New views of male pelvic anatomy: Role of computer-generated 3D images

New views of male pelvic anatomy: Role of computer-generated 3D images

There is considerable controversy concerning the role of cadaveric dissection in teaching gross anatomy and the potential of using 3D computer-generated images to substitute for actual laboratory dissections. There are currently few high-quality 3D virtual models of anatomy available to evaluate the...

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Bibliographic Details
Published in:Clinical anatomy (New York, N.Y.) Vol. 17; no. 3; pp. 261 - 271
Main Authors: Venuti, Judith M., Imielinska, Celina, Molholt, Pat
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 01-04-2004
Subjects:
3D anatomy
Anatomy, Cross-Sectional
computer models
Humans
Image Processing, Computer-Assisted
Imaging, Three-Dimensional - methods
Male
Models, Anatomic
Pelvic Bones - anatomy & histology
Pelvis - anatomy & histology
pelvis and perineum
Perineum - anatomy & histology
Urinary Bladder - anatomy & histology
visible human
Online Access:Get full text
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Summary:There is considerable controversy concerning the role of cadaveric dissection in teaching gross anatomy and the potential of using 3D computer-generated images to substitute for actual laboratory dissections. There are currently few high-quality 3D virtual models of anatomy available to evaluate the utility of computer-generated images. Existing 3D models are frequently of structures that are easily examined in three dimensions by removal from the cadaver, i.e., the heart, skull, and brain. We have focused on developing a 3D model of the pelvis, a region that is conceptually difficult and relatively inaccessible for student dissection. We feel students will benefit tremendously from 3D views of the pelvic anatomy. We generated 3D models of the male pelvic anatomy from hand-segmented color Visible Human Male cryosection data, reconstructed and visualized by Columbia University's in-house 3D Vesalius trade mark Visualizer.(1) These 3D models depict the anatomy of the region in a realistic true-to-life color and texture. They can be used to create 3D anatomical scenes, with arbitrary complexity, where the component anatomical structures are displayed in correct 3D anatomical relationships. Moreover, a sequence of 3D scenes can be defined to simulate actual dissection. Structures can be added in a layered sequence from the bony framework to build from the "inside-out" or disassembled much like a true laboratory dissection from the "outside-in." These 3D reconstructed anatomical models can provide views of the structures from new perspectives and have the potential to improve understanding of the anatomical relationships of the pelvic region (http://www.cellbiology.lsuhsc.edu/People/Faculty/Venuti_Figures/movie_index.html).
Bibliography:istex:98A5E47A4AC14385935DDD9701DF896B73B3CD50
Trademark held by Columbia University. The Vesalius Project™ is named after Andreas Vesalius, a 16th century anatomist whose work laid the foundation for all subsequent anatomical research. Columbia University trademarked the name Vesalius in 1997 for use in the production of educational software.
ark:/67375/WNG-1R6MBQ1L-0
ArticleID:CA10233
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
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ISSN:0897-3806
1098-2353
DOI:10.1002/ca.10233