırılması. pHD Thesis, Başkent University Faculty of Dentistry, Department of Pediatric Dentistry, Ankara; 2014.
  • 2. Dayangac, GB. Kompozit restorasyonlar. Ankara: Güneş Kitabevi Ltd. Şti; 2011.
  • 3. Kiremitçi A, Altıncı P, Self etch adeziv sistemlerde güncel gelişmeler Bölüm1: Farklı özelliklerde diş sert dokularına bağlanma etkinliği. Hacettepe Diş Hekimliği Fakültesi Dergisi 2008; 32: 33-48.
  • 4. Özkul S, Küçükeşmen Ç, Adezivler: Genel ilkeler ve tekniğin son durumu. Balıkesir Sağlık Bilimleri Dergisi 2012; 1: 164-168.
  • 5. Pashley, DH, Tay FR, Breschi L et al. State of the art etch-and-rinse adhesives. Dental Materials 2011; 27: 1-16.
  • 6. Nakabayashi N, The hybrid layer: a resin-dentin composite. Proceedings of the Finnish Dental Society Suomen Hammaslaakariseuran Toimituksia; 1992.
  • 7. Van Meerbeek B, Inoue S, Perdiago J, Lambrechts P, Vanherle G. Enamel and dentin adhesion. Fundamentals of operative dentistry Second edition. Carol Stream, Quintessence International; 2001.
  • 8. Swift EJ, Perdigão J, Heymann HO. Bonding to enamel and dentin: a brief history and state of the art. Quintessence Int 1995; 26: 95-110.
  • 9. Roberson TM, Heymann HO, Swift EJ. Sturdevant’s Art and science of operative dentistry. Fifth Edition. St. Louis, Missouri, Elsevier Mosby; 2005.
  • 10. Van Landuyt K, De Munck J, Coutinho E, Peumans M, Lambrechts P, Van Meerbeek B. Bonding to dentin: Smear layer and the process of hybridization. Dental hard tissues and bonding interfacial phenomena and related properties Berlin: Springer; 2005.
  • 11. Mjör IA; Pulp-dentin Biology in Restorative Dentistry. Mjör IA. Part 2 Initial reactions to preparation of teeth for restorative procedures. Quintessence International 2001; 32: 537-51
  • 12. Dönmez N, Özer F. Hibrit tabakası, özellikleri ve hibrit tabakasında gözlenen mikroskobik oluşumlar. Gazi Üniversitesi Diş Hekimliği Fakültesi Dergisi 2007; 24: 57-62.
  • 13. Perdigao J, May KN, Wilder AD, Lopes M, The effect of depth of dentin demineralization on bond strengths and morphology of the hybrid layer. Operative Dentistry 2000; 25: 186-94.
  • 14. De Munck J, Van Landuyt K, Peumans M, et al, A critical review of the durability of adhesion to tooth tissue: methods and results. J Dent Res 2005; 84: 118-132.
  • 15. Tay FR, Pashley DH, Dental adhesives of the future. J Adhes Dent 2002; 4: 91-103.
  • 16. Mazzoni A, Nascimento FD, Carrilho M et al. MMP activity in the hybrid layer detected with in situ zymography. J Dent Res 2012; 91: 467–72.
  • 17. Thompson JM, Agee K, Sidow SJ et al. Inhibition of endogenous dentin matrix metalloproteinases by ethylenediaminetetraacetic acid. J Endod 2012; 38: 62–65.
  • 18. Osorio R, Yamauti M, Osorio E, Ruiz-Requena ME, Pashley D, Tay F, Toledano M. Effect of dentin etching and chlorhexidine application on metalloproteinase-mediated collagen degradation. Eur J Oral Sci 2011; 119: 79–85.
  • 19. Moon PC, Weaver J, Brooks CN. Review of matrix metalloproteinases’ effect on the hybrid dentin bond layer stability and chlorhexidine clinical use to prevent bond failure. Open Dent J 2010; 4: 147–152.
  • 20. Strobel S, Hellwig E, The effects of matrix-metalloproteinases and chlorhexidine on the adhesive bond ; A literature review. Swiss Dent J 2015; 125: 134–40.
  • 21. Sauro S, Mannocci F, Toledano M, Osorio R, Pashley DH, Watson TF. EDTA or H3PO4/NaOCl dentin treatments may increase hybrid layer resistance to degradation: A microtensile bond strength and confocal micropermeability study. J Dent 2009; 37: 279-88.
  • 22. Pashley DH, Agee KA, Wataha JC. Visco elastic properties of demineralized dentin matrix. Dent Mater 2003; 19: 700-706.
  • 23. Kanca J, Resin adhesive to wet substrate I: Adhesive to dentin. Quint Inter 1992; 23: 39-41.
  • 24. Abate PF, Rodriguez VI, Macchi RL. Evaporation of solvent in one bottle adhesives. J Dent 2000; 28: 437-40
  • 25. Liu Y, Tjäderhane L, Breschi L et al. Limitations in bonding to dentin and experimental strategies to prevent bond degradation. J Dent Res 2001; 90: 953-68.
  • 26. Bedran-Russo AK, Vidal CM, Dos Santos PH, Castellan CS. Long-term effect of carbodiimide on dentin matrix and resin-dentin bonds. Journal of Biomedical Materials Research Part B: Applied Biomaterials 2010; 94: 250-55.
  • 27. Mazzoni A, Apolonio FM, Saboia VP et al. Carbodiimide inactivation of MMPs and effect on dentin bonding. J Dent Res 2014; 93: 263-68.
  • 28. Fawzy AS, Nitisusanta LI, Iqbal K, Daood U, Beng LT, Neo J. Chitosan/Riboflavin-modified demineralized dentin as a potential substrate for bonding. J Mech Behav Biomed Mater 2013; 17: 278-289.
  • 29. Toledano M, Yamauti M, Ruiz-Requena ME, Osorio RA. ZnO-doped adhesive reduced collagen degradationfavouring dentine remineralization. J Dent 2012; 40: 756-65.
  • 30. Marchetti C, Piacentini C, Menghini P. Morphometric computerized analysis on the dentinal tubuls and the collagen fibers in the dentine of human permanent teeth. Bull Group Int Rech Sci Stomatol Odontol 1992; 35: 125–29.
  • 31. Wang Y, Spencer P, Walker MP. Chemical profile of adhesive/cariesaffected dentin interfaces using Raman microspectroscopy. J Biomed Mater Res A 2007; 81: 279–86.
  • 32. Stanislawczuk R, Costa JA, Polli LG, Reis A, Loguercio AD. Effect of tetracycline on the bond performanceof etch-and-rinse adhesives to dentin. Braz Oral Res 2011; 25: 459-65.
  • 33. Longhi M, Cerroni L, Condo SG, Ariano V, Pasquantonio G. The effects of host derived metalloproteinases on dentin bond and the role of MMPs inhibitors on dentin matrix degradation. Department of Clinical Science and Translational Medicine University of Rome “Tor Vergata”, Rome, Italy; 2015.
  • 34. Ferreira D, Slade D. Oligomeric proanthocyanidins: naturally occurring O-heterocycles. Nat Prod Rep 2002; 19: 517–41.
  • 35. La VD, Howell AB, Grenier D, Cranberry proanthocyanidins inhibit MMP production and activity. J Dent Res 2009; 88: 627–32.
  • 36. Liu Y, Chen M, Yao X, Xu C, Zhang Y, Wang Y. Enhancement in dentin collagen’s biological stability after proanthocyanidins treatment in clinically relevant timeperiods. Dent Mater 2013; 29: 485-92.
  • 37. Walter R, Miguez PA, Arnold RR, Pereira PN, Duarte WR, Yamauchi M. Effects of natural crosslinkers on the stability of dentin collagen and the inhibition of root caries in vitro. Caries Res 2008; 42: 263–68.
  • 38. Henn S, de Carvalho RV, Ogliari FA et al. Addition of zinc methacrylate in dental polymers: MMP-2 inhibition and ultimate tensile strength evaluation. Clin Oral Investig 2012; 16: 531-36.
  • 39. Hashimoto M, Ohno H, Kaga M. In vivo degradation of resindentin bonds in human sover 1 to 3 years. J Dent Res 2000; 79: 1385–91.
  • 40. Armstrong SR, Vargas MA, Chung I. Resin-dentin interfacial ultra structure and microtensile dentin bond strengt hafterfive-year water storage. Oper Dent 2004; 29: 705–12.
  • 41. Hashimoto M, A review—micromorphological evidence of degradation in resin-dentin bonds and potential preventional solutions. J Biomed Mater Res B Appl Biomater 2010; 92: 268–80.
  • 42. Tay FR, Gwinnett AJ, Pang KM, Wei SH. Resin permeation into acidconditioned, moist, and dry dentin: A paradigm using water-free adhesive primers. J Dent Res 1996; 75: 1034–44.
  • 43. Jacobsen T, Söderhold KJ. Some effects of water on dentin adhesive. Dent Mater 1995; 11: 132–36.
  • 44. Xu C, Wang Y. Collagen cross-linking by glutaraldehyde increases its biodegradation resistance in wet dentin bonding. Dent Mater 2010; 14: 11-18.
  • 45. Pashley DH, Tay FR, Haywood VB, Collins MA, Drisko CL. Consensus-based recommendations for the diagnosis and management of dentin hypersensitivity. Compendium of continuing education in dentistry. 2008; 29: 1-35.
  • 46. Al-Ammar A, Drummond JL, Bedran-Russo AK. The use of collagen cross-linking agents to enhance dentin bond strength. J Biomed Mater Res B Appl Biomater 2009; 91: 419-24.
  • 47. Pioch T, Staehle HJ, Duschner H, García-Godoy F. Nanoleakage at the composite dentin interface: a review. Am J dent 2001; 14: 252-258.
  • 48. Sano H. Microtensile testing, nanoleakage, and biodegradation of resin-dentin bonds. J Dent Res 2006; 85: 11–14.
  • 49. Silva ALF, Araújoa JE, Rochaa GP, Oliveirab AS, Moraesb RB. Solvent content and dentin bond strengths using water-wet, ethanol-wet and deproteinization bonding techniques. Acta Odontologica Scandinavica 2013; 71: 710-15.
  • 50. Montagner AF, Skupien JA, Borges MF, Krejci I, Bortolotto T, Susin AH. Effect of sodium hypochlorite as dentinal pretreatment on bonding strength of adhesive systems. Ind J Dent Res 2015; 26:416-20.
  • 51. Esteves SR, Huhtala MF, Gomes AP, Ye Q, Spencer P, De Paiva Gonçalves SE. Longitudinal Effect of Surface Treatments Modified by NaOCl-Induced Deproteinization and Nd:YAG Laser onDentin Permeability. Photomed Laser Surgery 2016; 34: 68-75.
  • 52. Ferreira MB, Carlini Júnior B, Galafassi D, Gobbi DL. Calcium hypochlorite as a dentin deproteinization agent: Microleakage, scanning electron microscopy and elemental analysis. Microscopy Research and Technique 2015; 78: 676-81.
  • 53. Aguilera FS, Osorio R, Osorio E, Moura P, Toledano M, Bonding efficacy of an acetone/based etch-and-rinse adhesive after dentin deproteinization. Med Oral Patol Oral Cir Bucal 2012; 1: 14-17.
  • 54. Silva GO, Barcellos DC, Pucci CR, Borges AB, Torres CR. Longitudinal bond strength evaluation using the deproteinized dentin technique. Gen Dent 2009; 57:328-333.
  • 55. Torres RGC, Barcellos DC, Batista GR, Pucci CR, Antunes MJ, de La Cruz DB, Borges AB. Five-year clinical performance of the dentine deproteinization technique in non-carious cervical lesions. J Dent 2014; 42: 816-23.
  • 56. Erhardt MC, Osorio R, Viseras C, Toledano M. Adjunctive use of an anti-oxidant agent to improve resistance of hybrid layers to degradation. J Dent 2011; 39: 80-87.
  • 57. Pavan R, Jain S, Shraddha Kumar A. Properties and therapeutic application of bromelain: A review. Biotechnol Res Int 2012; 97-103.
  • 58. Dayem RN, Tameesh MA, A new concept in hybridization: Bromelain enzyme for deproteinizing dentin before application of adhesive system. Contemp Clin Dent 2013; 4: 421–26.
  • 59. Chauhan K, Siddaveerappa R, Basavanna Shivanna V. Effect of bromelain enzyme for dentin deproteinization on bond strength of adhesive system, J Conserv Dent 2015; 18: 360–63.

Adeziv sistemlerde güncel yaklaşımlar

Year 2020, , 193 - 202, 22.06.2020
https://doi.org/10.18663/tjcl.667021

Abstract

Diş çürüğü küresel ölçekte yaygın bir hastalıktır. Rezin kompozitler, diş dokularına adeziv sistemlerle bağlanarak çürükleri restore etmek için kullanılan en popüler malzemelerdir. Adeziv sistemler, içerdikleri bileşenler ile hem substrat yüzeyini hazırlar hem de restoratif materyale bağlanarak iki farklı yapı arasında hibrit bir tabaka oluşturur. Bu tabaka zamanla yıkıma maruz kalmaktadır. Bu nedenle, gelecekte yeni malzeme ve tekniklerin uygulanmasını desteklemek için hibrid tabakanın bozulma ve stabilizasyon mekanizmalarına ilişkin faktörlerin gözden geçirilmesi önemlidir. Bu derlemenin amacı dentin adezyonu kapsamında hibrit tabakaya yönelik çalışmaların etkilerini okuyucuya sunmaktır.

References

  • 1. Kaya, T. Diş hekimliğinde kullanılan multimod, etch and rinse ve self etch adezivlerin süt ve daimi dişlerin sınıf I restorasyonlarında mikrosızıntı açısından karşılaştırılması. pHD Thesis, Başkent University Faculty of Dentistry, Department of Pediatric Dentistry, Ankara; 2014.
  • 2. Dayangac, GB. Kompozit restorasyonlar. Ankara: Güneş Kitabevi Ltd. Şti; 2011.
  • 3. Kiremitçi A, Altıncı P, Self etch adeziv sistemlerde güncel gelişmeler Bölüm1: Farklı özelliklerde diş sert dokularına bağlanma etkinliği. Hacettepe Diş Hekimliği Fakültesi Dergisi 2008; 32: 33-48.
  • 4. Özkul S, Küçükeşmen Ç, Adezivler: Genel ilkeler ve tekniğin son durumu. Balıkesir Sağlık Bilimleri Dergisi 2012; 1: 164-168.
  • 5. Pashley, DH, Tay FR, Breschi L et al. State of the art etch-and-rinse adhesives. Dental Materials 2011; 27: 1-16.
  • 6. Nakabayashi N, The hybrid layer: a resin-dentin composite. Proceedings of the Finnish Dental Society Suomen Hammaslaakariseuran Toimituksia; 1992.
  • 7. Van Meerbeek B, Inoue S, Perdiago J, Lambrechts P, Vanherle G. Enamel and dentin adhesion. Fundamentals of operative dentistry Second edition. Carol Stream, Quintessence International; 2001.
  • 8. Swift EJ, Perdigão J, Heymann HO. Bonding to enamel and dentin: a brief history and state of the art. Quintessence Int 1995; 26: 95-110.
  • 9. Roberson TM, Heymann HO, Swift EJ. Sturdevant’s Art and science of operative dentistry. Fifth Edition. St. Louis, Missouri, Elsevier Mosby; 2005.
  • 10. Van Landuyt K, De Munck J, Coutinho E, Peumans M, Lambrechts P, Van Meerbeek B. Bonding to dentin: Smear layer and the process of hybridization. Dental hard tissues and bonding interfacial phenomena and related properties Berlin: Springer; 2005.
  • 11. Mjör IA; Pulp-dentin Biology in Restorative Dentistry. Mjör IA. Part 2 Initial reactions to preparation of teeth for restorative procedures. Quintessence International 2001; 32: 537-51
  • 12. Dönmez N, Özer F. Hibrit tabakası, özellikleri ve hibrit tabakasında gözlenen mikroskobik oluşumlar. Gazi Üniversitesi Diş Hekimliği Fakültesi Dergisi 2007; 24: 57-62.
  • 13. Perdigao J, May KN, Wilder AD, Lopes M, The effect of depth of dentin demineralization on bond strengths and morphology of the hybrid layer. Operative Dentistry 2000; 25: 186-94.
  • 14. De Munck J, Van Landuyt K, Peumans M, et al, A critical review of the durability of adhesion to tooth tissue: methods and results. J Dent Res 2005; 84: 118-132.
  • 15. Tay FR, Pashley DH, Dental adhesives of the future. J Adhes Dent 2002; 4: 91-103.
  • 16. Mazzoni A, Nascimento FD, Carrilho M et al. MMP activity in the hybrid layer detected with in situ zymography. J Dent Res 2012; 91: 467–72.
  • 17. Thompson JM, Agee K, Sidow SJ et al. Inhibition of endogenous dentin matrix metalloproteinases by ethylenediaminetetraacetic acid. J Endod 2012; 38: 62–65.
  • 18. Osorio R, Yamauti M, Osorio E, Ruiz-Requena ME, Pashley D, Tay F, Toledano M. Effect of dentin etching and chlorhexidine application on metalloproteinase-mediated collagen degradation. Eur J Oral Sci 2011; 119: 79–85.
  • 19. Moon PC, Weaver J, Brooks CN. Review of matrix metalloproteinases’ effect on the hybrid dentin bond layer stability and chlorhexidine clinical use to prevent bond failure. Open Dent J 2010; 4: 147–152.
  • 20. Strobel S, Hellwig E, The effects of matrix-metalloproteinases and chlorhexidine on the adhesive bond ; A literature review. Swiss Dent J 2015; 125: 134–40.
  • 21. Sauro S, Mannocci F, Toledano M, Osorio R, Pashley DH, Watson TF. EDTA or H3PO4/NaOCl dentin treatments may increase hybrid layer resistance to degradation: A microtensile bond strength and confocal micropermeability study. J Dent 2009; 37: 279-88.
  • 22. Pashley DH, Agee KA, Wataha JC. Visco elastic properties of demineralized dentin matrix. Dent Mater 2003; 19: 700-706.
  • 23. Kanca J, Resin adhesive to wet substrate I: Adhesive to dentin. Quint Inter 1992; 23: 39-41.
  • 24. Abate PF, Rodriguez VI, Macchi RL. Evaporation of solvent in one bottle adhesives. J Dent 2000; 28: 437-40
  • 25. Liu Y, Tjäderhane L, Breschi L et al. Limitations in bonding to dentin and experimental strategies to prevent bond degradation. J Dent Res 2001; 90: 953-68.
  • 26. Bedran-Russo AK, Vidal CM, Dos Santos PH, Castellan CS. Long-term effect of carbodiimide on dentin matrix and resin-dentin bonds. Journal of Biomedical Materials Research Part B: Applied Biomaterials 2010; 94: 250-55.
  • 27. Mazzoni A, Apolonio FM, Saboia VP et al. Carbodiimide inactivation of MMPs and effect on dentin bonding. J Dent Res 2014; 93: 263-68.
  • 28. Fawzy AS, Nitisusanta LI, Iqbal K, Daood U, Beng LT, Neo J. Chitosan/Riboflavin-modified demineralized dentin as a potential substrate for bonding. J Mech Behav Biomed Mater 2013; 17: 278-289.
  • 29. Toledano M, Yamauti M, Ruiz-Requena ME, Osorio RA. ZnO-doped adhesive reduced collagen degradationfavouring dentine remineralization. J Dent 2012; 40: 756-65.
  • 30. Marchetti C, Piacentini C, Menghini P. Morphometric computerized analysis on the dentinal tubuls and the collagen fibers in the dentine of human permanent teeth. Bull Group Int Rech Sci Stomatol Odontol 1992; 35: 125–29.
  • 31. Wang Y, Spencer P, Walker MP. Chemical profile of adhesive/cariesaffected dentin interfaces using Raman microspectroscopy. J Biomed Mater Res A 2007; 81: 279–86.
  • 32. Stanislawczuk R, Costa JA, Polli LG, Reis A, Loguercio AD. Effect of tetracycline on the bond performanceof etch-and-rinse adhesives to dentin. Braz Oral Res 2011; 25: 459-65.
  • 33. Longhi M, Cerroni L, Condo SG, Ariano V, Pasquantonio G. The effects of host derived metalloproteinases on dentin bond and the role of MMPs inhibitors on dentin matrix degradation. Department of Clinical Science and Translational Medicine University of Rome “Tor Vergata”, Rome, Italy; 2015.
  • 34. Ferreira D, Slade D. Oligomeric proanthocyanidins: naturally occurring O-heterocycles. Nat Prod Rep 2002; 19: 517–41.
  • 35. La VD, Howell AB, Grenier D, Cranberry proanthocyanidins inhibit MMP production and activity. J Dent Res 2009; 88: 627–32.
  • 36. Liu Y, Chen M, Yao X, Xu C, Zhang Y, Wang Y. Enhancement in dentin collagen’s biological stability after proanthocyanidins treatment in clinically relevant timeperiods. Dent Mater 2013; 29: 485-92.
  • 37. Walter R, Miguez PA, Arnold RR, Pereira PN, Duarte WR, Yamauchi M. Effects of natural crosslinkers on the stability of dentin collagen and the inhibition of root caries in vitro. Caries Res 2008; 42: 263–68.
  • 38. Henn S, de Carvalho RV, Ogliari FA et al. Addition of zinc methacrylate in dental polymers: MMP-2 inhibition and ultimate tensile strength evaluation. Clin Oral Investig 2012; 16: 531-36.
  • 39. Hashimoto M, Ohno H, Kaga M. In vivo degradation of resindentin bonds in human sover 1 to 3 years. J Dent Res 2000; 79: 1385–91.
  • 40. Armstrong SR, Vargas MA, Chung I. Resin-dentin interfacial ultra structure and microtensile dentin bond strengt hafterfive-year water storage. Oper Dent 2004; 29: 705–12.
  • 41. Hashimoto M, A review—micromorphological evidence of degradation in resin-dentin bonds and potential preventional solutions. J Biomed Mater Res B Appl Biomater 2010; 92: 268–80.
  • 42. Tay FR, Gwinnett AJ, Pang KM, Wei SH. Resin permeation into acidconditioned, moist, and dry dentin: A paradigm using water-free adhesive primers. J Dent Res 1996; 75: 1034–44.
  • 43. Jacobsen T, Söderhold KJ. Some effects of water on dentin adhesive. Dent Mater 1995; 11: 132–36.
  • 44. Xu C, Wang Y. Collagen cross-linking by glutaraldehyde increases its biodegradation resistance in wet dentin bonding. Dent Mater 2010; 14: 11-18.
  • 45. Pashley DH, Tay FR, Haywood VB, Collins MA, Drisko CL. Consensus-based recommendations for the diagnosis and management of dentin hypersensitivity. Compendium of continuing education in dentistry. 2008; 29: 1-35.
  • 46. Al-Ammar A, Drummond JL, Bedran-Russo AK. The use of collagen cross-linking agents to enhance dentin bond strength. J Biomed Mater Res B Appl Biomater 2009; 91: 419-24.
  • 47. Pioch T, Staehle HJ, Duschner H, García-Godoy F. Nanoleakage at the composite dentin interface: a review. Am J dent 2001; 14: 252-258.
  • 48. Sano H. Microtensile testing, nanoleakage, and biodegradation of resin-dentin bonds. J Dent Res 2006; 85: 11–14.
  • 49. Silva ALF, Araújoa JE, Rochaa GP, Oliveirab AS, Moraesb RB. Solvent content and dentin bond strengths using water-wet, ethanol-wet and deproteinization bonding techniques. Acta Odontologica Scandinavica 2013; 71: 710-15.
  • 50. Montagner AF, Skupien JA, Borges MF, Krejci I, Bortolotto T, Susin AH. Effect of sodium hypochlorite as dentinal pretreatment on bonding strength of adhesive systems. Ind J Dent Res 2015; 26:416-20.
  • 51. Esteves SR, Huhtala MF, Gomes AP, Ye Q, Spencer P, De Paiva Gonçalves SE. Longitudinal Effect of Surface Treatments Modified by NaOCl-Induced Deproteinization and Nd:YAG Laser onDentin Permeability. Photomed Laser Surgery 2016; 34: 68-75.
  • 52. Ferreira MB, Carlini Júnior B, Galafassi D, Gobbi DL. Calcium hypochlorite as a dentin deproteinization agent: Microleakage, scanning electron microscopy and elemental analysis. Microscopy Research and Technique 2015; 78: 676-81.
  • 53. Aguilera FS, Osorio R, Osorio E, Moura P, Toledano M, Bonding efficacy of an acetone/based etch-and-rinse adhesive after dentin deproteinization. Med Oral Patol Oral Cir Bucal 2012; 1: 14-17.
  • 54. Silva GO, Barcellos DC, Pucci CR, Borges AB, Torres CR. Longitudinal bond strength evaluation using the deproteinized dentin technique. Gen Dent 2009; 57:328-333.
  • 55. Torres RGC, Barcellos DC, Batista GR, Pucci CR, Antunes MJ, de La Cruz DB, Borges AB. Five-year clinical performance of the dentine deproteinization technique in non-carious cervical lesions. J Dent 2014; 42: 816-23.
  • 56. Erhardt MC, Osorio R, Viseras C, Toledano M. Adjunctive use of an anti-oxidant agent to improve resistance of hybrid layers to degradation. J Dent 2011; 39: 80-87.
  • 57. Pavan R, Jain S, Shraddha Kumar A. Properties and therapeutic application of bromelain: A review. Biotechnol Res Int 2012; 97-103.
  • 58. Dayem RN, Tameesh MA, A new concept in hybridization: Bromelain enzyme for deproteinizing dentin before application of adhesive system. Contemp Clin Dent 2013; 4: 421–26.
  • 59. Chauhan K, Siddaveerappa R, Basavanna Shivanna V. Effect of bromelain enzyme for dentin deproteinization on bond strength of adhesive system, J Conserv Dent 2015; 18: 360–63.
There are 59 citations in total.

Details

Primary Language Turkish
Subjects Health Care Administration
Journal Section Revıew Artıcle
Authors

Nihan Cevlek

Didem Atabek 0000-0001-5799-7161

Publication Date June 22, 2020
Published in Issue Year 2020

Cite

APA Cevlek, N., & Atabek, D. (2020). Adeziv sistemlerde güncel yaklaşımlar. Turkish Journal of Clinics and Laboratory, 11(3), 193-202. https://doi.org/10.18663/tjcl.667021
AMA Cevlek N, Atabek D. Adeziv sistemlerde güncel yaklaşımlar. TJCL. June 2020;11(3):193-202. doi:10.18663/tjcl.667021
Chicago Cevlek, Nihan, and Didem Atabek. “Adeziv Sistemlerde güncel yaklaşımlar”. Turkish Journal of Clinics and Laboratory 11, no. 3 (June 2020): 193-202. https://doi.org/10.18663/tjcl.667021.
EndNote Cevlek N, Atabek D (June 1, 2020) Adeziv sistemlerde güncel yaklaşımlar. Turkish Journal of Clinics and Laboratory 11 3 193–202.
IEEE N. Cevlek and D. Atabek, “Adeziv sistemlerde güncel yaklaşımlar”, TJCL, vol. 11, no. 3, pp. 193–202, 2020, doi: 10.18663/tjcl.667021.
ISNAD Cevlek, Nihan - Atabek, Didem. “Adeziv Sistemlerde güncel yaklaşımlar”. Turkish Journal of Clinics and Laboratory 11/3 (June 2020), 193-202. https://doi.org/10.18663/tjcl.667021.
JAMA Cevlek N, Atabek D. Adeziv sistemlerde güncel yaklaşımlar. TJCL. 2020;11:193–202.
MLA Cevlek, Nihan and Didem Atabek. “Adeziv Sistemlerde güncel yaklaşımlar”. Turkish Journal of Clinics and Laboratory, vol. 11, no. 3, 2020, pp. 193-02, doi:10.18663/tjcl.667021.
Vancouver Cevlek N, Atabek D. Adeziv sistemlerde güncel yaklaşımlar. TJCL. 2020;11(3):193-202.


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