Reconstructive otoplasty: precision virtual simulation autoreverse cartilaginous skeleton of the auricle
- Authors: Chkadua T.Z. 1, Nadtochiy A.G 1, Asirova V.G 1, Chernen’kiy M.M 1, Frolov S.S 1, Davydenko P.I 2
- Affiliations:
- Central research Institute of dentistry and maxillofacial surgery of Ministry of health of Russia
- “Institute of surgery A.V. Vishnevsky” of Minzdrav of Russia
- Issue: Vol 21, No 1 (2017)
- Pages: 36-38
- Section: Articles
- URL: https://journals.eco-vector.com/1728-2802/article/view/42091
- DOI: https://doi.org/10.18821/1728-28022017;21(1):36-38
- Cite item
Abstract
In the article the objectives are to develop a methodology for determining the size and configuration of the ear cartilage according to CT and to optimize surgical treatment ofpatients with defects and deformations of auricles of a various aetiology on the basis of development of a technique of virtual simulation precision Auto Reverse cartilaginous skeleton of the auricle. On the basis of CT studied anthropometric parameters of the cartilaginous part of the ribs - the donor area to obtain the cartilaginous skeleton of the auricle of the required size and configuration. Intraoperative data confirmed the parameters obtained in precision of virtual modeling, which helped to significantly optimize the operation, reducing her time due to the stage of obtaining cartilage grafts and allowing the donor to reduce the damage and severity ofsubsequent deformation of the chest. Suggested activities can be used as precision planning to improve the efficiency of surgical treatment to eliminate defects and deformations of auricles.
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About the authors
Tamara Zurabovna Chkadua
Central research Institute of dentistry and maxillofacial surgery of Ministry of health of Russia
Author for correspondence.
Email: mail@chkadua.com
119991, Moscow
Dr. med. Sciences, oral and maxillofacial surgeon
A. G Nadtochiy
Central research Institute of dentistry and maxillofacial surgery of Ministry of health of Russia
Email: info@eco-vector.com
119991, Moscow
Department of reconstructive oral and maxillofacial surgery, microsurgery and actoprotective, laboratory of 3D modeling and prototyping Department of radiology, Department of radiological methods of diagnostics
V. G Asirova
Central research Institute of dentistry and maxillofacial surgery of Ministry of health of Russia
Email: info@eco-vector.com
119991, Moscow
Department of reconstructive oral and maxillofacial surgery, microsurgery and actoprotective, laboratory of 3D modeling and prototyping Department of radiology, Department of radiological methods of diagnostics
M. M Chernen’kiy
Central research Institute of dentistry and maxillofacial surgery of Ministry of health of Russia
Email: info@eco-vector.com
119991, Moscow
Department of reconstructive oral and maxillofacial surgery, microsurgery and actoprotective, laboratory of 3D modeling and prototyping Department of radiology, Department of radiological methods of diagnostics
S. S Frolov
Central research Institute of dentistry and maxillofacial surgery of Ministry of health of Russia
Email: info@eco-vector.com
119991, Moscow
Department of reconstructive oral and maxillofacial surgery, microsurgery and actoprotective, laboratory of 3D modeling and prototyping Department of radiology, Department of radiological methods of diagnostics
P. I Davydenko
“Institute of surgery A.V. Vishnevsky” of Minzdrav of Russia
Email: info@eco-vector.com
117997, Moscow
Radiology and magnetic resonance research
References
- Меллер Т.Б., Райф Э. Норма при КТ- и МРТ-исследованиях: Пер. с англ. / Под общ. ред. Труфанова Г.Е., Марченко Н.В. 2-е изд. М.: МЕДпресс-информ; 2013.
- Firmin F., Marchac A. A Novel Algorithm for Autologous Ear Reconstruction. Semin. Plast. Surg. 2011; 25 (04): 257-264.