To present and validate a semi-automatic segmentation protocol to enable an accurate 3D reconstruction of the mandibular condyles using cone beam computed tomography (CBCT).Approval from the regional medical ethics review board was obtained for this study. Bilateral mandibular condyles in ten CBCT datasets of patients were segmented using the currently proposed semi-automatic segmentation protocol. This segmentation protocol combined 3D region-growing and local thresholding algorithms. The segmentation of a total of twenty condyles was performed by two observers. The Dice-coefficient and distance map calculations were used to evaluate the accuracy and reproducibility of the segmented and 3D rendered condyles. percentile distance of 0.32 mm ...
Morphological changes of the condyles are often observed following orthognathic surgery. In addition...
Abstract The aim of this study was to develop an auto-segmentation algorithm for mandibular condyle ...
The authors' aim was to provide volumetric data of mandibular condyles based upon cone beam computed...
To present and validate a semi-automatic segmentation protocol to enable an accurate 3D reconstructi...
OBJECTIVE: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
OBJECTIVE: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Contains fulltext : 139095.pdf (publisher's version ) (Open Access)OBJECTIVE: To p...
<div><p>Objective</p><p>To present and validate a semi-automatic segmentation protocol to enable an ...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
The following full text is a publisher's version. For additional information about this publica...
OBJECTIVES: Three-dimensional models of mandibular condyles provide a way for condylar remodeling fo...
Morphological changes of the condyles are often observed following orthognathic surgery. In addition...
Abstract The aim of this study was to develop an auto-segmentation algorithm for mandibular condyle ...
The authors' aim was to provide volumetric data of mandibular condyles based upon cone beam computed...
To present and validate a semi-automatic segmentation protocol to enable an accurate 3D reconstructi...
OBJECTIVE: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
OBJECTIVE: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Contains fulltext : 139095.pdf (publisher's version ) (Open Access)OBJECTIVE: To p...
<div><p>Objective</p><p>To present and validate a semi-automatic segmentation protocol to enable an ...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
Objective: To present and validate a semi-automatic segmentation protocol to enable an accurate 3D r...
The following full text is a publisher's version. For additional information about this publica...
OBJECTIVES: Three-dimensional models of mandibular condyles provide a way for condylar remodeling fo...
Morphological changes of the condyles are often observed following orthognathic surgery. In addition...
Abstract The aim of this study was to develop an auto-segmentation algorithm for mandibular condyle ...
The authors' aim was to provide volumetric data of mandibular condyles based upon cone beam computed...