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Yüksek performanslı polimerlerin bazı dental materyaller ile bağlanma dayanımlarının değerlendirilmesi: Bir derleme

Yıl 2022, Cilt: 32 Sayı: 4 - 2022, 32:4, 315 - 323, 21.10.2022
https://doi.org/10.17567/ataunidfd.1032064

Öz

Polietereterketon ve polieterketonketon, poliarileterketon ailesine ait termoplastik polimerlerdir. Kabul edilebilir kırılma dayanımı ve şok absorbe etme özellikleri nedeniyle, bu yüksek performanslı polimerler diş hekimliğinde alternatif dental alt yapı malzemeleri olarak kullanıma başlanmıştır. Bununla birlikte grimsi beyaz rengi ve düşük yarı saydamlılığı poliarileterketon materyallerinin monolitik diş restorasyonu olarak kullanımını sınırlamaktadır. Estetik kabulü için mutlaka kaplama (veneer) materyali ile birlikte kullanımı gerekmektedir. Fakat veneer materyali ile bağlanması için polietereterketon ve polieterketonketon yüzeylerine mekanik veya kimyasal işlem uygulama gereksinimi ortaya çıkmaktadır. Bu derlemenin amacı, poliarileterketon termoplastik polimerlerin dental materyaller ile bağlanma dayanımlarını değerlendirmek ve bu konuda yapılan çalışmaları irdelemektir. Ocak 1988’den Haziran 2021’e kadar hem Pubmed, Cochrane Library, Evidence Based Dentistry veri tabanlarında hem de ilave olarak el ile arama yöntemi kullanılarak; “PEEK or PEKK” and “surface treatment or surface modification” and bond strength anahtar kelimeleriyle gerçekleştirilen tarama sonucunda; 72 adet literatür bulundu. Bunların incelenmesi sonrası henüz yayınlanmamış 4, tam metin erişimi olmayan 1, poliarileterketon materyallerinin biyomedikal uygulamalarda osseointegrasyon kapasitesini değerlendiren (dental materyallerin bağlanma dayanımı ile ilişkin olmayan) 4 adet olmak üzere toplam 9 adet çalışma elendi. 52 in vitro araştırma makalesi, 1 in vivo araştırma makalesi, 8 derleme ve 2 vaka raporu olmak üzere toplam 63 literatür derlemeye dahil edildi. Yapılan irdelemeler, polietereterketon veya polieterketonketon polimerleri ile dental materyaller arasında bir bağlanma oluşturmak için polietereterketon ve polieterketonketon yüzeylerinin mekanik ve/veya kimyasal bir yüzey işlemi ile pürüz lendi rilme sinin ; ilave olarak da bir adeziv ajanın yüzeye uygulanmasının gerekliliğini ortaya koymaktadır.

Anahtar Kelimeler: Yapıştırıcılar, polietereterketon, polieterketonketon, kayma mukavemeti, gerilme direnci

Kaynakça

  • 1. Webber B, McDonald A, Knowles J. An in vitro study of the compressive load at fracture of Procera AllCeram crowns with varying thickness of veneer porcelain. J Prosthet Dent. 2003;89:154-60.
  • 2. Karunagaran S, Paprocki GJ, Wicks R, Markose S. A review of implant abutments--abutment classification to aid prosthetic selection. J Tenn Dent Assoc. 2013;93:18-23.
  • 3. Simsiriwong J, Shrestha R, Shamsaei N, Lugo M, Moser RD. Effects of microstructural inclusions on fatigue life of polyether ether ketone (PEEK). J Mech Behav Biomed Mater. 2015;51:388-397.
  • 4. Stawarczyk B, Jordan P, Schmidlin PR, Roos M, Eichberger M, Gernet W, Keul C. PEEK surface treatment effects on tensile bond strength to veneering resins. J Prosthet Dent. 2014;112:1278-88.
  • 5. Fokas G, Guo CY, Tsoi JKH. The effects of surface treatments on tensile bond strength of polyether-ketone-ketone (PEKK) to veneering resin. J Mech Behav Biomed Mater. 2019;93:1-8.
  • 6. Çulhaoğlu AK, Özkır SE, Türkkal F. Polieter eter keton (PEEK) ve dental kullanımı. Atatürk Üniv Diş Hek Fak Derg. 2019;29:711-8.
  • 7. Dawson JH, Hyde B, Hurst M, Harris BT, Lin WS. Polyetherketoneketone (PEKK), a framework material for complete fixed and removable dental prostheses: A clinical report. J Prosthet Dent. 2018;119:867-72.
  • 8. Klur T, Hasan I, Ottersbach K, Stark H, Fichte M, Dirk C, Bourauel C. PEKK-made indirect temporary crowns and bridges: a clinical pilot study. Clin Oral Investig. 2019;23:771-7.
  • 9. Labriaga W, Song SY, Park JH, Ryu JJ, Lee JY, Shin SW. Effect of non-thermal plasma on the shear bond strength of resin cements to Polyetherketoneketone (PEKK). J Adv Prosthodont. 2018;10:408-14.
  • 10. Stawarczyk B, Beuer F, Wimmer T, Jahn D, Sener B, Roos M, Schmidlin P.R. Polyetheretherketone - A suitable material for fixed dental prostheses? J Biomed Mater Res - Part B Appl Biomater. 2013;101:1209-16.
  • 11. Taş N, Eğilmez F. İmplant destekli hibrit protezlerin yapımında kullanılan materyaller ve üretim yöntemleri. Atatürk Üniv Diş Hek Fak Derg. 2021;31:305-15.
  • 12. Benli M, Eker Gümüş B, Kahraman Y, Huck O, Özcan M. Surface characterization and bonding properties of milled polyetheretherketone dental posts. Odontology. 2020;108:596-606.
  • 13. Tsuka H, Morita K, Kato K, Kimura H, Abekura H, Hirata I, Tsuga K. Effect of laser groove treatment on shear bond strength of resin-based luting agent to polyetheretherketone (PEEK). J Prosthodont Res. 2019;63:52-7.
  • 14. Rocha RFV, Anami LC, Campos TMB, de Melo RM, e Souza RO de A, Bottino MA. Bonding of the polymer polyetheretherketone (PEEK) to human dentin: Effect of surface treatments. Braz Dent J. 2016;27:693-9.
  • 15. Teng R, Meng Y, Zhao X, Liu J, Ding R, Cheng Y, Zhang Y, Zhang Y, Pei D, Li A. Combination of Polydopamine Coating and Plasma Pretreatment to Improve Bond Ability Between PEEK and Primary Teeth. Front Bioeng Biotechnol. 2021;8:1-9.
  • 16. Lee KS, Shin MS, Lee JY, Ryu JJ, Shin SW. Shear bond strength of composite resin to high performance polymer PEKK according to surface treatments and bonding materials. J Adv Prosthodont. 2017;9:350-7.
  • 17. Zhou L, Qian Y, Zhu Y, Liu H, Gan K, Guo J. The effect of different surface treatments on the bond strength of PEEK composite materials. Dent Mater. 2014;30:e209-e215.
  • 18. Kurahashi K, Matsuda T, Ishida Y, Ichikawa T. Effect of surface treatments on shear bond strength of polyetheretherketone to autopolymerizing resin. Dent J. 2019;7:1-8.
  • 19. Peng T, Shimoe S, Fuh L, Lin C, Lin D, Kaku M. Bonding and Thermal Cycling Performances of Two (Poly)Aryl-Ether-Ketone (PAEKs) Materials to an Acrylic Denture Base Resin. Polymers (Basel). 2021;13:1-14.
  • 20. Jahandideh Y, Falahchai M, Pourkhalili H. Effect of surface treatment with Er:Yag and CO2 lasers on shear bond strength of polyether ether ketone to composite resin veneers. J Lasers Med Sci. 2020;11:153-9.
  • 21. Escobar M, Souza JCM, Barra GMO, Fredel MC, Özcan M, Henriques B. On the synergistic effect of sulfonic functionalization and acidic adhesive conditioning to enhance the adhesion of PEEK to resin-matrix composites. Dent Mater. 2021;37:741-54.
  • 22. Rosentritt M, Preis V, Behr M, Sereno N, Kolbeck C. Shear bond strength between veneering composite and PEEK after different surface modifications. Clin Oral Investig. 2015;19:739-44.
  • 23. Keul C, Liebermann A, Schmidlin PR, Roos M, Sener B, Stawarczyk B. Influence of PEEK surface modification on surface properties and bond strength to veneering resin composites. J Adhes Dent. 2014;16:383-92.
  • 24. Çulhaoğlu AK, Özkır SE, Şahin V, Yılmaz B, Kılıçarslan MA. Effect of Various Treatment Modalities on Surface Characteristics and Shear Bond Strengths of Polyetheretherketone-Based Core Materials. J Prosthodont. 2020;29:136-41.
  • 25. Bötel F, Zimmermann T, Sütel M, Müller WD, Schwitalla AD. Influence of different low-pressure plasma process parameters on shear bond strength between veneering composites and PEEK materials. Dent Mater. 2018;34:e246-e254.
  • 26. Schwitalla AD, Bötel F, Zimmermann T, Sütel M, Müller WD. The impact of argon/oxygen low-pressure plasma on shear bond strength between a veneering composite and different PEEK materials. Dent Mater. 2017;33:990-4.
  • 27. Stawarczyk B, Keul C, Beuer F, Roos M, Schmidlin PR. Tensile bond strength of veneering resins to PEEK: Impact of different adhesives. Dent Mater J. 2013;32:441-8.
  • 28. Barto A, Vandewalle KS, Lien W, Whang K. Repair of resin-veneered polyetheretherketone after veneer fracture. J Prosthet Dent. 2021;125:704.e1-704.e8.
  • 29. Younis M, Unkovskiy A, ElAyouti A, Geis-Gerstorfer J, Spintzyk S. The effect of various plasma gases on the shear bond strength between unfilled polyetheretherketone (PEEK) and veneering composite following artificial aging. Materials (Basel). 2019;12:1-9.
  • 30. Henriques B, Fabris D, Mesquita-Guimarães J, Sousa A, Hammes N, Souza J, Fredel M. Influence of laser structuring of PEEK, PEEK-GF30 and PEEK-CF30 surfaces on the shear bond strength to a resin cement. J Mech Behav Biomed Mater. 2018;84:225-34.
  • 31. Caglar I, Ates SM, Yesil Duymus Z. An In Vitro Evaluation of the Effect of Various Adhesives and Surface Treatments on Bond Strength of Resin Cement to Polyetheretherketone. J Prosthodont. 2019;28:e342-e349.
  • 32. Okawa S, Taka N, Aoyagi Y. Effect of modification with helium atmospheric-pressure plasma and deep-ultraviolet light on adhesive shear strength of fiber-reinforced poly(ether-ether-ketone) polymer. J Funct Biomater. 2020;11:27.
  • 33. Okawa S, Aoyagi Y, Kimura T, Izumi K. Effect of pre-coating with methyl methacrylate containing UV photoinitiators on the bond strength of poly(ether ether ketone). Dent Mater J. 2021;40:519-24. 34. Sproesser O, Schmidlin PR, Uhrenbacher J, Roos M, Gernet W, Stawarczyk B. Effect of sulfuric acid etching of polyetheretherketone on the shear bond strength to resin cements. J Adhes Dent. 2014;16:465-72.
  • 35. Ourahmoune R, Salvia M, Mathia TG, Mesrati N. Surface morphology and wettability of sandblasted PEEK and its composites. Scanning. 2014;36:64-75.
  • 36. Han K-H, Lee J-Y, Shin S. Implant- and Tooth-Supported Fixed Prostheses Using a High-Performance Polymer (Pekkton) Framework. Int J Prosthodont. 2016;29:451-4.
  • 37. Sakihara M, Taira Y, Sawase T. Effects of sulfuric and vinyl sulfonic acid etchants on bond strength of resin composite to polyetherketoneketone. Odontology. 2019;107:158-64.
  • 38. Stawarczyk B, Silla M, Roos M, Eichberger M, Lümkemann N. Bonding behaviour of polyetherketoneketone to methylmethacrylate- and dimethacrylate-based polymers. J Adhes Dent. 2017;19:331-8.
  • 39. Younis M, Unkovskiy A, Drexler T, Qian J, Wan G, Spintzyk S. The impact of non-thermal plasma on the adhesion of polyetherketoneketone (PEKK) to a veneering composite system. J Mech Behav Biomed Mater. 2020;112:104065.
  • 40. Dede DÖ, Küçükekenci AS, Kahveci Ç. Influence of chairside surface treatments on the shear bond strength of PEKK polymer to veneering resin materials: An in vitro study. J Prosthet Dent. 2021;125:703.e1-703.e7.
  • 41. Song CH, Choi JW, Jeon YC, Jeong CM, Lee SH, Kang ES, Huh J.B. Comparison of the microtensile bond strength of a Polyetherketoneketone (PEKK) tooth post cemented with various surface treatments and various resin cements. Materials (Basel). 2018;11:1-14.
  • 42. Gama LT, Duque TM, Özcan M, Philippi AG, Mezzomo LAM, Gonçalves TMSV. Adhesion to high-performance polymers applied in dentistry: A systematic review. Dent Mater. 2020;36:e93-e108.
  • 43. Schmidlin PR, Stawarczyk B, Wieland M, Attin T, Hämmerle CHF, Fischer J. Effect of different surface pre-treatments and luting materials on shear bond strength to PEEK. Dent Mater. 2010;26:553-9. 44. Silthampitag P, Chaijareenont P, Tattakorn K, Banjongprasert C, Takahashi H, Arksornnukit M. Effect of surface pretreatments on resin composite bonding to PEEK. Dent Mater J. 2016;35:668-74.
  • 45. Ananth H, Kundapur V, Mohammed HS, Anand M, Amarnath GS, Mankar S. A review on biomaterials in dental implantology. Int J Biomed Sci. 2015;11:113-20.
  • 46. Kern M, Thompson VP. Sandblasting and silica-coating of dental alloys: volume loss, morphology and changes in the surface composition. Dent Mater. 1993;9:155-61.
  • 47. Ateş SM, Çaglar I, Yeşil Duymuş Z. The effect of different surface pretreatments on the bond strength of veneering resin to polyetheretherketone. J Adhes Sci Technol. 2018;32:2220-31.
  • 48. Fuhrmann G, Steiner M, Freitag-Wolf S, Kern M. Resin bonding to three types of polyaryletherketones (PAEKs) - Durability and influence of surface conditioning. Dent Mater. 2014;30:357-63.
  • 49. Özcan M, Vallittu PK. Effect of surface conditioning methods on the bond strength of luting cement to ceramics. Dent Mater. 2003;19:725-31.
  • 50. Peutzfeldt A, Asmussen E. Silicoating: evaluation of a new method of bonding composite resin to metal. Eur J Oral Sci. 1988;96:171-6.
  • 51. Kern M, Lehmann F. Influence of surface conditioning on bonding to polyetheretherketon (PEEK). Dent Mater. 2012;28:1280-3.
  • 52. Chaijareenont P, Prakhamsai S, Silthampitag P, Takahashi H, Arksornnukit M. Effects of different sulfuric acid etching concentrations on PEEK surface bonding to resin composite. Dent Mater J. 2018;37:385-92.
  • 53. Uhrenbacher J, Schmidlin PR, Keul C, Eichberger M, Roos M, Gernet W, Stawarczyk B. The effect of surface modification on the retention strength of polyetheretherketone crowns adhesively bonded to dentin abutments. J Prosthet Dent. 2014;112:1489-97.
  • 54. Hallmann L, Mehl A, Sereno N, Hämmerle CHF. The improvement of adhesive properties of PEEK through different pre-treatments. Appl Surf Sci. 2012;258:7213-8.
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  • 56. Pelagade S, Singh NL, Shah S, Qureshi A, Rane RS, Mukherjee S, Deshpande UP, Ganesan V, Shripathi T. Surface free energy analysis for bipolar pulsed argon plasma treated polymer films. J Phys Conf Ser. 23rd National Symposium on Plasma Science & Technology (PLASMA-2008) 10–13 December 2008, Bhabha Atomic Research Center, Trombay, Mumbai, India: IOP Publishing; 2010;208(1). p. 012107.
  • 57. Kim S, Lee KJ, Seo Y. Polyetheretherketone (PEEK) Surface Functionalization by Low-Energy Ion-Beam Irradiation under a Reactive O2 Environment and Its Effect on the PEEK/Copper Adhesives. Langmuir. 2004;20:157-63.
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  • 59. Stawarczyk B, Bähr N, Beuer F, Wimmer T, Eichberger M, Gernet W, Jahn D, Schmidlin P.R. Influence of plasma pretreatment on shear bond strength of self-adhesive resin cements to polyetheretherketone. Clin Oral Investig. 2014;18:163-70.
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Yüksek performanslı polimerlerin bazı dental materyaller ile bağlanma dayanımlarının değerlendirilmesi: Bir derleme

Yıl 2022, Cilt: 32 Sayı: 4 - 2022, 32:4, 315 - 323, 21.10.2022
https://doi.org/10.17567/ataunidfd.1032064

Öz

Polietereterketon ve polieterketonketon, poliarileterketon ailesine ait termoplastik polimerlerdir. Kabul edilebilir kırılma dayanımı ve şok absorbe etme özellikleri nedeniyle, bu yüksek performanslı polimerler diş hekimliğinde alternatif dental alt yapı malzemeleri olarak kullanıma başlanmıştır. Bununla birlikte grimsi beyaz rengi ve düşük yarı saydamlılığı poliarileterketon materyallerinin monolitik diş restorasyonu olarak kullanımını sınırlamaktadır. Estetik kabulü için mutlaka kaplama (veneer) materyali ile birlikte kullanımı gerekmektedir. Fakat veneer materyali ile bağlanması için polietereterketon ve polieterketonketon yüzeylerine mekanik veya kimyasal işlem uygulama gereksinimi ortaya çıkmaktadır. Bu derlemenin amacı, poliarileterketon termoplastik polimerlerin dental materyaller ile bağlanma dayanımlarını değerlendirmek ve bu konuda yapılan çalışmaları irdelemektir. Ocak 1988’den Haziran 2021’e kadar hem Pubmed, Cochrane Library, Evidence Based Dentistry veri tabanlarında hem de ilave olarak el ile arama yöntemi kullanılarak; “PEEK or PEKK” and “surface treatment or surface modification” and bond strength anahtar kelimeleriyle gerçekleştirilen tarama sonucunda; 72 adet literatür bulundu. Bunların incelenmesi sonrası henüz yayınlanmamış 4, tam metin erişimi olmayan 1, poliarileterketon materyallerinin biyomedikal uygulamalarda osseointegrasyon kapasitesini değerlendiren (dental materyallerin bağlanma dayanımı ile ilişkin olmayan) 4 adet olmak üzere toplam 9 adet çalışma elendi. 52 in vitro araştırma makalesi, 1 in vivo araştırma makalesi, 8 derleme ve 2 vaka raporu olmak üzere toplam 63 literatür derlemeye dahil edildi. Yapılan irdelemeler, polietereterketon veya polieterketonketon polimerleri ile dental materyaller arasında bir bağlanma oluşturmak için polietereterketon ve polieterketonketon yüzeylerinin mekanik ve/veya kimyasal bir yüzey işlemi ile pürüz lendi rilme sinin ; ilave olarak da bir adeziv ajanın yüzeye uygulanmasının gerekliliğini ortaya koymaktadır.

Anahtar Kelimeler: Yapıştırıcılar, polietereterketon, polieterketonketon, kayma mukavemeti, gerilme direnci

Kaynakça

  • 1. Webber B, McDonald A, Knowles J. An in vitro study of the compressive load at fracture of Procera AllCeram crowns with varying thickness of veneer porcelain. J Prosthet Dent. 2003;89:154-60.
  • 2. Karunagaran S, Paprocki GJ, Wicks R, Markose S. A review of implant abutments--abutment classification to aid prosthetic selection. J Tenn Dent Assoc. 2013;93:18-23.
  • 3. Simsiriwong J, Shrestha R, Shamsaei N, Lugo M, Moser RD. Effects of microstructural inclusions on fatigue life of polyether ether ketone (PEEK). J Mech Behav Biomed Mater. 2015;51:388-397.
  • 4. Stawarczyk B, Jordan P, Schmidlin PR, Roos M, Eichberger M, Gernet W, Keul C. PEEK surface treatment effects on tensile bond strength to veneering resins. J Prosthet Dent. 2014;112:1278-88.
  • 5. Fokas G, Guo CY, Tsoi JKH. The effects of surface treatments on tensile bond strength of polyether-ketone-ketone (PEKK) to veneering resin. J Mech Behav Biomed Mater. 2019;93:1-8.
  • 6. Çulhaoğlu AK, Özkır SE, Türkkal F. Polieter eter keton (PEEK) ve dental kullanımı. Atatürk Üniv Diş Hek Fak Derg. 2019;29:711-8.
  • 7. Dawson JH, Hyde B, Hurst M, Harris BT, Lin WS. Polyetherketoneketone (PEKK), a framework material for complete fixed and removable dental prostheses: A clinical report. J Prosthet Dent. 2018;119:867-72.
  • 8. Klur T, Hasan I, Ottersbach K, Stark H, Fichte M, Dirk C, Bourauel C. PEKK-made indirect temporary crowns and bridges: a clinical pilot study. Clin Oral Investig. 2019;23:771-7.
  • 9. Labriaga W, Song SY, Park JH, Ryu JJ, Lee JY, Shin SW. Effect of non-thermal plasma on the shear bond strength of resin cements to Polyetherketoneketone (PEKK). J Adv Prosthodont. 2018;10:408-14.
  • 10. Stawarczyk B, Beuer F, Wimmer T, Jahn D, Sener B, Roos M, Schmidlin P.R. Polyetheretherketone - A suitable material for fixed dental prostheses? J Biomed Mater Res - Part B Appl Biomater. 2013;101:1209-16.
  • 11. Taş N, Eğilmez F. İmplant destekli hibrit protezlerin yapımında kullanılan materyaller ve üretim yöntemleri. Atatürk Üniv Diş Hek Fak Derg. 2021;31:305-15.
  • 12. Benli M, Eker Gümüş B, Kahraman Y, Huck O, Özcan M. Surface characterization and bonding properties of milled polyetheretherketone dental posts. Odontology. 2020;108:596-606.
  • 13. Tsuka H, Morita K, Kato K, Kimura H, Abekura H, Hirata I, Tsuga K. Effect of laser groove treatment on shear bond strength of resin-based luting agent to polyetheretherketone (PEEK). J Prosthodont Res. 2019;63:52-7.
  • 14. Rocha RFV, Anami LC, Campos TMB, de Melo RM, e Souza RO de A, Bottino MA. Bonding of the polymer polyetheretherketone (PEEK) to human dentin: Effect of surface treatments. Braz Dent J. 2016;27:693-9.
  • 15. Teng R, Meng Y, Zhao X, Liu J, Ding R, Cheng Y, Zhang Y, Zhang Y, Pei D, Li A. Combination of Polydopamine Coating and Plasma Pretreatment to Improve Bond Ability Between PEEK and Primary Teeth. Front Bioeng Biotechnol. 2021;8:1-9.
  • 16. Lee KS, Shin MS, Lee JY, Ryu JJ, Shin SW. Shear bond strength of composite resin to high performance polymer PEKK according to surface treatments and bonding materials. J Adv Prosthodont. 2017;9:350-7.
  • 17. Zhou L, Qian Y, Zhu Y, Liu H, Gan K, Guo J. The effect of different surface treatments on the bond strength of PEEK composite materials. Dent Mater. 2014;30:e209-e215.
  • 18. Kurahashi K, Matsuda T, Ishida Y, Ichikawa T. Effect of surface treatments on shear bond strength of polyetheretherketone to autopolymerizing resin. Dent J. 2019;7:1-8.
  • 19. Peng T, Shimoe S, Fuh L, Lin C, Lin D, Kaku M. Bonding and Thermal Cycling Performances of Two (Poly)Aryl-Ether-Ketone (PAEKs) Materials to an Acrylic Denture Base Resin. Polymers (Basel). 2021;13:1-14.
  • 20. Jahandideh Y, Falahchai M, Pourkhalili H. Effect of surface treatment with Er:Yag and CO2 lasers on shear bond strength of polyether ether ketone to composite resin veneers. J Lasers Med Sci. 2020;11:153-9.
  • 21. Escobar M, Souza JCM, Barra GMO, Fredel MC, Özcan M, Henriques B. On the synergistic effect of sulfonic functionalization and acidic adhesive conditioning to enhance the adhesion of PEEK to resin-matrix composites. Dent Mater. 2021;37:741-54.
  • 22. Rosentritt M, Preis V, Behr M, Sereno N, Kolbeck C. Shear bond strength between veneering composite and PEEK after different surface modifications. Clin Oral Investig. 2015;19:739-44.
  • 23. Keul C, Liebermann A, Schmidlin PR, Roos M, Sener B, Stawarczyk B. Influence of PEEK surface modification on surface properties and bond strength to veneering resin composites. J Adhes Dent. 2014;16:383-92.
  • 24. Çulhaoğlu AK, Özkır SE, Şahin V, Yılmaz B, Kılıçarslan MA. Effect of Various Treatment Modalities on Surface Characteristics and Shear Bond Strengths of Polyetheretherketone-Based Core Materials. J Prosthodont. 2020;29:136-41.
  • 25. Bötel F, Zimmermann T, Sütel M, Müller WD, Schwitalla AD. Influence of different low-pressure plasma process parameters on shear bond strength between veneering composites and PEEK materials. Dent Mater. 2018;34:e246-e254.
  • 26. Schwitalla AD, Bötel F, Zimmermann T, Sütel M, Müller WD. The impact of argon/oxygen low-pressure plasma on shear bond strength between a veneering composite and different PEEK materials. Dent Mater. 2017;33:990-4.
  • 27. Stawarczyk B, Keul C, Beuer F, Roos M, Schmidlin PR. Tensile bond strength of veneering resins to PEEK: Impact of different adhesives. Dent Mater J. 2013;32:441-8.
  • 28. Barto A, Vandewalle KS, Lien W, Whang K. Repair of resin-veneered polyetheretherketone after veneer fracture. J Prosthet Dent. 2021;125:704.e1-704.e8.
  • 29. Younis M, Unkovskiy A, ElAyouti A, Geis-Gerstorfer J, Spintzyk S. The effect of various plasma gases on the shear bond strength between unfilled polyetheretherketone (PEEK) and veneering composite following artificial aging. Materials (Basel). 2019;12:1-9.
  • 30. Henriques B, Fabris D, Mesquita-Guimarães J, Sousa A, Hammes N, Souza J, Fredel M. Influence of laser structuring of PEEK, PEEK-GF30 and PEEK-CF30 surfaces on the shear bond strength to a resin cement. J Mech Behav Biomed Mater. 2018;84:225-34.
  • 31. Caglar I, Ates SM, Yesil Duymus Z. An In Vitro Evaluation of the Effect of Various Adhesives and Surface Treatments on Bond Strength of Resin Cement to Polyetheretherketone. J Prosthodont. 2019;28:e342-e349.
  • 32. Okawa S, Taka N, Aoyagi Y. Effect of modification with helium atmospheric-pressure plasma and deep-ultraviolet light on adhesive shear strength of fiber-reinforced poly(ether-ether-ketone) polymer. J Funct Biomater. 2020;11:27.
  • 33. Okawa S, Aoyagi Y, Kimura T, Izumi K. Effect of pre-coating with methyl methacrylate containing UV photoinitiators on the bond strength of poly(ether ether ketone). Dent Mater J. 2021;40:519-24. 34. Sproesser O, Schmidlin PR, Uhrenbacher J, Roos M, Gernet W, Stawarczyk B. Effect of sulfuric acid etching of polyetheretherketone on the shear bond strength to resin cements. J Adhes Dent. 2014;16:465-72.
  • 35. Ourahmoune R, Salvia M, Mathia TG, Mesrati N. Surface morphology and wettability of sandblasted PEEK and its composites. Scanning. 2014;36:64-75.
  • 36. Han K-H, Lee J-Y, Shin S. Implant- and Tooth-Supported Fixed Prostheses Using a High-Performance Polymer (Pekkton) Framework. Int J Prosthodont. 2016;29:451-4.
  • 37. Sakihara M, Taira Y, Sawase T. Effects of sulfuric and vinyl sulfonic acid etchants on bond strength of resin composite to polyetherketoneketone. Odontology. 2019;107:158-64.
  • 38. Stawarczyk B, Silla M, Roos M, Eichberger M, Lümkemann N. Bonding behaviour of polyetherketoneketone to methylmethacrylate- and dimethacrylate-based polymers. J Adhes Dent. 2017;19:331-8.
  • 39. Younis M, Unkovskiy A, Drexler T, Qian J, Wan G, Spintzyk S. The impact of non-thermal plasma on the adhesion of polyetherketoneketone (PEKK) to a veneering composite system. J Mech Behav Biomed Mater. 2020;112:104065.
  • 40. Dede DÖ, Küçükekenci AS, Kahveci Ç. Influence of chairside surface treatments on the shear bond strength of PEKK polymer to veneering resin materials: An in vitro study. J Prosthet Dent. 2021;125:703.e1-703.e7.
  • 41. Song CH, Choi JW, Jeon YC, Jeong CM, Lee SH, Kang ES, Huh J.B. Comparison of the microtensile bond strength of a Polyetherketoneketone (PEKK) tooth post cemented with various surface treatments and various resin cements. Materials (Basel). 2018;11:1-14.
  • 42. Gama LT, Duque TM, Özcan M, Philippi AG, Mezzomo LAM, Gonçalves TMSV. Adhesion to high-performance polymers applied in dentistry: A systematic review. Dent Mater. 2020;36:e93-e108.
  • 43. Schmidlin PR, Stawarczyk B, Wieland M, Attin T, Hämmerle CHF, Fischer J. Effect of different surface pre-treatments and luting materials on shear bond strength to PEEK. Dent Mater. 2010;26:553-9. 44. Silthampitag P, Chaijareenont P, Tattakorn K, Banjongprasert C, Takahashi H, Arksornnukit M. Effect of surface pretreatments on resin composite bonding to PEEK. Dent Mater J. 2016;35:668-74.
  • 45. Ananth H, Kundapur V, Mohammed HS, Anand M, Amarnath GS, Mankar S. A review on biomaterials in dental implantology. Int J Biomed Sci. 2015;11:113-20.
  • 46. Kern M, Thompson VP. Sandblasting and silica-coating of dental alloys: volume loss, morphology and changes in the surface composition. Dent Mater. 1993;9:155-61.
  • 47. Ateş SM, Çaglar I, Yeşil Duymuş Z. The effect of different surface pretreatments on the bond strength of veneering resin to polyetheretherketone. J Adhes Sci Technol. 2018;32:2220-31.
  • 48. Fuhrmann G, Steiner M, Freitag-Wolf S, Kern M. Resin bonding to three types of polyaryletherketones (PAEKs) - Durability and influence of surface conditioning. Dent Mater. 2014;30:357-63.
  • 49. Özcan M, Vallittu PK. Effect of surface conditioning methods on the bond strength of luting cement to ceramics. Dent Mater. 2003;19:725-31.
  • 50. Peutzfeldt A, Asmussen E. Silicoating: evaluation of a new method of bonding composite resin to metal. Eur J Oral Sci. 1988;96:171-6.
  • 51. Kern M, Lehmann F. Influence of surface conditioning on bonding to polyetheretherketon (PEEK). Dent Mater. 2012;28:1280-3.
  • 52. Chaijareenont P, Prakhamsai S, Silthampitag P, Takahashi H, Arksornnukit M. Effects of different sulfuric acid etching concentrations on PEEK surface bonding to resin composite. Dent Mater J. 2018;37:385-92.
  • 53. Uhrenbacher J, Schmidlin PR, Keul C, Eichberger M, Roos M, Gernet W, Stawarczyk B. The effect of surface modification on the retention strength of polyetheretherketone crowns adhesively bonded to dentin abutments. J Prosthet Dent. 2014;112:1489-97.
  • 54. Hallmann L, Mehl A, Sereno N, Hämmerle CHF. The improvement of adhesive properties of PEEK through different pre-treatments. Appl Surf Sci. 2012;258:7213-8.
  • 55. Kim JH, Lee MA, Han GJ, Cho BH. Plasma in dentistry: A review of basic concepts and applications in dentistry. Acta Odontol Scand. 2014;72:1-12.
  • 56. Pelagade S, Singh NL, Shah S, Qureshi A, Rane RS, Mukherjee S, Deshpande UP, Ganesan V, Shripathi T. Surface free energy analysis for bipolar pulsed argon plasma treated polymer films. J Phys Conf Ser. 23rd National Symposium on Plasma Science & Technology (PLASMA-2008) 10–13 December 2008, Bhabha Atomic Research Center, Trombay, Mumbai, India: IOP Publishing; 2010;208(1). p. 012107.
  • 57. Kim S, Lee KJ, Seo Y. Polyetheretherketone (PEEK) Surface Functionalization by Low-Energy Ion-Beam Irradiation under a Reactive O2 Environment and Its Effect on the PEEK/Copper Adhesives. Langmuir. 2004;20:157-63.
  • 58. Comyn J, Mascia L, Xiao G, Parker BM. Plasma-treatment of polyetheretherketone (PEEK) for adhesive bonding. Int J Adhes Adhes. 1996;16:97-104.
  • 59. Stawarczyk B, Bähr N, Beuer F, Wimmer T, Eichberger M, Gernet W, Jahn D, Schmidlin P.R. Influence of plasma pretreatment on shear bond strength of self-adhesive resin cements to polyetheretherketone. Clin Oral Investig. 2014;18:163-70.
  • 60. Şen S, Ergün Kunt G, Ceylan G. Lazerler ve Protez Öncesi Uygulama Alanları. Ege Üniversitesi Dişhekimliği Fakültesi Derg. 2010;31:1-8.
  • 61. Cernavin I, Pugatschew A, de Boer N, Tyas MJ. Laser applications in dentistry: A review of the literature. Aust Dent J. 1994;39:28-32.
  • 62. Riveiro A, Soto R, Comesaña R, Boutinguiza M, del Val J, Quintero F, Pou J. Laser surface modification of PEEK. Appl Surf Sci. 2012;258:9437-42.
  • 63. Rosentritt M, Behr M, Van Der Zel JM, Feilzer AJ. Shear bond strength of cement to zirconia. J Adhes Sci Technol. 2009;23:1125-32.
Toplam 61 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Diş Hekimliği
Bölüm Derlemeler
Yazarlar

Gülfem Ergün Bu kişi benim

Bahar Tekli Bu kişi benim

Yayımlanma Tarihi 21 Ekim 2022
Gönderilme Tarihi 17 Ağustos 2021
Yayımlandığı Sayı Yıl 2022 Cilt: 32 Sayı: 4 - 2022, 32:4

Kaynak Göster

AMA Ergün G, Tekli B. Yüksek performanslı polimerlerin bazı dental materyaller ile bağlanma dayanımlarının değerlendirilmesi: Bir derleme. Curr Res Dent Sci. Ekim 2022;32(4):315-323. doi:10.17567/ataunidfd.1032064

Current Research in Dental Sciences is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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