TY - JOUR
T1 - Three-dimensional imaging used for virtual dissection, image banking and physical replication of anatomy and physiology
AU - Maclellan-Tobert, Susan G.
AU - Buithieu, Jean
AU - Belohlavek, Marek
AU - Behrenbeck, Thomas
AU - Greenleaf, James F.
AU - Edwards, William D.
AU - Seward, James B.
PY - 1998
Y1 - 1998
N2 - Historically, techniques of dissection have been used to aid in our understanding of human anatomy, physiology, and pathology. However, these techniques alter the structures and fine details being studied. New advances in computer technology, imaging equipment, data acquisition, processing, storage, and display now allow multidimensional imaging. Interactive computer programs can electronically display both static three-dimensional and higher- dimensional images that retain features such as motion, pressure, and temporal change. Multidimensional images can be reconstructed and manipulated using different holographic, stereolithographic, or interactive two- dimensional displays. We describe the unique potential of multidimensional reconstruction, virtual dissection, and replication of cardiovascular structures using ultrasound data. Ultrasound technology has the advantage of depicting both anatomy and physiology. The ability to perform virtual dissection and surgery in the living patient without disruption of anatomy or physiology provides the clinician with a powerful new tool for diagnosis, teaching, and therapeutics.
AB - Historically, techniques of dissection have been used to aid in our understanding of human anatomy, physiology, and pathology. However, these techniques alter the structures and fine details being studied. New advances in computer technology, imaging equipment, data acquisition, processing, storage, and display now allow multidimensional imaging. Interactive computer programs can electronically display both static three-dimensional and higher- dimensional images that retain features such as motion, pressure, and temporal change. Multidimensional images can be reconstructed and manipulated using different holographic, stereolithographic, or interactive two- dimensional displays. We describe the unique potential of multidimensional reconstruction, virtual dissection, and replication of cardiovascular structures using ultrasound data. Ultrasound technology has the advantage of depicting both anatomy and physiology. The ability to perform virtual dissection and surgery in the living patient without disruption of anatomy or physiology provides the clinician with a powerful new tool for diagnosis, teaching, and therapeutics.
KW - Echocardiagraphy
KW - Three-dimensional imaging
KW - Virtual dissection
KW - Virtual reality
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U2 - 10.1111/j.1540-8175.1998.tb00582.x
DO - 10.1111/j.1540-8175.1998.tb00582.x
M3 - Article
AN - SCOPUS:0031938848
SN - 0742-2822
VL - 15
SP - 89
EP - 98
JO - Echocardiography
JF - Echocardiography
IS - 1
ER -