Detail publikace

Teeth and Jaw 3D Reconstruction in Stomatology

KRŠEK, P. KRUPA, P. ČERNOCHOVÁ, P.

Originální název

Teeth and Jaw 3D Reconstruction in Stomatology

Anglický název

Teeth and Jaw 3D Reconstruction in Stomatology

Jazyk

en

Originální abstrakt

The article deals with problematic of 3D tissues reconstruction in area of stomatology. 3D geometry models of teeth and jaw bones we have created based on input CT image data. The input discrete CT have to be segmented by nearly automatic procedure with correction and verification. Creation of segmented tissue 3D geometry models is based on vectorization of input discrete data extended by smoothing and decimation. We have actually processed data for almost 40 patients (~ 60 models). Created 3D models are all applied in clinical practice for planning, simulations and navigation in orthodontic and stomatology surgery treatments.

Anglický abstrakt

The article deals with problematic of 3D tissues reconstruction in area of stomatology. 3D geometry models of teeth and jaw bones we have created based on input CT image data. The input discrete CT have to be segmented by nearly automatic procedure with correction and verification. Creation of segmented tissue 3D geometry models is based on vectorization of input discrete data extended by smoothing and decimation. We have actually processed data for almost 40 patients (~ 60 models). Created 3D models are all applied in clinical practice for planning, simulations and navigation in orthodontic and stomatology surgery treatments.

Dokumenty

BibTex


@inproceedings{BUT26072,
  author="Přemysl {Kršek} and Petr {Krupa} and Pavlína {Černochová}",
  title="Teeth and Jaw 3D Reconstruction in Stomatology",
  annote="The article deals with problematic of 3D tissues reconstruction in area of
stomatology. 3D geometry models of teeth and jaw bones we have created based on
input CT image data. The input discrete CT have to be segmented by nearly
automatic procedure with correction and verification. Creation of segmented
tissue 3D geometry models is based on vectorization of input discrete data
extended by smoothing and decimation. We have actually processed data for almost
40 patients (~ 60 models). Created 3D models are all applied in clinical practice
for planning, simulations and navigation in orthodontic and stomatology surgery
treatments.",
  address="IEEE Computer Society",
  booktitle="Medical Information Visualisation - BioMedical Visualisation",
  chapter="26072",
  howpublished="print",
  institution="IEEE Computer Society",
  year="2007",
  month="july",
  pages="23--28",
  publisher="IEEE Computer Society",
  type="conference paper"
}