We present a simple yet effective technique for visualization of skull vault pathology associated with calvarial outer table damage from magnetic resonance volumetric datasets using a personal computer as a workstation and Amira software as a visualization tool. We show that rendered pictures are informative and convey a good impression of pathology features bearing a strong resemblance to computed tomography three-dimensional images.
LeeBNewbergA: Neuroimaging in traumatic brain imaging. Neurotherapeutics2: 372–383, 2005.
2.
MeißnerMHuangJBartzD: A practical evaluation of popular volume rendering algorithms. In: Proc. of Volume Visualization Symposium2000: 81–88.
3.
ZuiderveldKvan OoijenPChinAWoengJ: Interactive rendering of medical volumetric data using texture mapping hardware. In: Proc. of the 2nd Annual Conference of the Advanced School for Computing and Imaging 1996: 319–324.
4.
BartzDMeißnerM: Voxels versus polygons: a comparative approach for volume graphics. In: Proc. Volume Graphics 1999: 33–48.
5.
DogdasBShattuckDLeahyR: Segmentation of skull in 3D human MR images using mathematical morphology. In: Proc. SPIE Medical Imaging Conference4684: 1553–1562, 2002.
6.
RifaiHBlochIHutchinsonS: Segmentation of the skull in MRI volumes using deformable model and taking the partial volume effect into account. Medical Image Analysis4: 219–233, 2000.
7.
MedinaL: Three-dimensional CT Maximum Intensity Projections of the calvaria: a new approach for diagnosis of craniosynostosis and fractures. Am J Neuroradiol21: 1951–1954, 2000.
8.
LorensenWClineH: Marching cubes: a high resolution 3D surface construction algorithm. Computer Graphics21: 163–169, 1987.
9.
KeimD: Information visualization and visual data mining. IEEE Transactions on Visualization and Computer Graphics7: 100–107, 2002.
10.
BudantzevAJakovlevY: 3D reconstruction of biological objects: the potential of standard computer programs. Microscopy and Analysis14: 29–31, 2000.
11.
KrupinskiEKallergiM: Choosing a radiology workstation: technical and clinical consideration. Radiology242: 671–682, 2007.
12.
FengDMarshburnDJenD: Stepping into the third dimension. J Neurosci27: 12757–12760, 2007.
