HIGHLIGHTS OF THE APPLICATION OF THREE-DIMENSIONAL PRINTING TO DENTAL MEDICINE
Keywords:
3D printing, additive manufacturing materials, prosthetic dental medicineAbstract
The application of three-dimensional printing in the field of medicine dates back to the year 2000. Scientific developments related to 3D printing in the field of dental medicine demonstrate and affirm its wide-ranging applications in oral and maxillofacial surgery, prosthetic dental medicine, implantology, endodontics, orthodontics, and periodontology.
For over three decades, 3D printing has been extensively used to create anatomical models that aid in diagnosis, planning, and educational purposes. The aim of this study is to conduct a critical analysis of the highlights of the application of 3D printing in dental medicine
References
Влахова А., (2021) Златев С.: CAD/CAM технологии в протетичната дентална медицина, стр. 41-74, Пловдив.
Димова-Габровска М. (2023) Съвременни дигитални технологии е денталната медицина., Списание на българска академия на науките, стр. 16-22.
Рангелов С. (2023) Армиране на материали за пре0дварителни конструкции – лабораторно и клинично изследване. Дисертация, София.
Танева И. (2022) Триизмерно принтирани шини за профилактика на усложненията при бруксизъм - експериментално и клинично изследване., Дисертационен труд, София.
Танева И., Т. Узунов, Н. Миланов (2020) Напълно дигитален подход при справяне с бруксизма, PROBLEMS OF DENTAL MEDICINE, 46, 18-27.
Alharbi N., R. B. Osman, and D. Wismeijer (2016) Factors influencing the dimensional accuracy of 3d-printed fullcoverage dental restorations using stereolithography technology, The International Journal of Prosthodontics, 29(5), 503–510.
Alharbi N., S. Alharbi, V. Cuijpers, R. B. Osman, and D. Wismeijer (2018) Three-dimensional evaluation of marginal and internal fit of 3D-printed interim restorations fabricated on different finish line designs, Journal of Prosthodontic Research, 62(2), 218–226.
Bagheri A. and Jianyong Jin (2019) Photopolymerization in 3D Printing School of Chemical Sciences, ACS Applied Polymer Materials (4), 593-611, The University of Auckland, New Zealand.
Barazanchi A., K. C. Li, B. Al-Amleh, K. Lyons, and J. N. Waddell, (2017) Additive technology: update on current materials and applications in dentistry, Journal of Prosthodontics, 26(2), 156–163.
Barazanchi A., K. Chun Li, B. Al-Amleh, K. Lyons, J. Neil Waddell (2017) Additive Technology: Update on Current Materials and Applications in Dentistry, Journal of Prosthodontics, 26, 156-163.
Barazanchi A., Kai Chun Li, Basil Al-Amleh, Karl Lyons & J. Neil Waddell (2016) Additive Technology: Update on Current Materials and Applications in Dentistry, Article of Journal of Prosthodontics.
Baumgartner, S., Gmeiner, R., Schonherr, J.A., Stampfl, J. (2020) Stereolithography-based additive manufacturing of lithium disilicate glass ceramic for dental applications., Mater. Sci. Eng. C Mater. Biol. Appl., 116.
Cai H., Xiaotong Xu, Xinyue Lu, Zhao M., Qi Jia, Heng-Bo Jian and Jae-Sung Kwon (2023) Dental Materials Applied to 3D and 4D Printing Technologies: A Review, 15(10).
Chen, J., Ahmad, R., Suenaga, H., Li, W., Sasaki, K., Swain, M., et al. (2015) Shape optimization for additive manufacturing of removable partial dentures–a new paradigm for prosthetic.
Chockalingam K., N. Jawahar, U. Chandrasekar, and K. N. Ramanathan (2008) Establishment of process model for part strength in stereolithography, Journal of Materials Processing Technology, 208(1–3), 348–365.
Crump S., (1992) Apparatus and method for creating three-dimensional objects, U.S. patent, 5121329.
Cutting, C., Bookstein, F. L., Grayson, B., Fellingham, L., and McCarthy, J. G. (1986) Three-dimensional computer-assisted design of craniofacial surgical procedures: optimization and interaction with cephalometric and CT-based models, Plast. Reconstr. Surg., 77, 877–887.
Dikova T, Dzhendov D, Simov M, Katreva-Bozukova, Angelova S, Pavlova D, Abadzhiev M, Tonchev T. (2015) Modern trends in the development of the technologies for production of dental constructions, Journal of IMAB - Annual Proceeding (Scientific Papers), 21(4), 974-981
Ebert, J. Ozkol, E., Zeichner, A., Uibel, K. Weiss, O., Koops, U., et al. (2009) Direct inkjet printing of dental prostheses made of zirconia, J. Dent. Res., 88, 673–676.
Erickson, D. M., Chance, D., Schmitt, S., and Mathis, J. (1999) An opinion survey of reported benefits from the use of stereolithographic models., J. Oral Maxillofac. Surg., 57, 1040–1043
Galante R., C. G. Figueiredo-Pina, and A. P. Serro (2019) Additive manufacturing of ceramics for dental applications: a review, Dental Materials, 35(6), 825–846
Gerdzhikov I, Radeva E, Uzunov (2023) Comparative study of the bond strength of ZirCAD Multi and ZirCAD Prime ceramics with different types of cements, Biotechnology & Biotechnological Equipment, 37:1,
Gerdzhikov I, Radeva E, Uzunov T. (2021) Possibilities of Improving the Shear Srength Between Different Type of Cements and Zirconia Ceramics: Literature Review. J of IMAB., 27(1), 3557-3563
Gross B. C., J. L. Erkal, S. Y. Lockwood, C. Chen, and M. D. Spence (2014) Evaluation of 3D printing and its potential impact on biotechnology and the chemical sciences, Analytical Chemistry, 86(7), 3240–3253
Haggerty S., J. S.; Cima, M. J. Williams, P. A. (1993) Threedimensional printing techniques., U.S. Patent 5,204,055
Hamzah N., Nasrul Anuar Abd Razak , Mohd Sayuti Ab Karim , Hossein Gholizadeh (2021) A review of history of CAD/CAM system application in the production of transtibial prosthetic socket in developing countries
Hoang, D., Perrault, D., Stevanovic, M., and Ghiassi (2016) A Surgical application of three-dimensional printing: a review of the current literature and how to get started, Ann. Transl. Med. 4(2), 456.
Hu, F., Pei, Z., and Wen, Y. (2017) Using intraoral scanning technology for three-dimensional printing of kennedy class i removable partial denture metal framework: a clinical report.
Hull, C. W. (1986) Apparatus for production of three-dimensional objects by stereolithography., March 11, 1986, U.S. Patent 4,575,330
Katreva I., Tsanka Dikova, Metodi Abadzhiev, Tsvetan Tonchev, Dzhendo Dzhendov, Maksim Simov, Svetlana Angelova, Diana Pavlova, Maya Doychinova (2016) 3d printing in contemporary prosthodontic treatment, Scripta Scientifica Medicinae Dentalis, 2(1), 7-11 Medical University of Varna
Kim, G.T.; Go, H.B.; Yu, J.H.; Yang, S.Y.; Kim, K.M.; Choi, S.H.; Kwon, J.S. (2022) Cytotoxicity, Colour Stability and Dimensional Accuracy of 3D Printing Resin with Three Different Photoinitiators., Polymers, 14, 979.
Kim, J.H., Kim, M.Y., Knowles, J.C., Choi, S., Kang, H., Park, S.H., Park, S.M., Kim, H.W., Park, J.T., Lee, J.H., et al. (2020) Mechanophysical and biological properties of a 3D-printed titanium alloy for dental applications., Dent. Mater., 36, 945–958.
Krey, K. F., Darkazanly, N., Kühnert, R., and Ruge, S. (2016) 3D-printed orthodontic brackets - proof of concept. Int., J. Comput. Dent. 19, 351–362.
Kröger, E., Dekiff, M., and Dirksen, D. (2017) 3D printed simulation models based on real patient situations for hands-on practice., Eur. J. Dent. Educ., 21, 119-125.
Liu X.Z., Lu PJ, Wang Y. (2008) Research progress of dental machinable materials, Journal of Peking University (Health Sciences), 40(6), 654-7.
Methani M., M. Revilla-Leon, and A. Zandinejad (2020) The potential of additive manufacturing technologies and their processing parameters for the fabrication of all-ceramic crowns: a review, Journal of Esthetic and Restorative Dentistry, 32(2), 182–192
Nogueira, S. S., Ogle, R. E., and Davis, E. L., (1999) Comparison of accuracy between compression- and injection-molded complete dentures., J. Prosthet. Dent., 82, 291–300.
Oberoi G., S. Nitsch, M. Edelmayer, K. Janjić, A. S. Müller, and H. Agis (2018) 3D printing-encompassing the facets of dentistry, Frontiers in bioengineering and biotechnology, 6, 172
Oilo, M., Hardang, A.D., Ulsund, A.H., Gjerdet, N.R. (2014) Fractographic features of glass-ceramic and zirconia-based dental restorations fractured during clinical function., Eur. J. Oral Sci., 122, 238–244.
Osman R., N. Alharbi, and D. Wismeijer (2017) Build angle: does it influence the accuracy of 3d-printed dental restorations using digital light-processing technology?, The International Journal of Prosthodontics, 30(2), 182–188.
Park Sang-Mo, Ji-Man Park, Seong-Kyun Kim, Seong-Joo Heo, Jai-Young Koak (2020) Flexural Strength of 3D-Printing Resin Materials for Provisional Fixed Dental Prostheses.
Pillai, S., Upadhyay, A., Khayambashi, P., Farooq, I., Sabri, H., Tarar, M., Lee, K.T., Harb, I., Zhou, S., Wang, Y. et al. (2021) Dental 3D-Printing: Transferring Art from the Laboratories to the Clinics. Polymers, 13(1), 157.
Polzin, C., Spath, S., Seitz H., (2013) Characterization and evaluation of a PMMA-based 3D printing process, Rapid Prototyp. J., 19, 37–43.
Quintana R., J.-W. Choi, K. Puebla, and R. Wicker (2009) Effects of build orientation on tensile strength for stereolithographymanufactured ASTM D-638 type I specimens. The International Journal of Advanced Manufacturing Technology, 46, 201–215.
Raghavendra, S.S., Jadhav, G.R., Gathani, K.M., Kotadia, P. (2007) Bioceramics in endodontics—A review., J. Istanb. Univ. Fac. Dent., 51, 128–137.
Rangelov S. (2021) Additive digital technologies in contemporary dental medicinie, International Interdisciplinary Virtual Meeting “Alumni Club and Friends”, 140-143
Revilla L., Meyer M., Özcan, M. (2019) Metal additive manufacturing technologies: Literature review of current status and prosthodontic applications., J. Comput. Dent., 22, 55–67.
Revilla-Leon M., M. Sadeghpour, and M. Ozcan, (2020) A review of the applications of additive manufacturing technologies used to fabricate metals in implant dentistry, Journal of Prosthodontics, 29(7), 579–593
Tian Y. 1, ChunXu Chen, Xiaotong Xu, Jiayin Wang, Xingyu Hou, Kelun Li, Xinyue Lu, HaoYu Shi, Eui-Seok Lee, Heng Bo Jiang (2021) A Review of 3D Printing in Dentistry: Technologies, Affecting Factors, and Applications, Hindawi, 2021,19
Weeren V., R.; Agarwala, M.; Jamalabad, V.; Bandyophadyay, A.; Vaidyanathan, R.; Langrana, N.; Safari, A.; Whalen, P.; Danforth, S.; Ballard, C. (1995) In Proceedings of the Solid Freeform Fabrication Symposium; ASME: New York, 314−321
Woodruff M.A., Hutmacher D.W. (2010) The return of a forgotten polymer—Polycaprolactone in the 21st century, Polym Science, 35, 1217–1256.
Yang, B.; Wang, S.; Wang, G.; Yang, X. (2021) Mechanical properties and wear behaviors analysis of fluorapatite glass-ceramics based on stereolithography 3D printing., J. Mech. Behav. Biomed. Mater.
Zafar M.S. (2020) Prosthodontic Applications of Polymethyl Methacrylate (PMMA): An Update. Polymers, 12(10), 2299.
Zhang, B., Li S., Hingorani, H., Serjouei. A., Larush. L., Pawar. A.A., Goh. W.H., Sakhaei. A.H., Hashimoto. M., Kowsari. K. et al. (2018) Highly stretchable hydrogels for UV curing based high-resolution multimaterial 3D printing., J. Mater. Chem. B., 6, 3246–3253.
