Recent results in color compositing of three-parameter magnetic resonance scans as a preoperative aid to the management of upper limb sarcomas

We report on improved image quality and some recent clinical results with volume-rendered, color composite, multiparameter, magnetic resonance (MR) datasets and their color histograms. In a previous article we demonstrated the major components of an interative visualization environment for multiparameterT1-,T2-, PD-weighted MR volume datasets. These are compositing of the three parametric volumes, color volume rendering of the resulting composite, interactive segmentation of the tissues based on color cluster statistics derived from display of the three-dimensional (3D) histogram, and head-tracking stereo diplay. We herein review the system design and describe improvements to the quality of the color volume rendering, in the display of the 3D color histogram data, and in the specification of the volume enderer’s opacity function. Finally, we report on some recent clinical results using our system.

[1]  F.E. Zajac,et al.  An interactive graphics-based model of the lower extremity to study orthopaedic surgical procedures , 1990, IEEE Transactions on Biomedical Engineering.

[2]  John F. Hughes,et al.  Sculpting: an interactive volumetric modeling technique , 1991, SIGGRAPH.

[3]  Frederick P. Brooks,et al.  Project GROPE-HapticDisplays for Scientific Visualization , 1990 .

[4]  E Raposio,et al.  Three-dimensional computer-assisted design of plastic reconstructive surgery procedures. , 1996, Studies in health technology and informatics.

[5]  M. Levoy,et al.  Fast volume rendering using a shear-warp factorization of the viewing transformation , 1994, SIGGRAPH.

[6]  FuchsHenry,et al.  Merging virtual objects with the real world , 1992 .

[7]  Scott S. Fisher,et al.  Virtual environment system for simulation of leg surgery , 1991, Electronic Imaging.

[8]  A. Lent,et al.  An introduction to NMR imaging: From the Bloch equation to the imaging equation , 1983, Proceedings of the IEEE.

[9]  Ryutarou Ohbuchi,et al.  Merging virtual objects with the real world: seeing ultrasound imagery within the patient , 1992, SIGGRAPH.

[10]  Jaron Lanier,et al.  Reality built for two: a virtual reality tool , 1990, I3D '90.

[11]  P. G. Morris,et al.  Nuclear Magnetic Resonance Imaging in Medicine and Biology , 1986 .

[12]  Davide Caramella,et al.  Use of 24-bit false-color imagery to enhance visualization of multiparameter MR images , 2005, Magnetic Resonance Materials in Physics, Biology and Medicine.

[13]  Scott Stevens Fisher,et al.  Viewpoint Dependent Imaging: An Interactive Stereoscopic Display , 1983, Optics & Photonics.