DOI:

10.37988/1811-153X_2018_2_62

The appliance of 3D-modeling and the use of a stereolithographic pattern for resection of the tips of the roots of molars of the lower jaw

Authors

  • V.A. Badalyan 1, PhD in Medical Sciences, senior researcher at the Clinical and experimental Implantology Department
  • A.S. Kasparov 1, PhD in Medical Sciences, researcher at the Clinical and experimental implantology Division
  • Z.M. Stepanyan 1, postgraduate at the Clinical and experimental implantology Division
  • T.M. Bagirov 1, postgraduate at the Clinical and experimental implantology Division
  • M.M. Chernenkiy 1, programming engineer of the 3D modeling and prototyping laboratory
  • 1 Central Research Institute of Dental and Maxillofacial Surgery, 119021, Moscow, Russia

Abstract

An intraoperative template was used to improve the efficiency of resection of lower jaw molar root tops. It was found that the surgery becomes more predictable, reliable and easily reproducible using stereolithographic template, while the wound size and bone damage was minimal.

Key words:

stereolithography, computer technology, apical surgery, periapical pathology

For Citation

[1]
Badalyan V.A., Kasparov A.S., Stepanyan Z.M., Bagirov T.M., Chernenkiy M.M. The appliance of 3D-modeling and the use of a stereolithographic pattern for resection of the tips of the roots of molars of the lower jaw. Clinical Dentistry (Russia).  2018; 2 (86): 62—64. DOI: 10.37988/1811-153X_2018_2_62

References

  1. D’souza K.M., Aras M.A. Applications of computer-aided design/computer-assisted manufacturing technology in dental implant planning. - J Dent Implant. - 2012; 2: 37-41.DOI: https://dx.doi.org/10.4103/0974-6781.96567
  2. Lal K., White G.S., Morea D.N., Wright R.F. Use of stereolithographic templates for surgical and prosthodontic implant planning and placement. Part I. The concept. - J Prosthodont. - 2006; 15 (1): 51-8.
  3. Morris L., Sokoya M., Cunningham L., Gal T.J. Utility of stereolithographic models in osteocutaneous free flap reconstruction of the head and neck. - Craniomaxillofac Trauma Reconstr. - 2013; 6 (2): 87-92.
  4. Rosenfeld A.L., Mandelaris G.A., Tardieu P.B. Prosthetically directed implant placement using computer software to ensure precise placement and predictable prosthetic outcomes. Part 2: rapid-prototype medical modeling and stereolithographic drilling guides requiring bone exposure. - Int J Periodontics Restorative Dent. - 2006; 26 (4): 347-53.
  5. Sarment D.P., Al-Shammari K., Kazor C.E. Stereolithographic surgical templates for placement of dental implants in complex cases. - Int J Periodontics Restorative Dent. - 2003; 23 (3): 287-95.
  6. Sohmura T., Kusumoto N., Otani T., Yamada S., Wakabayashi K., Yatani H. CAD/CAM fabrication and clinical application of surgical template and bone model in oral implant surgery. - Clin Oral Implants Res. - 2009; 20 (1): 87-93.
  7. Valente A.F., Sbrenna B.A., Buoni C.C. CAD CAM drilling guides for transferring CT-based digital planning to flapless placement of oral implants in complex cases. - Int J CARS. - 2006; 1 (suppl.): 413-26.

Published on

June 1, 2018