Abstract: A case of reconstruction of right mandibular defect due to surgical treatment of ameloblastoma is presented. Cone-beam computed tomography (CBCT) data were used for segmentation and producing of prototype of the lower jaw using 3D printing technique. The prototype was used to shape a titanium plate in order to replace the resected bone. The aim of this work is to present and comment the possibilities for preoperative planning and virtual reconstructions using CBCT and 3D printing technology
The reconstruction of boney defects of the mandible are a challenge in surgical therapy despite adva...
<p>(a) Mesh wireframe computer model of the mandible. (b) Photograph of the printed mandible with th...
Purpose: CBCT imaging does not record dental morphology accurately due to the scattering produced ...
Background: Mandibular reconstruction following malignancy ablation is the mainstream therapy in res...
Introduction: Individual planning of complex maxillofacial corrections may require 3D models which c...
Radical surgery is the mainstay for the treatment of recurrent ameloblastomas; however, it leads to ...
Construction of three-dimensional (3D) models of various organs from CT images using 3D printers has...
This chapter shows the complete cone beam computed tomogram (CBCT)-based virtual workflow of fully d...
3D printing is one of the most significant technological advancements of the modern era. Among the v...
none5noModern planning techniques, including computer-aided design/computer-aided manufacturing (CAD...
A method of producing a composite model consisting of a three-dimensional printed mandible bearing p...
With the advent of microsurgery, composite defect in the mandible can be repaired with various forms...
With the advent of microsurgery, composite defect in the mandible can be repaired with various forms...
Three-dimensional (3D) printing is relatively a new technology with clinical applications, which ena...
Abstract Mandibular reconstructions are complex clinical pictures that require careful planning for ...
The reconstruction of boney defects of the mandible are a challenge in surgical therapy despite adva...
<p>(a) Mesh wireframe computer model of the mandible. (b) Photograph of the printed mandible with th...
Purpose: CBCT imaging does not record dental morphology accurately due to the scattering produced ...
Background: Mandibular reconstruction following malignancy ablation is the mainstream therapy in res...
Introduction: Individual planning of complex maxillofacial corrections may require 3D models which c...
Radical surgery is the mainstay for the treatment of recurrent ameloblastomas; however, it leads to ...
Construction of three-dimensional (3D) models of various organs from CT images using 3D printers has...
This chapter shows the complete cone beam computed tomogram (CBCT)-based virtual workflow of fully d...
3D printing is one of the most significant technological advancements of the modern era. Among the v...
none5noModern planning techniques, including computer-aided design/computer-aided manufacturing (CAD...
A method of producing a composite model consisting of a three-dimensional printed mandible bearing p...
With the advent of microsurgery, composite defect in the mandible can be repaired with various forms...
With the advent of microsurgery, composite defect in the mandible can be repaired with various forms...
Three-dimensional (3D) printing is relatively a new technology with clinical applications, which ena...
Abstract Mandibular reconstructions are complex clinical pictures that require careful planning for ...
The reconstruction of boney defects of the mandible are a challenge in surgical therapy despite adva...
<p>(a) Mesh wireframe computer model of the mandible. (b) Photograph of the printed mandible with th...
Purpose: CBCT imaging does not record dental morphology accurately due to the scattering produced ...