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BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA

Year 2017, Volume: 27 Issue: 1, 19 - 26, 16.04.2017
https://doi.org/10.17567/ataunidfd.307095

Abstract

Amaç: Çalışmanın amacı, Bilgisayar destekli
tasarım-Bilgisayar destekli üretim ve
Isı ile Presleme yöntemleriyle üretilmiş porselen laminat venerlerin kenar ve
iç yüzey uyumlarının karşılaştırılmasıdır.  

Gereç ve yöntem: Kenar ve iç yüzey uyumlarının fabrikasyon tekniğine
göre farklılık gösterip göster- mediğini belirlemek amacıyla toplam 40
adet porselen laminat vener değerlendirildi. Venerler, Bilgisayar des- tekli

tasarım-Bilgisayar destekli üretim ve
Isı ile Presleme yöntemleriyle üretildi (n=20). Kenar ve iç yüzey uyumları
replika tekniği kullanılarak değerlendirildi. Her bir venerin replikası akışkan
kıvamlı elastomerik ölçü materyali kulanı- larak alındı ve replikalar,
meziyo-distal ve insizo-gingival yönde kesildi. Her bir kesitin iç yüzey ve
kenar uyumları ışık mikroskobunda x40 büyütme kullanılarak ölçüldü. İç yüzey
uyumu için 9 nokta, kenar uyum içinse 3 nokta ölçüldü ve ortalamaları alındı.
Levene ve independent samples t testi kullanılarak istatistiksel analiz yapıldı
(p<0,05).   

Bulgular: Isı ile Presleme sistemi ile üretilen venerlerin
kenar aralık değerleri (269±136,92 μm),
Bilgisayar destekli tasarım-Bilgisayar destekli üretim ile üretilenlere (192±61,02 μm) göre daha yüksektir (p= 0,028). İki
yöntemin iç yüzey aralık değerleri karşılaştırıldığında yine, Isı ile Presleme
sistemi ile üretilen venerlerin iç yüzey aralık değerleri (190,43±63,33 μm),
Bilgisayar destekli tasarım-Bilgisayar destekli üretim ile üretilenlere (105,61±24,39 μm) göre daha
yüksektir (p=0,00).

Sonuç: Bu çalışmanın kısıtlamaları dahilinde, Bilgisayar
destekli
tasarım-Bilgisayar
destekli üretim yöntemi ile üre- tilen porselen laminat venerlerin kenar ve iç
yüzey uyum- ları,
Isı ile
Presleme sistemi ile üretilenlere göre daha iyidir.
  

Anahtar Kelimeler:
Laminat vener,  Bilgisayar
destekli
tasarım-Bilgisayar
destekli üretim,
Isı ile Presleme, Kenar uyum, İç yüzey uyumu, Replika
yöntemi

COMPARISON OF MARGINAL
AND INTERNAL ADAPTATION OF COMPUTER AIDED DESIGN-COMPUTER AIDED MANUFACTURING
AND HEAT-PRESSED CERAMIC LAMINATE VENEERS: AN IN-VITRO STUDY

ABSTRACT

 Aim: The aim of this study was to evaluate the marginal and internal
adaptations of porcelain laminate veneers produced with Computer aided
design-Computer aided manufacturing and Heat-pressed techniques.

Material
and Methods:
A total of 40 porcelain laminate veneers were
evaluated whether the marginal and internal adaptations are changed due to
fabrication technique. The veneers were fabricated with Computer aided
design-Computer aided manufacturing and Heat-pressed techniques (n=20). The
marginal and internal adaptations of veneers were measured by using a replica
technique. Replicas of each veneer were obtained by using a light-body silicone
impression material. The replicas were sectioned mesio-distally and
gingivo-incisally. Then the marginal and internal gap adaptation of each cross
section were measured by a stereomicros- cope at x40 magnification. Nine
measurement locations for internal, 3 measurement locations for marginal
adaptation were used to obtain the mean values. Levene and independent samples
t-test was used to identify the statistical difference among the groups
(p<0.05).

Results:  The mean marginal
adaptation values of Heat-pressed and
Computer aided design-Computer aided
manufacturing veneers were
269±136.92 μm and 192± 61.02 μm respectively. There was a significant
difference between the values (p=0.028). A significant difference was found
between the internal adaptation values of
Heat-pressed (190.43±63.33 μm) and Computer aided design-Computer aided manufacturing veneers
(105.61± 24.39 μm) (p=0.00).

Conclusion:
Within the limitations of this in-vitro study, the Computer aided
design-Computer aided manufac- turing
veneers showed statistically better marginal and internal adaptation values
than the Heat-pressed veneers.















Keywords: Laminate veneer, Computer
aided design-Computer aided manufacturing, Heat-pressed, Marginal adaptation, Internal adaptation, Replica technique

References

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  • 2. Nalbant DA, Ömeroğlu N. Farklı porselen laminate veneer yapım yöntemlerinin mikrosızıntı yönünden karşılaştırılmalı olarak değerlendirilmesi. Atatürk Üniv. Diş Hek. Fak. Derg 2001;11:5-12.
  • 3. Sadowsky SJ. An overview of treatment considerations for esthetic restorations: a review of the literature. J Prosthet Dent 2006;96:433-42.
  • 4. Oztürk E, Bolay S. Survival of porcelain laminate veneers with different degrees of dentin exposure: 2-year clinical results. J Adhes Dent 2014;16:481-9.
  • 5. Taskonak B, Anusavice K, Mecholsky J. Role of investment interaction layer on strength and toughness of ceramic laminates. Dent Mater 2004;20:701–8.
  • 6. Aboushelib MN, Elmahy WA, Ghazy MH. Internal adaptation, marginal accuracy and microleakage of a pressable versus a machinable ceramic laminate veneers. J Dent 2012;40:670-7.
  • 7. Anadioti E, Aquilino SA, Gratton DG, Holloway JA, Denry IL, Thomas GW, Qian F. Internal fit of pressed and computer-aided design/computer-aided manufacturing ceramic crowns made from digital and conventional impressions. J Prosthet Dent 2015;113:304-9.
  • 8. Laurent M, Scheer P, Dejou J, Laborde G. Clinical evaluation of the marginal fit of cast crowns-validation of the silicone replica method. J Oral Rehab 2008;35:116-22.
  • 9. Sulaiman F, Chai J, Jameson LM, Wozniak WT. A comparison of the marginal fit of In-Ceram, IPS Empress and procera crowns. Int J Prosthodont 1997;10:478-84.
  • 10. Gemalmaz D, Çelik Ç. Comparison of marginal integrity of ceramic and composite veneer restorations luted with two different resin agents: an in vitro study. Int J Prosthodont 2002;15:59-64.
  • 11. Giannetopoulos S, Van Noort R, Tsitrou E. Evaluation of the marginal integrity of ceramic copings with different marginal angles using two different CAD/CAM systems. J Dent 2010;38:980-6.
  • 12. Harasani MH, Isidor F, Kaaber S. Marginal fit of porcelain and indirect composite laminate veneers under in vitro conditions. Scand J Dent Res 1991;99:262-8.
  • 13. Karakaya S, Sengun A, Özer F. Evaluation of internal adaptation in ceramic and composite resin inlays by silicon replica technique. J Oral Rehab 2005;32:448-53.
  • 14. Wettstein F, Sailer I, Roos M, Hammerie CHF. Clinical study of internal gaps of zirconia and metal frameworks for fixed partial dentures. Eur J Oral Sci 2008;116:272-9.
  • 15. Qualtrough AJ, Piddock V, Kypreou V. A comparison of two in vitro methods for assessing the fitting accuracy of composite inlays. Br Dent J 1993;174:450-4.
  • 16. Kim JH, Miranda P, Kim DK, Lawn BR. Effect of an adhesive interlayer on the fracture of a brittle coating on a supporting substrate. J Mater Res 2003;18:222-7.
  • 17. Thompson VP, Rekow ED. Dental ceramics and the molar crown testing ground. J Appl Oral Sci 2004;12:26-36.
  • 18. Da Silva NRFA, De Souza GM, Coelho PG, Stappert CFJ, Clark EA, Rekow ED, Thompson VP. Effect of water storage time and composite cement thickness on fatigue of a glass- ceramic trilayer system. J Biomed Mater Res B Appl Biomater 2008;84:117-23.
  • 19. Oysaed H, Ruyter IE. Composites for use in posterior teeth: mechanical properties tested under dry and wet conditions.
J Biomed Mater Res 1986;20:261-71.
  • 20. Weaver JD, Johnson GH, Bales DJ. Marginal adaptation of castable ceramic crowns. J Prosthet Dent 1991;66:747-53.
  • 21. Lee KB, Park CW, Kim KH, Kwon TY. Marginal and internal fit of all-ceramic crowns fabricated with two different CAD/CAM systems. Dent Mater J 2008;27:422-6.
  • 22. Kokubo Y, Tsumita M, Kano T, Sakuri S, Fukushina S. Clinical marginal and internal gaps of zirconia all-ceramic crowns. J Prosthodont Res 2011;55:40-3.
  • 23. Groten M, Axmann D, Probster L, Weber H. Determination of the minimum number of marginal gap measurements required for practical in-vitro testing. J Prosthet Dent 2000;83:40-9.
  • 24. Wall JG, Reisbick MH, Espelata KG. Cement luting thickness beneath porcelain veneers made on platinum foil. J Prosthet Dent 1992;68:448-50.
  • 25. Tinschert J, Natt G, Mautsch W, Augthun M, Spiekermann H. Fracture resistance of lithium disilicate-, alumina-, and zirconia- based three-unit fixed partial dentures: a laboratory study. Int J Prosthodont 2001;14:231-8.
  • 26. McLean JW, von Fraunhofer JA. The estimation of cement film thickness by an in vivo technique. Br Dent J 1971;131:107-11.
  • 27. Suarez MJ, Villaumbrosia PG, Lozano JFL. Comparison of the marginal fit of procera allceram crowns with two finish lines. Int J Prosthodont 2003;16:229-32.
  • 28. Leinfelder KF, Isenberg BP, Essig ME. A new method for generating ceramic restorations: a CAD-CAM system. J Am Dent Assoc 1989;118:703-7.
  • 29. Essig ME, Isenberg BP, Leinfelder KF, Liu PR. In vitro evaluation of Cerec veneers utilizing standardized preparation template. In:Mörmann WH ed. Proceedings of international symposium on computer restorations. State of the art of CEREC method, Quintessence Publishing: 1991. p. 547-52.
  • 30. Sorensen JA, Strutz JM, Avera SP, Materdomini D. Marginal fidelity and microleakage of porcelain veneers made by two techniques. J Prosthet Dent 1992;67:16-22.
  • 31. Alghazzawi TF, Liu PR, Essig ME. The effect of different fabrication steps on the marginal adaptation of two types of glass-infiltrated ceramic crown copings fabricated by cad/cam technology. J Prosthodont 2012;21:167-72.
  • 32. Lin TM, Liu PR, Ramp LC, Essig ME, Givan DA, Pan Y. Fracture resistance and marginal discrepancy of porcelain laminate veneers influenced by preparation design and restorative material in vitro. J Dent 2012;40:202-9.
  • 33. Martin N, Jedynakiewicz NM. Interface dimensions of CEREC-2 MOD inlays. Dent Mater 2000;16:68-74.
  • 34. Reich S, Wichmann M, Nkenke E, Proeschel P. Clinical fit of all-ceramic three-unit fixed partial dentures, generated with three different CAD/CAM systems. Eur J Oral Sci 2005;113:174-9.
Year 2017, Volume: 27 Issue: 1, 19 - 26, 16.04.2017
https://doi.org/10.17567/ataunidfd.307095

Abstract

References

  • 1. Peumans M, Van Meerbeek B, Lambrechts P, Vanherle G. Porcelain veneers: a review of the literature. J Dent 2000;28:163–77.
  • 2. Nalbant DA, Ömeroğlu N. Farklı porselen laminate veneer yapım yöntemlerinin mikrosızıntı yönünden karşılaştırılmalı olarak değerlendirilmesi. Atatürk Üniv. Diş Hek. Fak. Derg 2001;11:5-12.
  • 3. Sadowsky SJ. An overview of treatment considerations for esthetic restorations: a review of the literature. J Prosthet Dent 2006;96:433-42.
  • 4. Oztürk E, Bolay S. Survival of porcelain laminate veneers with different degrees of dentin exposure: 2-year clinical results. J Adhes Dent 2014;16:481-9.
  • 5. Taskonak B, Anusavice K, Mecholsky J. Role of investment interaction layer on strength and toughness of ceramic laminates. Dent Mater 2004;20:701–8.
  • 6. Aboushelib MN, Elmahy WA, Ghazy MH. Internal adaptation, marginal accuracy and microleakage of a pressable versus a machinable ceramic laminate veneers. J Dent 2012;40:670-7.
  • 7. Anadioti E, Aquilino SA, Gratton DG, Holloway JA, Denry IL, Thomas GW, Qian F. Internal fit of pressed and computer-aided design/computer-aided manufacturing ceramic crowns made from digital and conventional impressions. J Prosthet Dent 2015;113:304-9.
  • 8. Laurent M, Scheer P, Dejou J, Laborde G. Clinical evaluation of the marginal fit of cast crowns-validation of the silicone replica method. J Oral Rehab 2008;35:116-22.
  • 9. Sulaiman F, Chai J, Jameson LM, Wozniak WT. A comparison of the marginal fit of In-Ceram, IPS Empress and procera crowns. Int J Prosthodont 1997;10:478-84.
  • 10. Gemalmaz D, Çelik Ç. Comparison of marginal integrity of ceramic and composite veneer restorations luted with two different resin agents: an in vitro study. Int J Prosthodont 2002;15:59-64.
  • 11. Giannetopoulos S, Van Noort R, Tsitrou E. Evaluation of the marginal integrity of ceramic copings with different marginal angles using two different CAD/CAM systems. J Dent 2010;38:980-6.
  • 12. Harasani MH, Isidor F, Kaaber S. Marginal fit of porcelain and indirect composite laminate veneers under in vitro conditions. Scand J Dent Res 1991;99:262-8.
  • 13. Karakaya S, Sengun A, Özer F. Evaluation of internal adaptation in ceramic and composite resin inlays by silicon replica technique. J Oral Rehab 2005;32:448-53.
  • 14. Wettstein F, Sailer I, Roos M, Hammerie CHF. Clinical study of internal gaps of zirconia and metal frameworks for fixed partial dentures. Eur J Oral Sci 2008;116:272-9.
  • 15. Qualtrough AJ, Piddock V, Kypreou V. A comparison of two in vitro methods for assessing the fitting accuracy of composite inlays. Br Dent J 1993;174:450-4.
  • 16. Kim JH, Miranda P, Kim DK, Lawn BR. Effect of an adhesive interlayer on the fracture of a brittle coating on a supporting substrate. J Mater Res 2003;18:222-7.
  • 17. Thompson VP, Rekow ED. Dental ceramics and the molar crown testing ground. J Appl Oral Sci 2004;12:26-36.
  • 18. Da Silva NRFA, De Souza GM, Coelho PG, Stappert CFJ, Clark EA, Rekow ED, Thompson VP. Effect of water storage time and composite cement thickness on fatigue of a glass- ceramic trilayer system. J Biomed Mater Res B Appl Biomater 2008;84:117-23.
  • 19. Oysaed H, Ruyter IE. Composites for use in posterior teeth: mechanical properties tested under dry and wet conditions.
J Biomed Mater Res 1986;20:261-71.
  • 20. Weaver JD, Johnson GH, Bales DJ. Marginal adaptation of castable ceramic crowns. J Prosthet Dent 1991;66:747-53.
  • 21. Lee KB, Park CW, Kim KH, Kwon TY. Marginal and internal fit of all-ceramic crowns fabricated with two different CAD/CAM systems. Dent Mater J 2008;27:422-6.
  • 22. Kokubo Y, Tsumita M, Kano T, Sakuri S, Fukushina S. Clinical marginal and internal gaps of zirconia all-ceramic crowns. J Prosthodont Res 2011;55:40-3.
  • 23. Groten M, Axmann D, Probster L, Weber H. Determination of the minimum number of marginal gap measurements required for practical in-vitro testing. J Prosthet Dent 2000;83:40-9.
  • 24. Wall JG, Reisbick MH, Espelata KG. Cement luting thickness beneath porcelain veneers made on platinum foil. J Prosthet Dent 1992;68:448-50.
  • 25. Tinschert J, Natt G, Mautsch W, Augthun M, Spiekermann H. Fracture resistance of lithium disilicate-, alumina-, and zirconia- based three-unit fixed partial dentures: a laboratory study. Int J Prosthodont 2001;14:231-8.
  • 26. McLean JW, von Fraunhofer JA. The estimation of cement film thickness by an in vivo technique. Br Dent J 1971;131:107-11.
  • 27. Suarez MJ, Villaumbrosia PG, Lozano JFL. Comparison of the marginal fit of procera allceram crowns with two finish lines. Int J Prosthodont 2003;16:229-32.
  • 28. Leinfelder KF, Isenberg BP, Essig ME. A new method for generating ceramic restorations: a CAD-CAM system. J Am Dent Assoc 1989;118:703-7.
  • 29. Essig ME, Isenberg BP, Leinfelder KF, Liu PR. In vitro evaluation of Cerec veneers utilizing standardized preparation template. In:Mörmann WH ed. Proceedings of international symposium on computer restorations. State of the art of CEREC method, Quintessence Publishing: 1991. p. 547-52.
  • 30. Sorensen JA, Strutz JM, Avera SP, Materdomini D. Marginal fidelity and microleakage of porcelain veneers made by two techniques. J Prosthet Dent 1992;67:16-22.
  • 31. Alghazzawi TF, Liu PR, Essig ME. The effect of different fabrication steps on the marginal adaptation of two types of glass-infiltrated ceramic crown copings fabricated by cad/cam technology. J Prosthodont 2012;21:167-72.
  • 32. Lin TM, Liu PR, Ramp LC, Essig ME, Givan DA, Pan Y. Fracture resistance and marginal discrepancy of porcelain laminate veneers influenced by preparation design and restorative material in vitro. J Dent 2012;40:202-9.
  • 33. Martin N, Jedynakiewicz NM. Interface dimensions of CEREC-2 MOD inlays. Dent Mater 2000;16:68-74.
  • 34. Reich S, Wichmann M, Nkenke E, Proeschel P. Clinical fit of all-ceramic three-unit fixed partial dentures, generated with three different CAD/CAM systems. Eur J Oral Sci 2005;113:174-9.
There are 34 citations in total.

Details

Journal Section Articles
Authors

Ş. Mert Yüce This is me

Ayşe Gözde Türk

Publication Date April 16, 2017
Published in Issue Year 2017 Volume: 27 Issue: 1

Cite

APA Yüce, Ş. M., & Türk, A. G. (2017). BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi, 27(1), 19-26. https://doi.org/10.17567/ataunidfd.307095
AMA Yüce ŞM, Türk AG. BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA. Ata Diş Hek Fak Derg. April 2017;27(1):19-26. doi:10.17567/ataunidfd.307095
Chicago Yüce, Ş. Mert, and Ayşe Gözde Türk. “BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA”. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 27, no. 1 (April 2017): 19-26. https://doi.org/10.17567/ataunidfd.307095.
EndNote Yüce ŞM, Türk AG (April 1, 2017) BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 27 1 19–26.
IEEE Ş. M. Yüce and A. G. Türk, “BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA”, Ata Diş Hek Fak Derg, vol. 27, no. 1, pp. 19–26, 2017, doi: 10.17567/ataunidfd.307095.
ISNAD Yüce, Ş. Mert - Türk, Ayşe Gözde. “BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA”. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 27/1 (April 2017), 19-26. https://doi.org/10.17567/ataunidfd.307095.
JAMA Yüce ŞM, Türk AG. BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA. Ata Diş Hek Fak Derg. 2017;27:19–26.
MLA Yüce, Ş. Mert and Ayşe Gözde Türk. “BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA”. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi, vol. 27, no. 1, 2017, pp. 19-26, doi:10.17567/ataunidfd.307095.
Vancouver Yüce ŞM, Türk AG. BİLGİSAYAR DESTEKLİ TASARIM-BİLGİSAYAR DESTEKLİ ÜRETİM VE PRESLEME SİSTEMLERİYLE ÜRETİLEN PORSELEN LAMİNAT VENERLERİN KENAR VE İNTERNAL UYUMLARININ KARŞILAŞTIRILMASI: İN-VİTRO ÇALIŞMA. Ata Diş Hek Fak Derg. 2017;27(1):19-26.

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