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Tallarico M. Computerization and Digital Workflow in Medicine: Focus on Digital Dentistry. Materials. 2020;13(9):2172.Search in Google Scholar
Jahangiri L, Akiva G, Lakhia S, et al. Understanding the complexities of digital dentistry integration in high-volume dental institutions. Br Dent J. 2020;229:66–168.Search in Google Scholar
Spagnuolo G, Sorrentino R. The Role of Digital Devices in Dentistry: Clinical Trends and Scientific Evidences. Journal of Clinical Medicine. 2020;9(6):1692.Search in Google Scholar
Sulaiman TA. Materials in digital dentistry—A review. J Esthet Restor Dent. 2020;32:171–181.Search in Google Scholar
Tatarciuc M, Diaconu-Popa D, Vitalariu A. Digital dentistry. The Medical-Surgical Journal. 2019;123(4):735-8.Search in Google Scholar
Polatoğlu S, Bahadir HS. Digital dentistry. In Kural C: Current Research in Health Sciences. 2023 Mar. pp. 55-70.Search in Google Scholar
D. Rekow. Digital dentistry: a comprehensive reference and preview of the future surrey. UK: Quintessence; 2018, P. 41-50Search in Google Scholar
Blatz MB, Conejo J. The current state of chairside digital dentistry and materials. Dent Clin North Am 2019; 63:175-197.Search in Google Scholar
Miyoshi K, Tanaka S, Yokoyama S, Sanda M, Baba K. Effects of different types of intraoral scanners and scanning ranges on the precision of digital implant impressions in edentulous maxilla: An in vitro study. Clin Oral Implants Res 2020; 31:74-83.Search in Google Scholar
Takeuchi Y, Koizumi H, Furuchi M, Sato Y, Ohkubo C, Matsumura H. Use of digital impression systems with intraoral scanners for fabricating restorations and fixed dental prostheses. J Oral Sci 2018;60:1-7.Search in Google Scholar
Suese K. Progress in digital dentistry: The practical use of intraoral scanners. Dental Materials Journal. 2020;39(1):52-6.Search in Google Scholar
Kirschneck C, Kamuf B, Putsch C, Chhatwani S, Bizhang M, Danesh G. Conformity, reliability and validity of digital dental models created by clinical intraoral scanning and extraoral plaster model digitization workflows. Computers in biology and medicine. 2018;100:114-22.Search in Google Scholar
Rekow ED. Digital dentistry: The new state of the art—Is it disruptive or destructive?. Dental Materials. 2020;36(1):9-24.Search in Google Scholar
Kim RJ, Park JM, Shim JS. Accuracy of 9 intraoral scanners for complete-arch image acquisition: A qualitative and quantitative evaluation. The Journal of Prosthetic Dentistry. 2018;120(6):895-903.Search in Google Scholar
Abdel-Azim T, Rogers K, Elathamna E, Zandinejad A, Metz M, Morton D. Comparison of the marginal fit of lithium disilicate crowns fabricated with CAD/CAM technology by using conventional impressions and two intraoral digital scanners. The Journal of prosthetic dentistry. 2015;114(4):554-9.Search in Google Scholar
Rödiger M, Heinitz A, Bürgers R, Rinke S. Fitting accuracy of zirconia single crowns produced via digital and conventional impressions—a clinical comparative study. Clinical oral investigations. 2017;21:579-87.Search in Google Scholar
Juntavee N, Sirisathit I. Internal accuracy of digitally fabricated cross-arch yttria-stabilized tetragonal zirconia polycrystalline prosthesis. Clinical, Cosmetic and Investigational Dentistry. 2018:129-40.Search in Google Scholar
Benic GI, Sailer I, Zeltner M, Gütermann JN, Özcan M, Mühlemann S. Randomized controlled clinical trial of digital and conventional workflows for the fabrication of zirconia-ceramic fixed partial dentures. Part III: Marginal and internal fit. The Journal of prosthetic dentistry. 2019;121(3):426-31.Search in Google Scholar
Kumar PK, Chopra S. CAD-CAM Technology in Dentistry: A Brief Review. MAR Dental Sciences. 2021;2(1):1-11.Search in Google Scholar
Yassmin F, Blatz MB. The Impact of Digital Dentistry in Interdisciplinary Esthetic Treatment. Compendium of Continuing Education in Dentistry (Jamesburg, N.J. : 1995). 2022;43(9):571-576;Search in Google Scholar
Queiroz ME, Dallazen E, Tsutsumi MS, et al. Virtual occlusal record: a literature review about the digital method. Research, Society and Development. 2021;10(14):e44101421507.Search in Google Scholar
Kwon JH, Im S, Chang M, Kim JE, Shim JS. A digital approach to dynamic jaw tracking using a target tracking system and a structured-light three-dimensional scanner. Journal of prosthodontic research. 2019;63(1):115-9.Search in Google Scholar
Lepidi L, Chen Z, Ravida A, Lan T, Wang HL, Li J. A full digital technique to mount a maxillary arch scan on a virtual articulator. Journal of Prosthodontics. 2019;28(3):335-8.Search in Google Scholar
Mangano C, Luongo F, Migliario M, Mortellaro C, Mangano FG. Combining intraoral scans, cone beam computed tomography and face scans: the virtual patient. Journal of Craniofacial Surgery. 2018;29(8):2241-6.Search in Google Scholar
Raffone C, Gianfreda F, Pompeo MG, Antonacci D, Bollero P, Canullo L. Chairside virtual patient protocol. Part 2: Management of multiple face scans and alignment predictability. Journal of Dentistry. 2022;122:104123.Search in Google Scholar