Nesrin CEREN, Volkan TURP, Faruk EMİR, Gökhan AKGÜNGÖR, Simel AYYILDIZ, Deniz ŞEN

NANOCERAMICS AND HYBRID MATERIALS USED IN CAD/CAM SYSTEMS

CAD/CAM sistemleri günümüzde yaygın olarak kullanılmaktadır. Farklı endikasyonlara uygun restoratif çözümler için birçok malzeme bu sistemlerle kullanılmak üzere piyasada mevcuttur. Bu derlemede, en güncel malzemeler olan nanoseramikler ve hibrid malzemeler incelenmekte, mekanik özellikleri, avantajları ve dezavantajları değerlendirilmekte ve piyasada mevcut ürünler belirtilmektedir

Anahtar Kelimeler:

CAD/CAM, nanoseramik, hibrid

NANOCERAMICS AND HYBRID MATERIALS USED IN CAD/CAM SYSTEMS

CAD/CAM systems are widely popular in contemporary procedures. There are many products and materials to use with different cases and indications in the market. In the current study, most current materials, mainly nanoceramics and hybrid ceramics are investigated, their advantages and disadvantages are evaluated, and the current products in the market are listed

Keywords:

CAD/CAM, nanoceramics, hybrid,

PDF

___

Akgüngör N. Lityum Disilikat esaslı press- seramik sistemlerinin farklı kalınlıkları ve farklı polimerizasyon yöntemleri kullanıldığında dentine bağlantı etkisinin incelenmesi. Doktora bitirme tezi 2009; 24-25.
Albakry M, Guazzato M, Swain MV. Biaxial flexural strength and microstructure changes of two recycled pressable glass ceramics. J Prosthodont. 2004; 13: 141-149.
Alshehri SA. An investigation into the role of core porcelain thickness and lamination in determining the flexural strength of in ceram dental materials. J Prosthodont. 2011; 20: 261-6.
Anusavice KJ. Phillips RW. Phillips’ Science of Dental Materials 2003 11th ed. St. Louis: W.B. Saunders, 486-467, 657-704.
Carvalho AO, Bruzi G, Maia HP, Giannini M, Magne P. Fatigue resistance of CAD/CAM fabricated full-coverage crowns. Dent Mater. 2012; 28: 65-66.
Chen C, Trindaed FZ, Jagger N, Kleverlaan CJ, Felizer AJ. The fracture resistence of a CAD/ CAM resin nano ceramic (RNC) and a CAD ceramic at different thicknesses. Dent Mater. 2013; 30: 54-62.
Çıracı S, Süzer Ş, Bengü E, Gürsel İ, Dana A. Bilim ve Teknik Aylık Popüler Bilim Dergisi Sayısı 2006 Aralık: 2-14.
Coldea A, Swain MV, Thiel N. In vitro strength degredation of dental ceramics and novel PICN material by sharp indentation. J Mech Behav Biomed Mater. 2013; 26: 34-42.
Coldea A, Swain MV, Thiel N. Mechanical properties of polymer-infiltrated-ceramic- network materials. Dent Mater. 2013; 29: 419- 426.
Coldea A., Swain M.V., Thiel N.. Hertzian contact responser and damage tolerance of dental ceramics. J Mech Behav Biomed Mater. 2014; 34: 124-133.
Fasbinder DJ. Materials for chairside CAD/ CAM restorations. Compend Contin Educ Dent. 2010; 31: 702-4,706,708-9.
Fasbinder DJ. Chairside CAD/ CAM: an overview of restorative material options. Compend Contin Educ Dent. 2012; 33: 52-58.
Giordano R. Materials for chairside CAD/ CAM-produced restorations. J Am Dent Assoc. 2006; 137: 14-21.
Guess PC, Zavanelli RA, Silva NRFA, Bonfante EA, Coelho PG, Thompson VP. Monolithic CAD/CAM lithium disilicate versus veneered Y-TZP crowns: a comparison of failure modes and reliability after fatigue. Int J Prosthodont. 2010; 23: 434-442.
Guth JF, Zuch T, Zwinge S, Engels J, Stimmelmayr M, Edelhoff D. Optical properties of manually and CAD/ CAM fabricated polymers. Dent Mater. 2013; 32: 865-871.
Höland W, Rheinberger V, Apel E, Hoen C, Höland M, Dommann A, Obrecht M, Mauth C, Graf-Hausner U. Clinical applications of glass ceramics in dentistry. J Mater Sci Mater Med. 2006; 17:1037-42.
Höland W, Rheinberger V, Schweiger M. Control of nucleation in glass ceramics. Phil Trans R Soc Lond A 2003; 361: 575-89.
Huang Y, Jacobs R, Van Dessel J, Bornstein MM, Lambrichts I, Politis C. A systematic review on the innervation of peri-implant tissues with special emphasis on the influence of implant placement and loading protocols. Clin Oral Implants Res. 2014; 6: doi: 10.1111/ clr.12344.
Ivoclar Vivadent IPS e.max Lithium Disilicate: The future of all- ceramic dentistry- materials science, practical applications, keys to success. Amherst, N.Y. Ivoclar Vivadent 2009; 1-5.
Kelly JR, Tesk JA, Sorensen JA. Failure of All- ceramic Fixed Partial Dentures in vitro and in vivo: Analysis and Modeling. J Dent Res. 1995; 7: 1253-1256.
Kinney JH, Marshall SJ, Marshall GW. The mechanical properties of human dentin: a critical rewiev and re-evaluation of the dental literature. Crit Rev Oral Biol Med. 2003; 14: 13-29.
Kontanasaki E, Kantiranis N, Papadopoulou L, Chatzistavrou X, Kavouras P, Zorba T, Sivropoulou A, Chrissafis K, Paraskevopoulos KM, Koidis PT. Microstructural characterization and comparative evaluation of physical, mechanical and biological properties of three ceramics for metal ceramic restorations. Dent Mater. 2008; 24:1362-1373.
Lauvahutanon S, Takahashi H, Shiozawa M, Iwasaki N, Asakawa Y, Oki M, Finger WJ, Arksonnukit M. Mechanical properties resin blocks for CAD/CAM. Dent Mater J. 2014; 33: 705-10.
Lava Ultimate Restorative Brochure, 2011
Matinlinna JP, Lassila LV, Özcan M, Yli-Urpo A, Vallittu PK. An introduction to silanes and their clinical applications in dentistry. Int J Prosthodont. 2004; 17:155-64.
Matinlinna JP, Vallittu PK. Silan based consepts on bonding resin composite to metals. J Contemp Dent Pract. 2004; 8: 1-8.
Mehulic K. Glas Ceramics. Acta Stomatol Croat. 2005; 39: 477-86.
Melo MAS, Guedes SFF, Xu HHK, Rodrigues LKA. Nanotechnology- based restorative materials for dental caries management. Trends Biotechnol. 2013, 31: 459-467.
Mihali S, Bortun C, Bratu E. Nano-ceramic Particle Reinforced Composite- Lava Ultimate CAD/CAM Restorative. Rev Chim. 2013; 64: 435-437.
Mörmann WH. Stawarczyk B, Ender A, Sener B, Attin T, Mehl A. Wear characteristics of current aesthetic dental restorative CAD/ CAM materials: Two- body wear, gloss retantion, roughness and Martens hardness. J Mech Behav Biomed Mater. 2013, 20: 113-125.
Nguyen JF, Ruse D, Phan AC, Sadoun MJ. High- temperature- pressure polymerized resin- infiltrated ceramic networks. J Dent Res. 2014; 93: 62-67.
Prielipp H, Knechtel M, Claussen N, Streiffer SK, Müllejans H, Rühle M, Rödel J. Strength and fracture toughness of aluminum/alumina composites with interpenetrating networks. Mat Sci Eng A. 1995; 197: 19–30.
Reich S, Hornberger H. The effect of multicoloured machinable ceramics on the esthetics of all-ceramic crowns. J Prosthet Dent. 2002; 88: 44–49.
Russell G. Materials for chairside CAD/CAM –produced restorations. J Am Dent Assoc. 2006; 137: 12-2.
Schweiger M, Frank M, Cramer von Clausbruch S, Höland W, Rheinberger V. Microstructure and properties of pressed glass-ceramic core to zirconia post. Quintessence Dent Technol. 1998; 21: 73-79.
Scientific Documentation: IPS e.max Press, Research and Development Scientific Service 2005; Ivoclar.
Travitzky NA, Shlayen A. Microstructure and mechanical properties of Al2O3/Cu-O composites fabricated by pressureless infiltration technique. Mat Sci Eng A. 1998; 244: 154–60.
Tinschert J, Zwez D, Marx R, Anusavice KJ. Structural reliability of alumina-, feldspar-, leucite-, mica-,and zirconia-based ceramics. J Dent. 2000; 27: 529 -535.
Wegner LD, Gibson LJ. The fracture toughness behaviour of interpenetrating phase composites. Int J Mech Sci. 2001; 43: 1771–91.
Vita Enamic Technical and Scientific Documentatiton, 2013.
Vita Suprinity, Technical and Scientific Documentation, 2013.
Yoshida N, Koga Y, Peng CL, Tanaka E, Kobayashi K. In vivo measurement of elasticlic modulus of the human periodontal ligament. Med Eng Phys. 2001; 23: 567-572.
Zimmermann M, Mehl A, Reich S. New CAD/ CAM Materials and Blocks for Chairside Procedures. Int J Comput Dent. 2013; 16: 173- 81.