A new method for representing the human anatomy.
Standard
A new method for representing the human anatomy. / Schubert, R; Bomans, M; Höhne, K H; Pommert, Andreas; Riemer, Martin; Schiemann, T; Tiede, U; Lierse, W.
in: COMPUT MED IMAG GRAP, Jahrgang 17, Nr. 4-5, 4-5, 1993, S. 243-249.Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung
Harvard
APA
Vancouver
Bibtex
}
RIS
TY - JOUR
T1 - A new method for representing the human anatomy.
AU - Schubert, R
AU - Bomans, M
AU - Höhne, K H
AU - Pommert, Andreas
AU - Riemer, Martin
AU - Schiemann, T
AU - Tiede, U
AU - Lierse, W
PY - 1993
Y1 - 1993
N2 - In current practice, anatomical atlases are based on a collection of planar images presented in a book or, recently, stored on digital media. We present a new method for generating interactive true three-dimensional (3D) anatomical atlases based on a volume model derived from MRI and CT. The model has a two layer structure. The lower level is a volume model with a set of semantic attributes connected to each voxel. The semantic attributes are assigned by an anatomist using a volume editor. The upper level is a set of relations between these attributes. Interactive visualization tools such as multiple surface display, transparent rendering, and cutting are provided. It is shown that the combination of this data structure with advanced volume visualization tools provides the "look and feel" of real dissection. First tests show that the atlas system cannot only be used successfully for anatomy teaching, but also as a reference for radiologists or surgeons. As a replacement of classical atlases, however, the spatial resolution has still to be improved.
AB - In current practice, anatomical atlases are based on a collection of planar images presented in a book or, recently, stored on digital media. We present a new method for generating interactive true three-dimensional (3D) anatomical atlases based on a volume model derived from MRI and CT. The model has a two layer structure. The lower level is a volume model with a set of semantic attributes connected to each voxel. The semantic attributes are assigned by an anatomist using a volume editor. The upper level is a set of relations between these attributes. Interactive visualization tools such as multiple surface display, transparent rendering, and cutting are provided. It is shown that the combination of this data structure with advanced volume visualization tools provides the "look and feel" of real dissection. First tests show that the atlas system cannot only be used successfully for anatomy teaching, but also as a reference for radiologists or surgeons. As a replacement of classical atlases, however, the spatial resolution has still to be improved.
M3 - SCORING: Zeitschriftenaufsatz
VL - 17
SP - 243
EP - 249
JO - COMPUT MED IMAG GRAP
JF - COMPUT MED IMAG GRAP
SN - 0895-6111
IS - 4-5
M1 - 4-5
ER -