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Fibers in Prosthetic Dentistry

Yıl 2021, Cilt: 3 Sayı: 2, 1 - 27, 30.06.2021

Öz

Nowadays, dental restorations that made with fiber-reinforced materials are increasingly common. Fibers are used in many areas of dentistry due to its various advantages such as being biocompatible with dental tissue, having good aesthetic properties, requiring less preparation in dental tissue, having similar elastic modulus with tooth, simplicity of the production process and low treatment cost. The purpose of this review is to provide an overview of fibers use in prosthetic dental treatment.

Kaynakça

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Protetik Diş Hekimliğinde Fiberler

Yıl 2021, Cilt: 3 Sayı: 2, 1 - 27, 30.06.2021

Öz

Günümüzde fiberle güçlendirilmiş materyaller ile yapılan dental restorasyonlar giderek daha yaygın hale gelmektedir. Fiberler, diş dokusu ile biyouyumlu olmaları, estetik özelliklerinin iyi olması, diş dokusunda daha az preparasyon gerektirmesi, elastik modulüsünün dişe yakın olması, üretim sürecinin basit olması ve düşük tedavi maliyeti gibi çeşitli avantajlarından dolayı diş hekimliğinin pek çok alanında kullanılmaktadır. Bu derlemenin amacı, fiberlerin protetik diş tedavisinde kullanımları hakkında genel bir bilgi vermektir.

Kaynakça

  • 1. Schwartz RS, Robbins JW. Post placement and restoration of endodontically treated teeth: a literature review. J Endod. 2004;30(5):289-301.
  • 2. Keyf F, Uzun G. The effect of glass fibre-reinforcement on the transverse strength, deflection and modulus of elasticity of repaired acrylic resins. Int Dent J. 2000;50(2): 93-97.
  • 3. Freilich MA. Fiber-reinforced composites in clinical dentistry: Quintessence Publishing (IL); 2000.
  • 4. Uzun G, Hersek N, Tincer T. Effect of five woven fiber reinforcements on the impact and transverse strength of a denture base resin. J Prosthet Dent. 1999;81(5):616-620.
  • 5. Malquarti G, Berruet RG, Bois D. Prosthetic use of carbon fiber-reinforced epoxy resin for esthetic crowns and fixed partial dentures. J Prosthet Dent. 1990;63(3):251-257.
  • 6. Schreiber CK. The clinical application of carbon fibre/polymer denture bases. Br Dent J. 1974;137(1):21-22.
  • 7. DeBoer J, Vermilyea SG, Brady RE. The effect of carbon fiber orientation on the fatigue resistance and bending properties of two denture resins. J Prosthet Dent. 1984;51(1):119-121.
  • 8. Grave AMH, Chandler HD, Wolfaardt JF. Denture base acrylic reinforced with high modulus fibre. Dent Mater. 1985;1(5):185-187.
  • 9. Schreiber CK. Polymethylmethacrylate reinforced with carbon fibres. Br Dent J. 1971;130(1):29-30.
  • 10. Goldberg AJ, Burstone CJ. The use of continuous fiber reinforcement in dentistry. Dent Mater. 1992;8(3):197-202.
  • 11. Ruyter IE, Ekstrand K, Björk N. Development of carbon/graphite fiber reinforced poly (methyl methacrylate) suitable for implant-fixed dental bridges. Dent Mater. 1986;2(1):6-9.
  • 12. Diamond M. Resin fiberglass bonded retainer. J Clin Orthod. 1987;21(3):182-183.
  • 13. Levenson MF. The use of a clear, pliable film to form a fiberglass-reinforced splint. J Am Dent Assoc. 1986;112(1):79-80.
  • 14. Mullarky RH. Aramid fiber reinforcement of acrylic appliances. J Clin Orthod. 1985;19(9):655-658.
  • 15. Björk N, Ekstrand K, Ruyter IE. Implant-fixed, dental bridges from carbon/graphite fibre reinforced poly (methyl methacrylate). Biomaterials. 1986;7(1):73-75.
  • 16. Çal NE, Hersek N, Şahin E. Water sorption and dimensional changes of denture base polymer reinforced with glass fibers in continuous unidirectional and woven form. Int J Prosthodont. 2000;13(6):487-493.
  • 17. Yazdanie N, Mahood M. Carbon fiber acrylic resin composite: an investigation of transverse strength. J Prosthet Dent. 1985;54(4):543-547.
  • 18. Jagger DC, Harrison A. The effect of chopped poly (methyl methacrylate) fibers on some properties of acrylic resin denture base material. Int J Prosthodont. 1999;12(6):542-546.
  • 19. Vallittu PK, Ekstrand K. In vitro cytotoxicity of fibre–polymethyl methacrylate composite used in dentures. J Oral Rehabil. 1999;26(8):666-671.
  • 20. Cheng TH, Jones FR, Wang D. Effect of fibre conditioning on the interfacial shear strength of glass-fibre composites. Compos Sci Technol. 1993;48(1-4):89-96.
  • 21. Ladizesky NH, Cheng YY, Chow TW, Ward IM. Acrylic resin reinforced with chopped high performance polyethylene fiber-properties and denture construction. Dent Mater. 1993;9(2):128-135.
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  • 71. Vallittu PK. Acrylic resin-fiber composite—Part II: The effect of polymerization shrinkage of polymethyl methacrylate applied to fiber roving on transverse strength. J Prosthet Dent. 1994;71(6):613-617.
  • 72. Solnit GS. The effect of methyl methacrylate reinforcement with silane-treated and untreated glass fibers. J Prosthet Dent. 1991;66(3):310-314.
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  • 74. Runyan DA, Christensen LC. The effect of plasma-treated polyethylene fiber on the fracture strength of polymethyl methacrylate. J Prosthet Dent. 1996;76(1):94-96.
  • 75. Miettinen VM, Vallittu PK. Water sorption and solubility of glass fiber-reinforced denture polymethyl methacrylate resin. J Prosthet Dent. 1997;77(5):531-534.
  • 76. Bae JM, Kim KN, Hattori M, Hasegawa K, Yoshinari M, Kawada E, Oda Y. The flexural properties of fiber-reinforced composite with light-polymerized polymer matrix. Int J Prosthodont. 2001;14(1):33-39.
  • 77. Vallittu PK, Ruyter I, Ekstrand K. Effect of water storage on the flexural properties of E-glass and silica fiber acrylic resin composite. Int J Prosthodont. 1998;11(4):340-350.
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  • 79. Zhang M, Matinlinna JP. E-glass fiber reinforced composites in dental applications. Silicon. 2012;4(1):73-78.
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  • 81. Kolbeck C, Rosentritt M, Behr M, Schneider S, Handel G. Fracture strength and bond capacities of electron irradiated fiber reinforced composites. Dent Mater. 2007;23(12):1529-1534.
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  • 84. Kim SH, Watts DC. Effect of Glass-Fiber Reinforcement and Water Storage on Fracture Toughness (K IC) of Polymer-Based Provisional Crown and FPD Materials. Int J Prosthodont. 2004;17(3):318-322.
  • 85. Bowman AJ, Manley TR. The elimination of breakages in upper dentures by reinforcement with carbon fibre. Br Dent J. 1984;156(3), 87-89.
  • 86. Vallittu PK. Ultra-high-modulus polyethylene ribbon as reinforcement for denture polymethyl methacrylate: a short communication. Dent Mater. 1997;13(5-6):381-382.
  • 87. Gutteridge DL. The effect of including ultra-high-modulus polyethylene fibre on the impact strength of acrylic resin. Br Dent J. 1988;164(6):177-180.
  • 88. Vallittu PK. Curing of a silane coupling agent and its effect on the transverse strength of autopolymerizing polymethylmethacrylate—glass fibre composite. J Oral Rehabil. 1997;24(2):124-130.
  • 89. Crysanti Cagidiaco M, Garci-Godoy F, Vichi A. Placement Of Fiber Prefabricated Or Custom Made Posts Affects The 3-Year Survival Of Endodontically Treated Premolars. Am J Dent. 2008;21:179-184.
  • 90. Fernandes AS, Dessai GS. Factors affecting the fracture resistance of post-core reconstructed teeth: a review. Int J Prosthodont. 2001;14(4):355-363.
  • 91. Fernandes AS, Shetty S, Coutinho I. Factors determining post selection: a literature review. J Prosthet Dent. 2003;90(6):556-562.
  • 92. Görüş Z, Meşe A, Evran OE, Çetindağ MT. Diş Hekimliğinde Kullanılan Fiber Post Sistemleri. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi. 2019;29(3):519-525.
  • 93. Yaman SD, Alaçam T, Yaman Y. Analysis of stress distribution in a maxillary central incisor subjected to various post and core applications. J Endod. 1998;24(2):107-111.
  • 94. Koutayas SO, Kern M. All-ceramic posts and cores: the state of the art. Quintessence international. 1999;6:383-392.
  • 95. Assif D, Gorfil C. Biomechanical considerations in restoring endodontically treated teeth. J Prosthet Dent. 1994;71(6):565-567.
  • 96. Tait CME, Ricketts DNJ, Higgins AJ. Weakened anterior roots–intraradicular rehabilitation. Br Dent J. 2005;198(10):609-617.
  • 97. Aksornmuang J, Foxton RM, Nakajima M, Tagami J. Microtensile bond strength of a dual-cure resin core material to glass and quartz fibre posts. J Dent. 2004;32(6):443-450.
  • 98. Toksavul S, Toman M, Uyulgan B, Schmage P, Nergiz I. Effect of luting agents and reconstruction techniques on the fracture resistance of pre‐fabricated post systems. J Oral Rehabil. 2005;32(6):433-440.
  • 99. Bouillaguet S, Troesch S, Wataha JC, Krejci I, Meyer JM, Pashley DH. Microtensile bond strength between adhesive cements and root canal dentin. Dent Mater. 2003;19(3), 199-205.
  • 100. Trabert KC, Cooney JP. The endodontically treated tooth. Restorative concepts and techniques. Dent Clin North Am. 1984;28(4):923-951.
  • 101. Karaalioğlu O, Duymuş ZY. Fiberle Güçlendirilmiş Kompozitlerin Sabit Bölümlü Protez Yapiminda Kullanimlari. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi. 2008;2008(2), 70-77.
  • 102. Freilich MA, Meiers JC, Duncan JP, Eckrote KA, Goldberg AJ. Clinical evaluation of fiber-reinforced fixed bridges. J Am Dent Assoc. 2002;133(11):1524-1534.
  • 103. Agrawal KK, Chand P, Mishra N, Singh K. Glass fiber reinforced composite fixed partial denture as provisional tooth replacement in pre-adolescent age: A clinical report. J Interdiscip Dent. 2012;2(1):51-53.
  • 104. Baysal N, Ayyıldız S. Sabit Bölümlü Protezlerde Fiberle Güçlendirilmiş Kompozit Rezin Kullanimi. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi. 2014;24(2):315-325.
  • 105. Gürbulak AG, Çölgeçen Ö, Kesim B. Fiberle güçlendirilmiş adeziv köprüler. Dicle Diş Hek Derg. 2009;10:55-62.
  • 106. Üstün Y, Demirbuğa S, Ülker M. Üst Orta Keser Diş Eksikliğinin Geçici Olarak Fiberle Güçlendirilmiş Adeziv Köprü Ile Restorasyonu: Vaka Raporu. Sağlık Bilim Derg. 2010;19(3):209-215.
  • 107. Garoushi SK, Lassila LV, Vallittu PK. Fibre-reinforced composite in clinical dentistry. Chin J Dent Res. 2009;12(1), 7-14.
  • 108. van Heumen CC, van Dijken JW, Tanner J, Pikaar R, Lassila LV, Creugers NH, Kreulen CM. Five-year survival of 3-unit fiber-reinforced composite fixed partial dentures in the anterior area. Dent Mater. 2009;25(6):820-827.
  • 109. van Heumen CC, Tanner J, van Dijken JW, Pikaar R, Lassila LV, Creugers NH, Kreulen CM. Five-year survival of 3-unit fiber-reinforced composite fixed partial dentures in the posterior area. Dent Mater. 2010;26(10):954-960.
  • 110. Rosentiel SF, Land MF, Fujimoto J. Fiber reinforced composite fixed prostheses. Dolan J. 4th ed. Elsevier Mosby. St. Louis, Miss. 2006;830-840.
  • 111. Göehring TN, Peters OA, Lutz F. Marginal adaptation of inlay-retained adhesive fixed partial dentures after mechanical and thermal stress: an in vitro study. J Prosthet Dent. 2001;86(1):81-92.
  • 112. Edelhoff D, Spiekermann H, Yildirim M. Metal-free inlay-retained fixed partial dentures. Quintessence International. 2001;32(4):269-281.
  • 113. Li W, Swain MV, Li Q, Ironside J, Steven GP. Fibre reinforced composite dental bridge.: Part I: experimental investigation. Biomaterials. 2004;25(20):4987-4993.
  • 114. Abbasi J., Bertolotti RL, Lacy AM, Watanabe LG. Bond strengths of porcelain repair monomers. J Dent Res. 1988;67:223-229.
  • 115. Chung KH, Hwang YC. Bonding strengths of porcelain repair systems with various surface treatments. J Prosthet Dent.1997; 78(3):267-274.
  • 116. Özcan M, Van Der Sleen JM, Kurunmäki H, Vallittu PK. Comparison of repair methods for ceramic‐fused‐to‐metal crowns. J Prosthodont. 2006;15(5):283-288.
  • 117. Fennis WM, Tezvergil A, Kuijs RH, Lassila LV, Kreulen CM, Creugers NH, Vallittu PK. In vitro fracture resistance of fiber reinforced cusp-replacing composite restorations. Dent Mater. 2005;21(6):565-572.
  • 118. Cekic I, Ergun G, Uctasli S, Lassila LV. In vitro evaluation of push-out bond strength of direct ceramic inlays to tooth surface with fiber-reinforced composite at the interface. J Prosthet Dent. 2007;97(5):271-278.
  • 119. Ergun G, Cekic I, Lassila LV, Vallittu, PK. Bonding of lithium-disilicate ceramic to enamel and dentin using orthotropic fiber-reinforced composite at the interface. Acta Odontol Scand. 2006;64(5):293-299.
  • 120. Tezvergil A, Lassila LV, Vallittu PK. Strength of adhesive-bonded fiber-reinforced composites to enamel and dentin substrates. J Adhes Dent. 2003;5(4):301-311.
  • 121. Gresnigt MM, Özcan M. Fracture strength of direct versus indirect laminates with and without fiber application at the cementation interface. Dent Mater. 2007;23(8):927-933.
  • 122. Behr M, Rosentritt M, Lang R, Handel G. Glass fiber‐reinforced abutments for dental implants. A pilot study. Clin Oral Implant Res. 2001;12(2), 174-178.
  • 123. Freilich MA, Duncan JP, Alarcon EK, Eckrote KA, Goldberg AJ. The design and fabrication of fiber-reinforced implant prostheses. J Prosthet Dent. 2002;88(4):449-454.
Toplam 122 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Diş Hekimliği
Bölüm Prosthodontics and Maxillofacial Prosthetics
Yazarlar

Özge Sucu 0000-0002-6903-0887

Ayşegül Köroğlu 0000-0002-0288-6357

Yayımlanma Tarihi 30 Haziran 2021
Gönderilme Tarihi 3 Şubat 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 3 Sayı: 2

Kaynak Göster

Vancouver Sucu Ö, Köroğlu A. Protetik Diş Hekimliğinde Fiberler. Dent & Med J - R. 2021;3(2):1-27.




"Dünyada herşey için, medeniyet için, hayat için, başarı için en gerçek yol gösterici ilimdir, fendir. İlim ve fennin dışında yol gösterici aramak gaflettir, cahilliktir, doğru yoldan sapmaktır. Yalnız ilmin ve fenin yaşadığımız her dakikadaki safhalarının gelişimini anlamak ve ilerlemeleri zamanında takip etmek şarttır. Bin, iki bin, binlerce yıl önceki ilim ve fen lisanının koyduğu kuralları, şu kadar bin yıl sonra bugün aynen uygulamaya kalkışmak elbette ilim ve fennin içinde bulunmak değildir."

M. Kemal ATATÜRK