DOI:

10.37988/1811-153X_2020_1_76

The comparative analysis of modern methods of manufacturing complete removable dentures

Authors

  • S.V. Apresyan 1, PhD in Medical Sciences, professor of the Prosthodontics department
  • M.S. Terekhov 2, clinical resident of the Contemporary prosthodontic technologies department
  • 1 RUDN University, 117198, Moscow, Russia
  • 2 Central Research Institute of Dental and Maxillofacial Surgery, 119021, Moscow, Russia

Abstract

Aim — through a review of the literature to analyze the data regarding of the manufacture, materials, properties and positive qualities of modern methods of manufacturing complete dentures. Materials and methods. Information was searched in English without time limits in the PubMed Central database, Google was also searched and the literature lists, relevant studies and reviews were analyzed. The selection of publications was carried out at the request of “Digital complete removable dentures”, 389 articles were found in PubMed Central, of which 17 were relevant. For analysis, publications were selected that described in detail the treatment algorithms for patients with complete absence of teeth, using complete removable dentures, made by milling or prototyping, as well as various physico-chemical properties of materials of these prostheses. Results. Based on the data obtained, the following were analyzed: modern methods of manufacturing complete removable dentures, various systems were described that can be used to design and subsequently manufacture complete removable dentures. Also, a description and comparison was carried out, of analog methods and digital, to determine the positive qualities and shortcomings of the prostheses made. Conclusion. Modern methods of manufacturing complete removable dentures, although they have a number of positive qualities, still need to improve their production technologies, which will completely move away from analog methods and make the procedure for manufacturing these prostheses not only short-term, but also widely available.

Key words:

milling, prototyping, digital, complete removable denture

For Citation

[1]
Apresyan S.V., Terekhov M.S. The comparative analysis of modern methods of manufacturing complete removable dentures. Clinical Dentistry (Russia).  2020; 1 (93): 76—79. DOI: 10.37988/1811-153X_2020_1_76

References

  1. van der Zande M.M., Gorter R.C., Bruers J.J.M., Aartman I.H.A., Wismeijer D. Dentists’ opinions on using digital technologies in dental practice. — Community Dent Oral Epidemiol. — 2018; 46 (2): 143—153.
  2. Epub ahead of print.
  3. Janeva N.M., Kovacevska G., Elencevski S., Panchevska S., Mijoska A., Lazarevska B. Advantages of CAD/CAM versus conventional complete dentures — a review. — Open Access Maced J Med Sci. — 2018; 6 (8): 1498—1502.
  4. Han W., Li Y., Zhang Y., Lv Y., Zhang Y., Hu P., Liu H., Ma Z., Shen Y. Design and fabrication of complete dentures using CAD/CAM technology. — Medicine (Baltimore). — 2017; 96 (1): e5435.DOI:10.1097/md.0000000000005435.
  5. Steinmassl P.A., Klaunzer F., Steinmassl O., Dumfahrt H., Grunert I. Evaluation of currently available CAD/CAM denture systems. — Int J Prosthodont. — 2017; 30 (2): 116—22.
  6. Srinivasan M., Cantin Y., Mehl A., Gjengedal H., Müller F., Schimmel M. CAD/CAM milled removable complete dentures: an in vitro evaluation of trueness. — Clin Oral Investig. — 2017; 21 (6): 2007—19.
  7. Lee S., Hong S.J., Paek J., Pae A., Kwon K.R., Noh K. Comparing accuracy of denture bases fabricated by injection molding, CAD/CAM milling, and rapid prototyping method. — J Adv Prosthodont. — 2019; 11 (1): 55—64.
  8. Lo Russo L., Salamini A. Removable complete digital dentures: A workflow that integrates open technologies. — J Prosthet Dent. — 2018; 119 (5): 727—32.
  9. Bonnet G., Batisse C., Bessadet M., Nicolas E., Veyrune J.L. A new digital denture procedure: a first practitioners appraisal. — BMC Oral Health. — 2017; 17 (1): 155.
  10. de Mendonça A.F., Furtado de Mendonça M., White G.S., Sara G., Littlefair D. Total CAD/CAM Supported Method for Manufacturing Removable Complete Dentures. — Case Rep Dent. — 2016; 2016: 1259581.
  11. Ayman A.D. The residual monomer content and mechanical properties of CAD\CAM resins used in the fabrication of complete dentures as compared to heat cured resins. — Electron Physician. — 2017; 9 (7): 4766—72.
  12. Srinivasan M. et al. CAD/CAM milled complete removable dental prostheses: An in vitro evaluation of biocompatibility, mechanical properties, and surface roughness. — Dent Mater J. — 2018; 37 (4): 526—33.
  13. Kalberer N., Mehl A., Schimmel M., Müller F., Srinivasan M. CAD-CAM milled versus rapidly prototyped (3D-printed) complete dentures: An in vitro evaluation of trueness. — J Prosthet Dent. — 2019; 121 (4): 637—43.
  14. Steinmassl P.A., Klaunzer F., Steinmassl O., Dumfahrt H., Grunert I. Evaluation of Currently Available CAD/CAM Denture Systems. — Int J Prosthodont. — 2017; 30 (2): 116—22.
  15. AvaDent. Clinical protocols. —.
  16. Jung S., Park C., Yang H.S., Lim H.P., Yun K.D., Ying Z., Park S.W. Comparison of different impression techniques for edentulous jaws using three-dimensional analysis. — J Adv Prosthodont. — 2019; 11 (3): 179—86.
  17. Hirayama H. Digital removable complete denture (DRCD). — In: Tamimi F., Hirayama H. (eds.) Digital Restorative Dentistry. — Cham, Switzerland: Springer, 2019: 115—136.
  18. Hassan B., Greven M., Wismeijer D. Integrating 3D facial scanning in a digital workflow to CAD/CAM design and fabricate complete dentures for immediate total mouth rehabilitation. — J Adv Prosthodont. — 2017; 9 (5): 381—6.
  19. Lin C.H., Lin Y.M., Lai Y.L., Lee S.Y. Mechanical properties, accuracy, and cytotoxicity of UV-polymerized 3D printing resins composed of Bis-EMA, UDMA, and TEGDMA. — J Prosthet Dent. — 2020; 123 (2): 349—54.
  20. Schwindling F.S., Stober T. A comparison of two digital techniques for the fabrication of complete removable dental prostheses: A pilot clinical study. — J Prosthet Dent. — 2016; 116 (5): 756—63.
  21. Hwang H.J., Lee S.J., Park E.J., Yoon H.I. Assessment of the trueness and tissue surface adaptation of CAD-CAM maxillary denture bases manufactured using digital light processing. — J Prosthet Dent. — 2019; 121 (1): 110—7.
  22. Yoon H.I., Hwang H.J., Ohkubo C., Han J.S., Park E.J. Evaluation of the trueness and tissue surface adaptation of CAD-CAM mandibular denture bases manufactured using digital light processing. — J Prosthet Dent. — 2018; 120 (6): 919—26.

Published on

April 1, 2020