Title :
A Brain Surgery Simulator
Author :
Echegaray, Goretti ; Herrera, Imanol ; Aguinaga, Iker ; Buchart, Carlos ; Borro, Diego
Author_Institution :
Centre of Studies & Tech. Res. (CEIT), Spain
Abstract :
A proposed real-time neurosurgery simulator handles skull drilling and surgical interaction with the brain. This involves the development and combination of areas such as collision handling, haptic rendering, physical simulation, and volumetric visualization. The simulator´s input data comes from computed-tomography and magnetic-resonance-imaging images of the patients. Collision detection for drilling uses only density data; collision detection for interaction with the brain is based on uniform spatial subdivision of a tetrahedral mesh. To take advantage of all the information, the simulator employs visualization methods such as volumetric isosurfaces and deformable volume rendering.
Keywords :
biomedical MRI; brain; computerised tomography; data visualisation; digital simulation; medical image processing; mesh generation; rendering (computer graphics); brain surgery simulator; collision detection; collision handling; computed-tomography; deformable volume rendering; haptic rendering; magnetic-resonance-imaging images; physical simulation; real-time neurosurgery simulator; skull drilling; surgical interaction; tetrahedral mesh uniform spatial subdivision; volumetric isosurfaces; volumetric visualization; Brain models; Computational modeling; Deformable models; Haptic interfaces; Neurosurgery; Rendering (computer graphics); Surgery; Brain models; Computational modeling; Deformable models; Haptic interfaces; Neurosurgery; Rendering (computer graphics); Surgery; VR; bioinformatics; brain surgery; computer graphics; craniotomy; graphics; haptics; healthcare; medical simulation; multimedia; neurosurgery simulation; surgery simulation; virtual reality;
Journal_Title :
Computer Graphics and Applications, IEEE
DOI :
10.1109/MCG.2014.43
