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New and Rapidly Progressing Manufacturing Technology in Dentistry: 3 Dimensional Printers

Year 2021, Volume: 7 Issue: 2, 197 - 205, 12.07.2021
https://doi.org/10.53394/akd.958759

Abstract

With the rapid development in manufacturing technologies and the invention of 3 dimensional printers, important changes in the practice of dentistry have come into question. This new technology using 3 dimensional printers; unlike conventional manufacturing, it provides faster and lower cost manufacturing. In addition, patients; It will enable them to access dental treatments that require more than one appointment, in a single visit, with individual designs and rich material options. There will be a great revolution with the manufacturing of 3 dimensional printers in the practice of dentistry. Our aim in preparing this review is to provide an overview of 3 dimensional printers. In addition, it is aimed to give information to the readers about subtractive and additive manufacturing technologies and also the history, advantages and disadvantages of these technologies and how they are used in dental practice.

References

  • 1. Özsoylu AF. Endüstri 4.0. Çukurova Üniversitesi İktisadi ve İdari Bilimler Fakültesi Dergisi 2017; 21(1): 41-64.
  • 2. Raicu L, Marin, D. Design aspects in machine tools evolution. Journal of Proceedings of The International Conference on Manufacturing Systems; 2008; 3: 59-64.
  • 3. Duret F, Preston JD. CAD/CAM imaging in dentistry. Current Opinion in Dentistry 1991; 1: 150-154.
  • 4. Kodama H. Automatic method for fabricating a three‐dimensional plastic model with photo‐hardening polymer. Review of Scientific Instruments 1981; 52(11): 1770–1773.
  • 5. Bhusnure OG, Gholve VS, Sugave BK, Dongre RC, Gore SA, Giram PS. 3D printing and pharmaceutical manufacturing opportunities and challenges. International Journal of Bioassays 2016; 5(1): 4723-4738.
  • 6. Hull, Charles W. “Apparatus for production of threedimensional objects by stereolithography.” United States Patent, Appl., No. 638905, Filed 1984.
  • 7. Gross BC, Erkal JL, Lockwood SY, Chen C, Spence DM. Evaluation of 3D printing and its potential impact on biotechnology and the chemical sciences. Anal Chem 2014; 86(7): 3240-3253.
  • 8. Crump SS. U.S. Patent No. 5,121,329. Washington, DC: U.S. Patent and Trademark Office 1992.
  • 9. Lindner A, Rasse M, Wolf HP, Millesi W, Eglmeier R, Friede I. Indications and use of stereolithographic skull reconstructions in oromaxillofacial surgery. Der Radiologe 1995; 35(9): 578-582.
  • 10. Sachs EM, Haggerty JS, Cima MJ, Williams PA. Threedimensional printing techniques. U.S. Patent 5,204,055, April 20, 1993.
  • 11. Artuğa S, Altun MC. 3 boyutlu baskı teknolojisinin bina üretiminde kullanım olanaklarının güncel örnekler üzerinden incelenmesi. In, Çetinkaya K, Duman B, Özsoy K, Kayaalp K, Oral O, Aydın M, editors. 4th International Congress on 3D Printing (Additive Manufacturing) Technologies and Digital Industry; 2019 April 11-14; Antalya. Turkey; 2019. p: 118-132
  • 12. Jones R, Haufe P, Sells E, Iravan P, Oliver V, Palmer C, Bowyer A. RepRap–the replicating rapid prototyper. Robotica 2012; 29(1): 177-191.
  • 13. Astm, I. S. O. ASTM52900-15 Standard Terminology for Additive Manufacturing-General Principles-Terminology. ASTM International, West Conshohocken, PA, 2015; 3(4):5.
  • 14. Van Noort R. The future of dental devices is digital. Dental Materials 2012; 28(1): 3-12. 15. Dawood A, Marti BM, Sauret-Jackson V, Darwood A. 3D printing in dentistry. British Dental Journal 2015; 219(11): 521.
  • 16. Çelik İ, Karakoç F, Çakır MC, Duysak A. Hızlı prototipleme teknolojileri ve uygulama alanları. Dumlupınar Üniversitesi Fen Bilimleri Enstitüsü Dergisi 2013; 031: 53-70.
  • 17. Jasveer S, Jianbin X. Comparison of different types of 3D printing technologies. International Journal of Scientific and Research Publications 2018; 8(4): 1-9. 18. Hoy MB. 3D printing: Making things at the library. Medical Reference Services Quarterly 2013; 32(1): 93-99.
  • 19. George E, Liacouras P, Rybicki FJ, Mitsouras D. Measuring and establishing the accuracy and reproducibility of 3D printed medical models. Radiographics 2017; 37(5):1424-1450.
  • 20. Yalçın B, Ergene B. Endüstride yeni eğilim olan 3-d eklemeli imalat yöntemi ve metalurjisi. Uluslararası Teknolojik Bilimler Dergisi 2017; 9(3): 65-88.
  • 21. Yap YL, Wang C, Sing SL, Dikshit V, Yeong WY, Wei J. Material jetting additive manufacturing: An experimental study using designed metrological benchmarks. Precision Engineering 2017; 50: 275-285.
  • 22. Jasiuk I, Abueidda DW, Kozuch C, Pang S, Su FY, McKittrick J. An overview on additive manufacturing of polymers. The Journal of The Minerals 2018; 70(3): 275- 283.
  • 23. Huang SH, Liu P, Mokasdar A, Hou L. Additive manufacturing and its societal impact: a literature review. The International Journal of Advanced Manufacturing Technology 2013; 67(5-8): 1191-1203.
  • 24. Javaid M, Haleem A. Current status and applications of additive manufacturing in dentistry: A literature-based review. Journal of Oral Biology and Craniofacial Research2019; 9(3): 179-185
  • 25. AbouHashem Y, Dayal M, Savanah S, Štrkalj G. The application of 3D printing in anatomy education. Medical Education Online 2015; 20(1): 29847.
  • 26. Vaccarezza M, Papa V. 3D printing: A valuable resource in human anatomy education. Anatomical Science International 2015; 90(1): 64-65.
  • 27. Cantín M, Muñoz M, Olate S. Generation of 3D tooth models based on three-dimensional scanning to study themorphology of permanent teeth. International Journal of Morphology 2015; 33(2): 782-7.
  • 28. Aydın N, Kaya İ, Hüsemoğlu RB, Arslantaş A. Torakal vertebra görüntülemesinde simülasyon ve üç boyutlu modellemenin radyolojik tanı ve cerrahi öncesi planlama üzerinde etkileri. Osmangazi Tıp Dergisi 2017; 39(3): 58-61.
  • 29. Hanasono MM, Skoracki RJ. 117B: Improving the speed and accuracy of mandibular reconstruction using preoperative virtual planning and rapid modeling. Plast Reconstr Surg 2010; 125(6): 80.
  • 30. Liu YF, Xu LW, Zhu HY, Liu SSY. Technical procedures for template-guided surgery for mandibular reconstruction based on digital design and manufacturing. Biomedical Engineering Online 2014; 13(1): 63.
  • 31. Chen J, Zhang Z, Chen X, Zhang C, Zhang G, Xu Z. Design and manufacture of customized dental implants by using reverse engineering and selective laser melting technology. J Prosthet Dent 2014; 112: 1088–1095.
  • 32. Figliuzzi M, Mangano F, Mangano CA. Novel root analogue dental implant using CT scan and CAD/CAM: Selective laser melting technology. Int J Oral Maxillofac Surg 2012; 41(7): 858-862.
  • 33. Giacomo GAD, Cury PR, de Araujo NS, Sendyk WR, Sendyk CL. Clinical application of stereolithographic surgical guides for implant placement: Preliminary results. J Periodontol 2005; 76(4): 503-507.
  • 34. Whitley III D, Eidson RS, Rudek I, Bencharit S. In-office fabrication of dental implant surgical guides using desktop stereolithographic printing and implant treatment planning software: A clinical report. J of Prosthet Dent 2017; 118(3): 256-263.
  • 35. Chen H, Yang X, Chen L, Wang Y, Sun Y. Application of FDM three-dimensional printing technology in the digital manufacture of custom edentulous mandible trays. Scientific Reports 2016; 6: 19207
  • 36. Jeong YG, Lee WS, Lee KB. Accuracy evaluation of dental models manufactured by CAD/CAM milling method and 3D printing method. The Journal of Advanced Prosthodontics 2018; 10(3): 245-251.
  • 37. Li X, Xie B, Jin J, Chai Y, Chen Y. 3D printing temporary crown and bridge by temperature controlled mask image projection stereolithography. Procedia Manufacturing 2018; 26: 1023-1033.
  • 38. Koutsoukis T, Zinelis S, Eliades G, Al‐Wazzan K, Rifaiy MA, Al Jabbari YS. Selective laser melting technique of Co‐Cr dental alloys: A review of structure and properties and comparative analysis with other available techniques. Journal of Prosthodontics 2015; 24(4): 303-312.
  • 39. Dovramadjiev T, Pavlova D, Bankova A. Creating a 3D model of dental splint for bruxism. Industry 4.0 2019; 4(4): 167-170.
  • 40. Yılmaz DH, Sözer ÖA, Bilgiç F, Küçük EB. Ortodontide kayıt: Radyografi ve model, Journal of Faculty of Dentistry of Atatürk University Supplement 2016; 143-151.
  • 41. Rheude B, Lionel Sadowsky, Ferriera A, Jacobson A. An evaluation of the use of digital study models in orthodontic diagnosis and treatment planning. Angle Orthod 2005; 75(3): 300-304.
  • 42. Kumar A, Ghafoor H. Rapid prototyping: A future in orthodontics. Journal of Orthodontic Research 2016; 4(1): 1.
  • 43. Ciuffolo F, Epifania E, Duranti G, De Luca V, Raviglia D, Rezza S, Festa F. Rapid prototyping: A new method of preparing trays for indirect bonding. Am J Orthod Dentofacial Orthop 2006; 129(1): 75-77.
  • 44. Lipson H. New world of 3-D printing offers” completely new ways of thinking”: Q&A with author, engineer, and 3-D printing expert Hod Lipson. IEEE Pulse 2013; 4(6): 12-14.
  • 45. Mitsouras D, Liacouras P, Imanzadeh A, Giannopoulos AA, Cai T, Kumamaru KK, Ho VB. Medical 3D printing for the radiologist. Radiographics 2015; 35(7): 1965-1988.
  • 46. Campbell I, Diegel O, Kowen J, Wohlers T. Wohlers Report 2017: 3D Printing and Additive Manufacturing State of the Industry: Annual Worldwide Progress Report, 22th ed. Fort Collıns, Colorado,USA Wohlers Associates, 2017.

Diş hekimliğinde Yeni ve Hızla İlerleyen Üretim Teknolojisi: 3 Boyutlu Yazıcılar

Year 2021, Volume: 7 Issue: 2, 197 - 205, 12.07.2021
https://doi.org/10.53394/akd.958759

Abstract

Üretim teknolojilerindeki hızlı gelişim ve 3 boyutlu yazıcıların bulunması ile diş hekimliği pratiğinde önemli değişiklikler gündeme gelmiştir. 3 boyutlu yazıcıların kullanıldığı bu yeni teknoloji; geleneksel üretimin aksine, daha hızlı ve düşük maliyetli üretim imkânı sunmaktadır. Ayrıca hastaların; birden fazla randevu gerektiren diş tedavi işlemlerine, tek seansta, kişiye özel tasarımlarla ve zengin materyal seçenekleriyle ulaşabilmelerini sağlayacaktır. 3 boyutlu yazıcılarla üretimin diş hekimliği pratiğine girmesiyle büyük bir devrim yaşanacaktır. Bu derlemeyi hazırlamaktaki amacımız 3 boyutlu yazıcılara dair genel bir bakış sağlamaktır. Ayrıca okuyuculara; aşındırıcı ve eklemeli üretim teknolojileriyle, bu teknolojilerin tarihçesi, avantaj ve dezavantajları ve diş hekimliği pratiğinde nasıl kullanıldığına dair bilgi verilmesi amaçlanmıştır.

References

  • 1. Özsoylu AF. Endüstri 4.0. Çukurova Üniversitesi İktisadi ve İdari Bilimler Fakültesi Dergisi 2017; 21(1): 41-64.
  • 2. Raicu L, Marin, D. Design aspects in machine tools evolution. Journal of Proceedings of The International Conference on Manufacturing Systems; 2008; 3: 59-64.
  • 3. Duret F, Preston JD. CAD/CAM imaging in dentistry. Current Opinion in Dentistry 1991; 1: 150-154.
  • 4. Kodama H. Automatic method for fabricating a three‐dimensional plastic model with photo‐hardening polymer. Review of Scientific Instruments 1981; 52(11): 1770–1773.
  • 5. Bhusnure OG, Gholve VS, Sugave BK, Dongre RC, Gore SA, Giram PS. 3D printing and pharmaceutical manufacturing opportunities and challenges. International Journal of Bioassays 2016; 5(1): 4723-4738.
  • 6. Hull, Charles W. “Apparatus for production of threedimensional objects by stereolithography.” United States Patent, Appl., No. 638905, Filed 1984.
  • 7. Gross BC, Erkal JL, Lockwood SY, Chen C, Spence DM. Evaluation of 3D printing and its potential impact on biotechnology and the chemical sciences. Anal Chem 2014; 86(7): 3240-3253.
  • 8. Crump SS. U.S. Patent No. 5,121,329. Washington, DC: U.S. Patent and Trademark Office 1992.
  • 9. Lindner A, Rasse M, Wolf HP, Millesi W, Eglmeier R, Friede I. Indications and use of stereolithographic skull reconstructions in oromaxillofacial surgery. Der Radiologe 1995; 35(9): 578-582.
  • 10. Sachs EM, Haggerty JS, Cima MJ, Williams PA. Threedimensional printing techniques. U.S. Patent 5,204,055, April 20, 1993.
  • 11. Artuğa S, Altun MC. 3 boyutlu baskı teknolojisinin bina üretiminde kullanım olanaklarının güncel örnekler üzerinden incelenmesi. In, Çetinkaya K, Duman B, Özsoy K, Kayaalp K, Oral O, Aydın M, editors. 4th International Congress on 3D Printing (Additive Manufacturing) Technologies and Digital Industry; 2019 April 11-14; Antalya. Turkey; 2019. p: 118-132
  • 12. Jones R, Haufe P, Sells E, Iravan P, Oliver V, Palmer C, Bowyer A. RepRap–the replicating rapid prototyper. Robotica 2012; 29(1): 177-191.
  • 13. Astm, I. S. O. ASTM52900-15 Standard Terminology for Additive Manufacturing-General Principles-Terminology. ASTM International, West Conshohocken, PA, 2015; 3(4):5.
  • 14. Van Noort R. The future of dental devices is digital. Dental Materials 2012; 28(1): 3-12. 15. Dawood A, Marti BM, Sauret-Jackson V, Darwood A. 3D printing in dentistry. British Dental Journal 2015; 219(11): 521.
  • 16. Çelik İ, Karakoç F, Çakır MC, Duysak A. Hızlı prototipleme teknolojileri ve uygulama alanları. Dumlupınar Üniversitesi Fen Bilimleri Enstitüsü Dergisi 2013; 031: 53-70.
  • 17. Jasveer S, Jianbin X. Comparison of different types of 3D printing technologies. International Journal of Scientific and Research Publications 2018; 8(4): 1-9. 18. Hoy MB. 3D printing: Making things at the library. Medical Reference Services Quarterly 2013; 32(1): 93-99.
  • 19. George E, Liacouras P, Rybicki FJ, Mitsouras D. Measuring and establishing the accuracy and reproducibility of 3D printed medical models. Radiographics 2017; 37(5):1424-1450.
  • 20. Yalçın B, Ergene B. Endüstride yeni eğilim olan 3-d eklemeli imalat yöntemi ve metalurjisi. Uluslararası Teknolojik Bilimler Dergisi 2017; 9(3): 65-88.
  • 21. Yap YL, Wang C, Sing SL, Dikshit V, Yeong WY, Wei J. Material jetting additive manufacturing: An experimental study using designed metrological benchmarks. Precision Engineering 2017; 50: 275-285.
  • 22. Jasiuk I, Abueidda DW, Kozuch C, Pang S, Su FY, McKittrick J. An overview on additive manufacturing of polymers. The Journal of The Minerals 2018; 70(3): 275- 283.
  • 23. Huang SH, Liu P, Mokasdar A, Hou L. Additive manufacturing and its societal impact: a literature review. The International Journal of Advanced Manufacturing Technology 2013; 67(5-8): 1191-1203.
  • 24. Javaid M, Haleem A. Current status and applications of additive manufacturing in dentistry: A literature-based review. Journal of Oral Biology and Craniofacial Research2019; 9(3): 179-185
  • 25. AbouHashem Y, Dayal M, Savanah S, Štrkalj G. The application of 3D printing in anatomy education. Medical Education Online 2015; 20(1): 29847.
  • 26. Vaccarezza M, Papa V. 3D printing: A valuable resource in human anatomy education. Anatomical Science International 2015; 90(1): 64-65.
  • 27. Cantín M, Muñoz M, Olate S. Generation of 3D tooth models based on three-dimensional scanning to study themorphology of permanent teeth. International Journal of Morphology 2015; 33(2): 782-7.
  • 28. Aydın N, Kaya İ, Hüsemoğlu RB, Arslantaş A. Torakal vertebra görüntülemesinde simülasyon ve üç boyutlu modellemenin radyolojik tanı ve cerrahi öncesi planlama üzerinde etkileri. Osmangazi Tıp Dergisi 2017; 39(3): 58-61.
  • 29. Hanasono MM, Skoracki RJ. 117B: Improving the speed and accuracy of mandibular reconstruction using preoperative virtual planning and rapid modeling. Plast Reconstr Surg 2010; 125(6): 80.
  • 30. Liu YF, Xu LW, Zhu HY, Liu SSY. Technical procedures for template-guided surgery for mandibular reconstruction based on digital design and manufacturing. Biomedical Engineering Online 2014; 13(1): 63.
  • 31. Chen J, Zhang Z, Chen X, Zhang C, Zhang G, Xu Z. Design and manufacture of customized dental implants by using reverse engineering and selective laser melting technology. J Prosthet Dent 2014; 112: 1088–1095.
  • 32. Figliuzzi M, Mangano F, Mangano CA. Novel root analogue dental implant using CT scan and CAD/CAM: Selective laser melting technology. Int J Oral Maxillofac Surg 2012; 41(7): 858-862.
  • 33. Giacomo GAD, Cury PR, de Araujo NS, Sendyk WR, Sendyk CL. Clinical application of stereolithographic surgical guides for implant placement: Preliminary results. J Periodontol 2005; 76(4): 503-507.
  • 34. Whitley III D, Eidson RS, Rudek I, Bencharit S. In-office fabrication of dental implant surgical guides using desktop stereolithographic printing and implant treatment planning software: A clinical report. J of Prosthet Dent 2017; 118(3): 256-263.
  • 35. Chen H, Yang X, Chen L, Wang Y, Sun Y. Application of FDM three-dimensional printing technology in the digital manufacture of custom edentulous mandible trays. Scientific Reports 2016; 6: 19207
  • 36. Jeong YG, Lee WS, Lee KB. Accuracy evaluation of dental models manufactured by CAD/CAM milling method and 3D printing method. The Journal of Advanced Prosthodontics 2018; 10(3): 245-251.
  • 37. Li X, Xie B, Jin J, Chai Y, Chen Y. 3D printing temporary crown and bridge by temperature controlled mask image projection stereolithography. Procedia Manufacturing 2018; 26: 1023-1033.
  • 38. Koutsoukis T, Zinelis S, Eliades G, Al‐Wazzan K, Rifaiy MA, Al Jabbari YS. Selective laser melting technique of Co‐Cr dental alloys: A review of structure and properties and comparative analysis with other available techniques. Journal of Prosthodontics 2015; 24(4): 303-312.
  • 39. Dovramadjiev T, Pavlova D, Bankova A. Creating a 3D model of dental splint for bruxism. Industry 4.0 2019; 4(4): 167-170.
  • 40. Yılmaz DH, Sözer ÖA, Bilgiç F, Küçük EB. Ortodontide kayıt: Radyografi ve model, Journal of Faculty of Dentistry of Atatürk University Supplement 2016; 143-151.
  • 41. Rheude B, Lionel Sadowsky, Ferriera A, Jacobson A. An evaluation of the use of digital study models in orthodontic diagnosis and treatment planning. Angle Orthod 2005; 75(3): 300-304.
  • 42. Kumar A, Ghafoor H. Rapid prototyping: A future in orthodontics. Journal of Orthodontic Research 2016; 4(1): 1.
  • 43. Ciuffolo F, Epifania E, Duranti G, De Luca V, Raviglia D, Rezza S, Festa F. Rapid prototyping: A new method of preparing trays for indirect bonding. Am J Orthod Dentofacial Orthop 2006; 129(1): 75-77.
  • 44. Lipson H. New world of 3-D printing offers” completely new ways of thinking”: Q&A with author, engineer, and 3-D printing expert Hod Lipson. IEEE Pulse 2013; 4(6): 12-14.
  • 45. Mitsouras D, Liacouras P, Imanzadeh A, Giannopoulos AA, Cai T, Kumamaru KK, Ho VB. Medical 3D printing for the radiologist. Radiographics 2015; 35(7): 1965-1988.
  • 46. Campbell I, Diegel O, Kowen J, Wohlers T. Wohlers Report 2017: 3D Printing and Additive Manufacturing State of the Industry: Annual Worldwide Progress Report, 22th ed. Fort Collıns, Colorado,USA Wohlers Associates, 2017.
There are 44 citations in total.

Details

Primary Language Turkish
Subjects Clinical Sciences
Journal Section Reviews
Authors

Esra Yavuz 0000-0003-3455-2586

Selmi Yılmaz 0000-0001-9546-6548

Publication Date July 12, 2021
Submission Date February 21, 2020
Published in Issue Year 2021 Volume: 7 Issue: 2

Cite

Vancouver Yavuz E, Yılmaz S. Diş hekimliğinde Yeni ve Hızla İlerleyen Üretim Teknolojisi: 3 Boyutlu Yazıcılar. Akd Med J. 2021;7(2):197-205.