At the current stage of diagnostics and therapy, it is necessary to perform a geometric evaluation of facial skull bone structures basing upon virtually reconstructed objects or replicated objects with reverse engineering. The objective hereof is an analysis of imaging precision for cranial bone structures basing upon spiral tomography and in relation to the reference model with the use of laser scanning. Evaluated was the precision of skull reconstruction in 3D printing, and it was compared with the real object, topography model and reference model. The performed investigations allowed identifying the CT imaging accuracy for cranial bone structures the development of and 3D models as well as replicating its shape in printed models. The exe...
We present a new method for replicating the skull and occlusal surface with an accurate physical mod...
Computed tomography can assist the surgeon in planning the exact three-dimensional positioning of en...
Purpose - Additive manufactured (AM) skull models are increasingly used to plan complex surgical cas...
At the current stage of diagnostics and therapy, it is necessary to perform a geometric evaluation o...
We present a protocol for the evaluation of the geometric accuracy of bone segmentation algorithms i...
Three-dimensional (3D) printed models of the human skull and parts of it are being increasingly used...
In general, the 3 D printed medical models are made based on virtual digital models obtained from ma...
The production of a copy of an existing object of complex shape is one of the typical applications o...
The aim of this study is to compare two different methods of frontal bone surface model acquisition....
© 2015 IPEM. Computed tomography provides high contrast imaging of the joint anatomy and is used rou...
BACKGROUND: Three-dimensional printing and computer-assisted surgery demand a high-precision three-d...
BACKGROUND: Three-dimensional (3D) printed models of the human skull and parts of it are being incre...
Additive manufacturing technologies are increasingly used for medical purposes. However, questions a...
3D rapid prototyping is a useful tool for the production of 3D models of the human skull taken from ...
Abstract: While CT imaging is excellent for demonstrating bone structures, it is unable to display a...
We present a new method for replicating the skull and occlusal surface with an accurate physical mod...
Computed tomography can assist the surgeon in planning the exact three-dimensional positioning of en...
Purpose - Additive manufactured (AM) skull models are increasingly used to plan complex surgical cas...
At the current stage of diagnostics and therapy, it is necessary to perform a geometric evaluation o...
We present a protocol for the evaluation of the geometric accuracy of bone segmentation algorithms i...
Three-dimensional (3D) printed models of the human skull and parts of it are being increasingly used...
In general, the 3 D printed medical models are made based on virtual digital models obtained from ma...
The production of a copy of an existing object of complex shape is one of the typical applications o...
The aim of this study is to compare two different methods of frontal bone surface model acquisition....
© 2015 IPEM. Computed tomography provides high contrast imaging of the joint anatomy and is used rou...
BACKGROUND: Three-dimensional printing and computer-assisted surgery demand a high-precision three-d...
BACKGROUND: Three-dimensional (3D) printed models of the human skull and parts of it are being incre...
Additive manufacturing technologies are increasingly used for medical purposes. However, questions a...
3D rapid prototyping is a useful tool for the production of 3D models of the human skull taken from ...
Abstract: While CT imaging is excellent for demonstrating bone structures, it is unable to display a...
We present a new method for replicating the skull and occlusal surface with an accurate physical mod...
Computed tomography can assist the surgeon in planning the exact three-dimensional positioning of en...
Purpose - Additive manufactured (AM) skull models are increasingly used to plan complex surgical cas...