Our problems and observations in 3D facial implant planning
Saponaro Gianmarco, Paolantonio Chiara, Barbera Giorgio, Foresta Enrico, Gasparini Giulio, Moro Alessandro,
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( Saponaro Gianmarco ) - IRCSS Fondazione Policlinico Universitario A. Gemelli - Universita Cattolica del Sacro Cuore sede di Roma Maxillo-Facial Surgery Unit
( Paolantonio Chiara ) - IRCSS Fondazione Policlinico Universitario A. Gemelli - Universita Cattolica del Sacro Cuore sede di Roma Maxillo-Facial Surgery Unit
( Barbera Giorgio ) - IRCSS Fondazione Policlinico Universitario A. Gemelli - Universita Cattolica del Sacro Cuore sede di Roma Maxillo-Facial Surgery Unit
( Foresta Enrico ) - IRCSS Fondazione Policlinico Universitario A. Gemelli - Universita Cattolica del Sacro Cuore sede di Roma Maxillo-Facial Surgery Unit
( Gasparini Giulio ) - IRCSS Fondazione Policlinico Universitario A. Gemelli - Universita Cattolica del Sacro Cuore sede di Roma Maxillo-Facial Surgery Unit
( Moro Alessandro ) - IRCSS Fondazione Policlinico Universitario A. Gemelli - Universita Cattolica del Sacro Cuore sede di Roma Maxillo-Facial Surgery Unit
Abstract
Background: Three-dimensional renderings of two-dimensional computed tomography data have allowed for more precise analysis in the craniofacial field. Design, engineering, architecture, and other industries have paved the way for the manipulation and printing of three-dimensional objects. The usual planning is only carried out based on the bony structures, often without taking into consideration the presence of soft tissues and soft structures. During our practice, we have found ourselves facing the challenge posed by these structures; the aim of this article is to discuss our experience in designing implants presenting our tips and tricks for a better planning leading to an easy and reliable positioning.
Case presentation: We have retrieved all patients in 5 years among those who underwent computer-aided design/computer-aided manufacturing implant placement in the last 5 years in order to review the eventual problems and the solutions found. A total number of 25 patients were retrieved and, among them, 10 patients were selected, in which planning inaccuracy caused difficulties during implant placement and which then led to induced changes during the planning of similar cases or in which the problems were noted before or during the planning which led to changes in the plan to address those problems. Six of the selected cases were polyetheretherketone facial implants for the correction of residual deformities in malformed or deformed patients. One case was a delayed orbital reconstruction with a titanium implant. Two cases were titanium functional and anatomical reconstruction of the mandible in patients with failed post-oncological reconstructions. There was 1 case with a mandibular ramus complex and hard-to-treat fracture.
Conclusions: The planning of the implant mostly relies on hard tissue three-dimensional reconstruction, but it should not be limited at what is immediately evident. A surgeon¡¯s clinical experience should always guide the process, with knowledge of the patient¡¯s anatomy and evaluation of the quality and of the soft tissue response being taken into consideration. The implant should always be tailored not only based on the bone defect and evaluations but also using the patient¡¯s previewed and actual anatomy, evaluating eventual interferences and pitfalls.
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PEEK; CAD-CAM; Custom implants; Prosthesis; 3D reconstruction; PEEK implants; Reconstruction; Patient-specific implants
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