Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2019, , 176 - 184, 31.05.2019
https://doi.org/10.7126/cumudj.512729

Öz

Kaynakça

  • 1.Coldea A, Swain MV, Thiel N. Mechanical properties of polymer-infiltrated-ceramic-network materials. Dent Mater 2013; 29(4): 419-426.
  • 2.Dirxen C, Blunck U, Preissner S. Clinical performance of a new biomimetic double network material. Open Dent J 2013; 7: 118.
  • 3.Duarte S, Sartori N, Phark JH. Ceramic-reinforced polymers: CAD/CAM hybrid restorative materials. Curr Oral Health Rep 2016; 3(3): 198-202.
  • 4.Gracis S, Thompson VP, Ferencz JL, Silva NR, Bonfante EA. A new classification system for all-ceramic and ceramic-like restorative materials. Int J Prosthodont 2015; 28(3).
  • 5.Awada A, Nathanson D. Mechanical properties of resin-ceramic CAD/CAM restorative materials. J Prosthet Dent 2015; 114(4): 587-593.
  • 6. Shetty R, Shenoy K, Dandekeri S, Suhaim KS, Ragher M, Francis J. Resin-matrix ceramics: an overview. Int J Rec Sci Res 2015; 6(11): 7414-17.
  • 7.Kelly JR, Nishimura I, Campbell SD. Ceramics in dentistry: historical roots and current perspectives. J Prosthet Dent 1996; 75(1): 18-32.
  • 8.Awad D, Stawarczyk B, Liebermann A, Ilie N. Translucency of esthetic dental restorative CAD/CAM materials and composite resins with respect to thickness and surface roughness. J Prosthet Dent 2015; 113(6): 534-540.
  • 9.Nogueira AD, Della Bona A. The effect of a coupling medium on color and translucency of CAD–CAM ceramics. J Dent 2013; 41: 18-23.
  • 10.Johnston WM, Ma T, Kienle BH. Translucency parameter of colorants for maxillofacial prostheses. Int J Prosthodont 1995; 8(1).
  • 11.Cho MS, Yu B, Lee YK. Opalescence of all-ceramic core and veneer materials. Dent Mater 2009; 25(6): 695-702.
  • 12.Lee YK, Lu H, Powers JM. Changes in opalescence and fluorescence properties of resin composites after accelerated aging. Dent Mater 2006; 22(7): 653-660.
  • 13.Spitznagel FA, Horvath SD, Guess PC, Blatz MB. Resin bond to indirect composite and new ceramic/polymer materials: a review of the literature. J Esthet Restor Dent 2014; 26(6): 382-393.
  • 14.Leung BT, Tsoi JK, Matinlinna JP, Pow EH. Comparison of mechanical properties of three machinable ceramics with an experimental fluorophlogopite glass ceramic. J Prosthet Dent 2015; 114(3): 440-446.
  • 15.Vita Enamic Technical and Scientific Documentation, 2013.
  • 16.Lauvahutanon S, Takahashi H, Shiozawa M, Iwasaki N, Asakawa Y, Oki M, Arksornnukit M. Mechanical properties of composite resin blocks for CAD/CAM. Dent Mater 2014; 33(5): 705-710.
  • 17.Stawarczyk B, Liebermann A, Eichberger M, Güth JF. Evaluation of mechanical and optical behavior of current esthetic dental restorative CAD/CAM composites. J Mech Behav Biomed Mater 2016; 55: 1-11.
  • 18.Cerasmart for PlanMill Brochure, 2016.
  • 19.Lawson NC, Bansal R, Burgess JO. Wear, strength, modulus and hardness of CAD/CAM restorative materials. Dent Mater 2016; 32(11): 275-283.
  • 20.Wang F, Takahashi H, Iwasaki N. Translucency of dental ceramics with different thicknesses. J Prosthet Dent 2013; 110(1): 14-20.
  • 21.Barizon KT, Bergeron C, Vargas MA, Qian F, Cobb DS, Gratton DG, Geraldeli S. Ceramic materials for porcelain veneers: part II. Effect of material, shade, and thickness on translucency. J Prosthet Dent 2014; 112(4): 864-870.
  • 22.Vichi A, Carrabba M, Paravina R, Ferrari M. Translucency of ceramic materials for CEREC CAD/CAM system. J Esthet Restor Dent 2014; 26(4): 224-231.
  • 23.Gunal B, Ulusoy MM. Optical properties of contemporary monolithic CAD‐CAM restorative materials at different thicknesses. J Esthet Restor Dent 2018; 30: 434-441.
  • 24.Sarıkaya I, Güleç C. [Evaluation Of Translucency And Color Stability Of Esthetic Cad/Cam Restorative Materials]. J Dent Fac Atatürk Uni 2018; 28 (3): 365-370.
  • 25.Pecho OE, Ghinea R, Ionescu AM, de la Cruz Cardona J, Paravina RD, del Mar Pérez M. Color and translucency of zirconia ceramics, human dentine and bovine dentine. J Dent 2012; 40: 34-40.
  • 26.Yu B, Ahn JS, Lee YK. Measurement of translucency of tooth enamel and dentin. Acta Odontol Scand 2009; 67(1): 57-64.
  • 27.Sannino G, Germano F, Arcuri L, Bigelli E, Arcuri C, Barlattani A. Cerec CAD/CAM chairside system. Oral Implantol 2014; 7(3): 57.
  • 28.Nakajima M, Arimoto A, Prasansuttiporn T, Thanatvarakorn O, Foxton RM, Tagami J. Light transmission characteristics of dentine and resin composites with different thickness. J Dent 2012; 40: 77-82.
  • 29.Lim HN, Yu B, Lee YK. Spectroradiometric and spectrophotometric translucency of ceramic materials. J Prosthet Dent 2010; 104(4): 239-246.
  • 30.Ahn JS, Lee YK. Difference in the translucency of all-ceramics by the illuminant. Dent Mater 2008; 24(11): 1539-1544.
  • 31.Spink LS, Rungruanganut P, Megremis S, Kelly JR. Comparison of an absolute and surrogate measure of relative translucency in dental ceramics. Dent Mater 2013; 29(6): 702-707.
  • 32.Erdelt K, Engler MLPD, Beuer F, Güth JF, Liebermann A, Schweiger J. Computable translucency as a function of thickness in a multi-layered zirconia. J Prosthet Dent 2018; doi: 10.1016/j.prosdent.2018.08.013.
  • 33.Walczak K, Meißner H, Range U, Sakkas A, Boening K, Wieckiewicz M, Konstantinidis I. Translucency of Zirconia Ceramics before and after Artificial Aging. J Prosthodont 2018; doi: 10.1111/jopr.12771.
  • 34.Li Q, Yu H, Wang YN. (2009). Spectrophotometric evaluation of the optical influence of core build-up composites on all-ceramic materials. Dent Mater 2009; 25(2): 158-165.
  • 35.Bayindir F, Kuo S, Johnston WM, Wee AG. Coverage error of three conceptually different shade guide systems to vital unrestored dentition. J Prosthet Dent 2007; 98(3): 175-185.

Optical Properties of Novel Resin Matrix Ceramic Systems at Different Thicknesses

Yıl 2019, , 176 - 184, 31.05.2019
https://doi.org/10.7126/cumudj.512729

Öz

Objectives: The purpose of this study was
to investigate the effect of material and thickness on the translucency
parameters (TP) and opalescence parameters (OP) for resin matrix ceramic
blocks. Materials and Methods: 90 disc-shaped specimens (8 mm diameter and A2
shade, High Translucency) were fabricated from Vita Enamic, Lava Ultimate and
GC Cerasmart resin-matrix ceramic blocks and prepared to thicknesses of 0.5 mm,
1 mm and 1.5 mm (n=10).  A dental
spectrophotometer (VITA Easyshade Advance) was used to calculate
the TP and OP. All specimens were placed on white and black backgrounds.
The color measurements were repeated
three times for each of the specimens and the mean values of L, a and b were
calculated. Data were analyzed by a two-way
analysis of variance (ANOVA) and Tukey’s test. Results: For the 0.5 mm thickness groups, GC Cerasmart had the
highest and Vita Enamic had the lowest TP values. For the 1 mm
thickness groups, GC Cerasmart had the highest TP, whereas Vita Enamic had
the lowest TP. For the 1.5 mm thickness groups, Lava Ultimate had the
highest TP, whereas Vita Enamic had the lowest TP. For the 0.5 mm
thickness groups, Vita Enamic, and GC
Cerasmart had the highest and lowest OP, respectively. The OP values in
the 1 mm thickness group of Vita Enamic groups were higher than the GC
Cerasmart and Lava Ultimate groups. The OP values in the 1.5 mm thickness group
Lava Ultimate group were higher than the GC Cerasmart and Vita Enamic groups.
In all groups, the OP values showed an increase
in parallel with the increase in thicknesses, in contrast, the TP values showed a decrease.
Conclusions: Type and thickness of
the resin matrix ceramics affect the
optical properties of the materials.

Kaynakça

  • 1.Coldea A, Swain MV, Thiel N. Mechanical properties of polymer-infiltrated-ceramic-network materials. Dent Mater 2013; 29(4): 419-426.
  • 2.Dirxen C, Blunck U, Preissner S. Clinical performance of a new biomimetic double network material. Open Dent J 2013; 7: 118.
  • 3.Duarte S, Sartori N, Phark JH. Ceramic-reinforced polymers: CAD/CAM hybrid restorative materials. Curr Oral Health Rep 2016; 3(3): 198-202.
  • 4.Gracis S, Thompson VP, Ferencz JL, Silva NR, Bonfante EA. A new classification system for all-ceramic and ceramic-like restorative materials. Int J Prosthodont 2015; 28(3).
  • 5.Awada A, Nathanson D. Mechanical properties of resin-ceramic CAD/CAM restorative materials. J Prosthet Dent 2015; 114(4): 587-593.
  • 6. Shetty R, Shenoy K, Dandekeri S, Suhaim KS, Ragher M, Francis J. Resin-matrix ceramics: an overview. Int J Rec Sci Res 2015; 6(11): 7414-17.
  • 7.Kelly JR, Nishimura I, Campbell SD. Ceramics in dentistry: historical roots and current perspectives. J Prosthet Dent 1996; 75(1): 18-32.
  • 8.Awad D, Stawarczyk B, Liebermann A, Ilie N. Translucency of esthetic dental restorative CAD/CAM materials and composite resins with respect to thickness and surface roughness. J Prosthet Dent 2015; 113(6): 534-540.
  • 9.Nogueira AD, Della Bona A. The effect of a coupling medium on color and translucency of CAD–CAM ceramics. J Dent 2013; 41: 18-23.
  • 10.Johnston WM, Ma T, Kienle BH. Translucency parameter of colorants for maxillofacial prostheses. Int J Prosthodont 1995; 8(1).
  • 11.Cho MS, Yu B, Lee YK. Opalescence of all-ceramic core and veneer materials. Dent Mater 2009; 25(6): 695-702.
  • 12.Lee YK, Lu H, Powers JM. Changes in opalescence and fluorescence properties of resin composites after accelerated aging. Dent Mater 2006; 22(7): 653-660.
  • 13.Spitznagel FA, Horvath SD, Guess PC, Blatz MB. Resin bond to indirect composite and new ceramic/polymer materials: a review of the literature. J Esthet Restor Dent 2014; 26(6): 382-393.
  • 14.Leung BT, Tsoi JK, Matinlinna JP, Pow EH. Comparison of mechanical properties of three machinable ceramics with an experimental fluorophlogopite glass ceramic. J Prosthet Dent 2015; 114(3): 440-446.
  • 15.Vita Enamic Technical and Scientific Documentation, 2013.
  • 16.Lauvahutanon S, Takahashi H, Shiozawa M, Iwasaki N, Asakawa Y, Oki M, Arksornnukit M. Mechanical properties of composite resin blocks for CAD/CAM. Dent Mater 2014; 33(5): 705-710.
  • 17.Stawarczyk B, Liebermann A, Eichberger M, Güth JF. Evaluation of mechanical and optical behavior of current esthetic dental restorative CAD/CAM composites. J Mech Behav Biomed Mater 2016; 55: 1-11.
  • 18.Cerasmart for PlanMill Brochure, 2016.
  • 19.Lawson NC, Bansal R, Burgess JO. Wear, strength, modulus and hardness of CAD/CAM restorative materials. Dent Mater 2016; 32(11): 275-283.
  • 20.Wang F, Takahashi H, Iwasaki N. Translucency of dental ceramics with different thicknesses. J Prosthet Dent 2013; 110(1): 14-20.
  • 21.Barizon KT, Bergeron C, Vargas MA, Qian F, Cobb DS, Gratton DG, Geraldeli S. Ceramic materials for porcelain veneers: part II. Effect of material, shade, and thickness on translucency. J Prosthet Dent 2014; 112(4): 864-870.
  • 22.Vichi A, Carrabba M, Paravina R, Ferrari M. Translucency of ceramic materials for CEREC CAD/CAM system. J Esthet Restor Dent 2014; 26(4): 224-231.
  • 23.Gunal B, Ulusoy MM. Optical properties of contemporary monolithic CAD‐CAM restorative materials at different thicknesses. J Esthet Restor Dent 2018; 30: 434-441.
  • 24.Sarıkaya I, Güleç C. [Evaluation Of Translucency And Color Stability Of Esthetic Cad/Cam Restorative Materials]. J Dent Fac Atatürk Uni 2018; 28 (3): 365-370.
  • 25.Pecho OE, Ghinea R, Ionescu AM, de la Cruz Cardona J, Paravina RD, del Mar Pérez M. Color and translucency of zirconia ceramics, human dentine and bovine dentine. J Dent 2012; 40: 34-40.
  • 26.Yu B, Ahn JS, Lee YK. Measurement of translucency of tooth enamel and dentin. Acta Odontol Scand 2009; 67(1): 57-64.
  • 27.Sannino G, Germano F, Arcuri L, Bigelli E, Arcuri C, Barlattani A. Cerec CAD/CAM chairside system. Oral Implantol 2014; 7(3): 57.
  • 28.Nakajima M, Arimoto A, Prasansuttiporn T, Thanatvarakorn O, Foxton RM, Tagami J. Light transmission characteristics of dentine and resin composites with different thickness. J Dent 2012; 40: 77-82.
  • 29.Lim HN, Yu B, Lee YK. Spectroradiometric and spectrophotometric translucency of ceramic materials. J Prosthet Dent 2010; 104(4): 239-246.
  • 30.Ahn JS, Lee YK. Difference in the translucency of all-ceramics by the illuminant. Dent Mater 2008; 24(11): 1539-1544.
  • 31.Spink LS, Rungruanganut P, Megremis S, Kelly JR. Comparison of an absolute and surrogate measure of relative translucency in dental ceramics. Dent Mater 2013; 29(6): 702-707.
  • 32.Erdelt K, Engler MLPD, Beuer F, Güth JF, Liebermann A, Schweiger J. Computable translucency as a function of thickness in a multi-layered zirconia. J Prosthet Dent 2018; doi: 10.1016/j.prosdent.2018.08.013.
  • 33.Walczak K, Meißner H, Range U, Sakkas A, Boening K, Wieckiewicz M, Konstantinidis I. Translucency of Zirconia Ceramics before and after Artificial Aging. J Prosthodont 2018; doi: 10.1111/jopr.12771.
  • 34.Li Q, Yu H, Wang YN. (2009). Spectrophotometric evaluation of the optical influence of core build-up composites on all-ceramic materials. Dent Mater 2009; 25(2): 158-165.
  • 35.Bayindir F, Kuo S, Johnston WM, Wee AG. Coverage error of three conceptually different shade guide systems to vital unrestored dentition. J Prosthet Dent 2007; 98(3): 175-185.
Toplam 35 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Sağlık Kurumları Yönetimi
Bölüm Original Research Articles
Yazarlar

Ersan Çelik 0000-0002-3797-770X

Büşra Göktepe 0000-0003-2430-866X

Yayımlanma Tarihi 31 Mayıs 2019
Gönderilme Tarihi 14 Ocak 2019
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

EndNote Çelik E, Göktepe B (01 Mayıs 2019) Optical Properties of Novel Resin Matrix Ceramic Systems at Different Thicknesses. Cumhuriyet Dental Journal 22 2 176–184.

Cumhuriyet Dental Journal (Cumhuriyet Dent J, CDJ) is the official publication of Cumhuriyet University Faculty of Dentistry. CDJ is an international journal dedicated to the latest advancement of dentistry. The aim of this journal is to provide a platform for scientists and academicians all over the world to promote, share, and discuss various new issues and developments in different areas of dentistry. First issue of the Journal of Cumhuriyet University Faculty of Dentistry was published in 1998. In 2010, journal's name was changed as Cumhuriyet Dental Journal. Journal’s publication language is English.


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