Diş Hekimliğinde Fotopolimerizasyon ile 3 Boyutlu Üretim Yöntemleri ve Kullanım Alanları
Year 2023,
, 479 - 485, 21.08.2023
Melisa Özay
,
Serkan Sarıdağ
Abstract
Son yıllarda üretim teknolojilerinin hızla gelişmesiyle, 3 boyutlu yazıcıların kullanımında dikkat çekici bir artış yaşanmıştır. Havacılık, savunma, sanat ve tasarım alanlarında kullanılan 3 boyutlu üretim teknolojileri; diş hekimliğinde de önemli bir yere sahip olmuştur. Farklı metodlarda kullanılan birçok materyal ile hasta ve hekim konforu artırılmakta ve çalışma süresi kısaltılmaktadır. Yeni üretim yöntemleri; alçıdan model dökümü ve braketlerle ortodontik tedavi gibi geleneksel yöntemlerin aksine tedavilerin verimini ve başarısını ileri düzeye taşımış ve birçok yeni gelişmeye de olanak sağlamıştır. Fotopolimerize rezinler; protez kaide materyali, obturator, geçici kron-köprü üretiminin yanı sıra, dental eğitim alanında model eldesinde de kullanılmaktadır. Bu derlemenin amacı; ışıkla polimerize olan rezinlerin 3 boyutlu üretim sürecindeki kullanım alanları hakkında genel bir bakış açısı sunmaktır. Ayrıca eklemeli üretim teknolojileri, bu teknolojilerde kullanılan materyaller, avantaj ve dezavantajları hakkında bilgi verilmesi amaçlanmıştır.
Thanks
Sarıdağ Dental Akademi Ağız ve Diş Sağlığı Polikliniği’ne çalışma ortamı sağladığı için teşekkür ederiz. 3BFab 3D Printing & Innovation’a dental model ve rezin görsellerinin kullanılmasına izin verdikleri için teşekkür ederiz.
References
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- 31.Tumbleston JR, Shirvanyants D, Ermoshkin N, Janusziewicz R, Johnson AR, Kelly D, et al. Continuous liquid interface production of 3D objects. Science. 2015;347(6228):1349-52.
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- 33.Ibrahim D, Broilo TL, Heitz C, de Oliveira MG, de Oliveira HW, Nobre SMW, et al. Dimensional error of selective laser sintering, three-dimensional printing and PolyJet™ models in the reproduction of mandibular anatomy. Journal of Cranio-Maxillofacial Surgery. 2009;37(3):167-73.
- 34.Sercer M, Rezic T, Godec D, Oros D, Pilipovic A, Ivusic F, et 1.Cicciù M, Fiorillo L, D’Amico C, Gambino D, Amantia EM, Laino L, et al. 3D digital impression systems compared with traditional techniques in dentistry: A recent data systematic review. Materials. 2020;13(8):1982.
- 35.Cui X, Breitenkamp K, Finn M, Lotz M, D'Lima DD. Direct human cartilage repair using three-dimensional bioprinting technology. Tissue Engineering Part A. 2012;18(11-12):1304-12.
- 36.Unsal G-S, Turkyilmaz I, Lakhia S. Advantages and limitations of implant surgery with CAD/CAM surgical guides: A literature review. Journal of Clinical and Experimental Dentistry. 2020;12(4):e409.
- 37.Van Assche N, Vercruyssen M, Coucke W, Teughels W, Jacobs R, Quirynen M. Accuracy of computer‐aided implant placement. Clinical oral implants research. 2012;23:112-23.
- 38.Kim T, Lee S, Kim GB, Hong D, Kwon J, Park J-w, et al. Accuracy of a simplified 3D-printed implant surgical guide. The Journal of prosthetic dentistry. 2020;124(2):195-201. e2.
- 39.Tartaglia GM, Mapelli A, Maspero C, Santaniello T, Serafin M, Farronato M, et al. Direct 3D Printing of Clear Orthodontic Aligners: Current State and Future Possibilities. Materials. 2021;14(7):1799.
- 40.Jindal P, Juneja M, Siena FL, Bajaj D, Breedon P. Mechanical and geometric properties of thermoformed and 3D printed clear dental aligners. American Journal of Orthodontics and Dentofacial Orthopedics. 2019;156(5):694-701.
- 41.Mohnish Kumar S. Cytotoxicity of 3D Printed Materials: An In Vitro Study: Sri Ramakrishna Dental College and Hospital, Coimbatore; 2019.
- 42.Prpić V, Schauperl Z, Ćatić A, Dulčić N, Čimić S. Comparison of mechanical properties of 3D‐printed, CAD/CAM, and conventional denture base materials. Journal of Prosthodontics. 2020;29(6):524-8.
- 43.Al-Qarni FD, Gad MM. Printing Accuracy and Flexural Properties of Different 3D-Printed Denture Base Resins. Materials. 2022;15(7):2410.
- 44.Pillai S, Upadhyay A, Khayambashi P, Farooq I, Sabri H, Tarar M, et al. Dental 3D-printing: transferring art from the laboratories to the clinics. Polymers. 2021;13(1):157.
- 45.Tancu A, Pantea M, Totan A, Tanase M, Imre M. 3D printed dental models. Materiale Plastice. 2019;56:51-4.
- 46.Camardella LT, de Vasconcellos Vilella O, Breuning H. Accuracy of printed dental models made with 2 prototype technologies and different designs of model bases. American Journal of Orthodontics and Dentofacial Orthopedics. 2017;151(6):1178-87.
- 47.Nicot R, Druelle C, Schlund M, Roland‐Billecart T, Gwénaël R, Ferri J, et al. Use of 3D printed models in student education of craniofacial traumas. Dental Traumatology. 2019;35(4-5):296-9.
- 48.Reymus M, Fotiadou C, Hickel R, Diegritz C. 3D‐printed model for hands‐on training in dental traumatology. International Endodontic Journal. 2018;51(11):1313-9.
- 49.BULUT AC. DÜŞÜK MALİYETLİ, ÜÇ BOYUTLU BİR YAZICI KULLANILARAK OLUŞTURULAN DİŞ MODELLERİNİN DEĞERLENDİRİLMESİ. Kırıkkale Üniversitesi Tıp Fakültesi Dergisi. 2020;22(3):461-9.
Year 2023,
, 479 - 485, 21.08.2023
Melisa Özay
,
Serkan Sarıdağ
References
- 1.Cicciù M, Fiorillo L, D’Amico C, Gambino D, Amantia EM, Laino L, et al. 3D digital impression systems compared with traditional techniques in dentistry: A recent data systematic review. Materials. 2020;13(8):1982.
- 2.Zaharia C, Gabor A-G, Gavrilovici A, Stan AT, Idorasi L, Sinescu C, et al. Digital dentistry-3D printing applications. Journal of Interdisciplinary Medicine. 2017;2(1):50-3.
- 3.Lin L, Fang Y, Liao Y, Chen G, Gao C, Zhu P. 3D printing and digital processing techniques in dentistry: a review of literature. Advanced Engineering Materials. 2019;21(6):1801013.
- 4.Wang J, Goyanes A, Gaisford S, Basit AW. Stereolithographic (SLA) 3D printing of oral modified-release dosage forms. International journal of pharmaceutics. 2016;503(1-2):207-12.
- 5.Quan H, Zhang T, Xu H, Luo S, Nie J, Zhu X. Photo-curing 3D printing technique and its challenges. Bioactive Materials. 2020;5(1):110-5.
- 6.Alammar A, Kois JC, Revilla‐León M, Att W. Additive Manufacturing Technologies: Current Status and Future Perspectives. Journal of Prosthodontics. 2022;31(S1):4-12.
- 7.Murtezani I, Sharma N, Thieringer FM. Medical 3D Printing with a focus on Point-of-Care in Cranio-and Maxillofacial Surgery. A systematic review of literature. Annals of 3D Printed Medicine. 2022:100059.
- 8.Miyazaki T, Hotta Y, Kunii J, Kuriyama S, Tamaki Y. A review of dental CAD/CAM: current status and future perspectives from 20 years of experience. Dental materials journal. 2009;28(1):44-56.
- 9.Shin S-H, Doh R-M, Lim J-H, Kwon J-S, Shim J-S, Kim J-E. Evaluation of Dimensional Changes According to Aging Period and Postcuring Time of 3D-Printed Denture Base Prostheses: An In Vitro Study. Materials. 2021;14(20):6185.
- 10.Dawood A, Marti BM, Sauret-Jackson V, Darwood A. 3D printing in dentistry. British dental journal. 2015;219(11):521-9.
- 11.Alifui-Segbaya F. Biomedical photopolymers in 3D printing. Rapid Prototyping Journal. 2019.
- 12.Oliveira TT, Reis AC. Fabrication of dental implants by the additive manufacturing method: A systematic review. The Journal of Prosthetic Dentistry. 2019;122(3):270-4.
- 13.Layani M, Wang X, Magdassi S. Novel materials for 3D printing by photopolymerization. Advanced Materials. 2018;30(41):1706344.
- 14.Schweiger J, Edelhoff D, Güth J-F. 3D printing in digital prosthetic dentistry: an overview of recent developments in additive manufacturing. Journal of Clinical Medicine. 2021;10(9):2010.
- 15.Khorsandi D, Fahimipour A, Abasian P, Saber SS, Seyedi M, Ghanavati S, et al. 3D and 4D printing in dentistry and maxillofacial surgery: Printing techniques, materials, and applications. Acta biomaterialia. 2021;122:26-49.
- 16.Crețu C, Agop-Forna D, Forna N-C. COMPUTERIZED TECHNIQUES USED FOR 3D PRINTING IN PROSHODONTICS. A SYSTEMATIC REVIEW. Romanian Journal of Oral Rehabilitation. 2021;13(1).
- 17.Crivello JV, Reichmanis E. Photopolymer materials and processes for advanced technologies. Chemistry of Materials. 2014;26(1):533-48.
- 18.Gibson I, Rosen D, Stucker B, Khorasani M. Direct digital manufacturing. Additive manufacturing technologies: Springer; 2021. p. 525-54.
- 19.Ikemura K, Endo T. A review of the development of radical photopolymerization initiators used for designing light-curing dental adhesives and resin composites. Dental Materials Journal. 2010:1009140075-.
- 20.Tian Y, Chen C, Xu X, Wang J, Hou X, Li K, et al. A review of 3D printing in dentistry: Technologies, affecting factors, and applications. Scanning. 2021;2021.
- 21.Zafar MS. Prosthodontic applications of polymethyl methacrylate (PMMA): An update. Polymers. 2020;12(10):2299.
- 22.Ali U, Karim KJBA, Buang NA. A review of the properties and applications of poly (methyl methacrylate)(PMMA). Polymer Reviews. 2015;55(4):678-705.
- 23.Melchels FP, Feijen J, Grijpma DW. A review on stereolithography and its applications in biomedical engineering. Biomaterials. 2010;31(24):6121-30.
- 24.Xu J, Shu Q. Application of 3D printing techniques in treatment of congenital heart disease. Journal of Zhejiang University (Medical Science). 2019;48(5):573-9.
- 25.Schmidleithner C, Kalaskar DM. Stereolithography. IntechOpen; 2018.
- 26.Zhao Z, Tian X, Song X. Engineering materials with light: Recent progress in digital light processing based 3D printing. Journal of Materials Chemistry C. 2020;8(40):13896-917.
- 27.Lu Y, Mapili G, Suhali G, Chen S, Roy K. A digital micro‐mirror device‐based system for the microfabrication of complex, spatially patterned tissue engineering scaffolds. Journal of Biomedical Materials Research Part A: An Official Journal of The Society for Biomaterials, The Japanese Society for Biomaterials, and The Australian Society for Biomaterials and the Korean Society for Biomaterials. 2006;77(2):396-405.
- 28.Chang DG, Li S, An CF, editors. The influence analysis of globular indexing cam mechanism size parameters on transmission performance. Advanced Materials Research; 2012: Trans Tech Publ.
- 29.Wu L, Zhao L, Jian M, Mao Y, Yu M, Guo X. EHMP-DLP: multi-projector DLP with energy homogenization for large-size 3D printing. Rapid Prototyping Journal. 2018.
- 30.Moon W, Kim S, Lim B-S, Park Y-S, Kim RJ-Y, Chung SH. Dimensional accuracy evaluation of temporary dental restorations with different 3d printing systems. Materials. 2021;14(6):1487.
- 31.Tumbleston JR, Shirvanyants D, Ermoshkin N, Janusziewicz R, Johnson AR, Kelly D, et al. Continuous liquid interface production of 3D objects. Science. 2015;347(6228):1349-52.
- 32.Balli J, Kumpaty S, Anewenter V, editors. Continuous liquid interface production of 3D objects: An unconventional technology and its challenges and opportunities. ASME International Mechanical Engineering Congress and Exposition; 2017: American Society of Mechanical Engineers.
- 33.Ibrahim D, Broilo TL, Heitz C, de Oliveira MG, de Oliveira HW, Nobre SMW, et al. Dimensional error of selective laser sintering, three-dimensional printing and PolyJet™ models in the reproduction of mandibular anatomy. Journal of Cranio-Maxillofacial Surgery. 2009;37(3):167-73.
- 34.Sercer M, Rezic T, Godec D, Oros D, Pilipovic A, Ivusic F, et 1.Cicciù M, Fiorillo L, D’Amico C, Gambino D, Amantia EM, Laino L, et al. 3D digital impression systems compared with traditional techniques in dentistry: A recent data systematic review. Materials. 2020;13(8):1982.
- 35.Cui X, Breitenkamp K, Finn M, Lotz M, D'Lima DD. Direct human cartilage repair using three-dimensional bioprinting technology. Tissue Engineering Part A. 2012;18(11-12):1304-12.
- 36.Unsal G-S, Turkyilmaz I, Lakhia S. Advantages and limitations of implant surgery with CAD/CAM surgical guides: A literature review. Journal of Clinical and Experimental Dentistry. 2020;12(4):e409.
- 37.Van Assche N, Vercruyssen M, Coucke W, Teughels W, Jacobs R, Quirynen M. Accuracy of computer‐aided implant placement. Clinical oral implants research. 2012;23:112-23.
- 38.Kim T, Lee S, Kim GB, Hong D, Kwon J, Park J-w, et al. Accuracy of a simplified 3D-printed implant surgical guide. The Journal of prosthetic dentistry. 2020;124(2):195-201. e2.
- 39.Tartaglia GM, Mapelli A, Maspero C, Santaniello T, Serafin M, Farronato M, et al. Direct 3D Printing of Clear Orthodontic Aligners: Current State and Future Possibilities. Materials. 2021;14(7):1799.
- 40.Jindal P, Juneja M, Siena FL, Bajaj D, Breedon P. Mechanical and geometric properties of thermoformed and 3D printed clear dental aligners. American Journal of Orthodontics and Dentofacial Orthopedics. 2019;156(5):694-701.
- 41.Mohnish Kumar S. Cytotoxicity of 3D Printed Materials: An In Vitro Study: Sri Ramakrishna Dental College and Hospital, Coimbatore; 2019.
- 42.Prpić V, Schauperl Z, Ćatić A, Dulčić N, Čimić S. Comparison of mechanical properties of 3D‐printed, CAD/CAM, and conventional denture base materials. Journal of Prosthodontics. 2020;29(6):524-8.
- 43.Al-Qarni FD, Gad MM. Printing Accuracy and Flexural Properties of Different 3D-Printed Denture Base Resins. Materials. 2022;15(7):2410.
- 44.Pillai S, Upadhyay A, Khayambashi P, Farooq I, Sabri H, Tarar M, et al. Dental 3D-printing: transferring art from the laboratories to the clinics. Polymers. 2021;13(1):157.
- 45.Tancu A, Pantea M, Totan A, Tanase M, Imre M. 3D printed dental models. Materiale Plastice. 2019;56:51-4.
- 46.Camardella LT, de Vasconcellos Vilella O, Breuning H. Accuracy of printed dental models made with 2 prototype technologies and different designs of model bases. American Journal of Orthodontics and Dentofacial Orthopedics. 2017;151(6):1178-87.
- 47.Nicot R, Druelle C, Schlund M, Roland‐Billecart T, Gwénaël R, Ferri J, et al. Use of 3D printed models in student education of craniofacial traumas. Dental Traumatology. 2019;35(4-5):296-9.
- 48.Reymus M, Fotiadou C, Hickel R, Diegritz C. 3D‐printed model for hands‐on training in dental traumatology. International Endodontic Journal. 2018;51(11):1313-9.
- 49.BULUT AC. DÜŞÜK MALİYETLİ, ÜÇ BOYUTLU BİR YAZICI KULLANILARAK OLUŞTURULAN DİŞ MODELLERİNİN DEĞERLENDİRİLMESİ. Kırıkkale Üniversitesi Tıp Fakültesi Dergisi. 2020;22(3):461-9.