1 January 2003 Level set modeling and segmentation of diffusion tensor magnetic resonance imaging brain data
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Abstract
Segmentation of anatomical regions of the brain is one of the fundamental problems in medical image analysis. It is traditionally solved by iso-surfacing or through the use of active contours/deformable models on a gray-scale magnetic resonance imaging (MRI) data. We develop a technique that uses anisotropic diffusion properties of brain tissue available from diffusion tensor (DT)-MRI to segment brain structures. We develop a computational pipeline starting from raw diffusion tensor data through computation of invariant anisotropy measures to construction of geometric models of the brain structures. This provides an environment for user-controlled 3-D segmentation of DT-MRI datasets. We use a level set approach to remove noise from the data and to produce smooth, geometric models. We apply our technique to DT-MRI data of a human subject and build models of the isotropic and strongly anisotropic regions of the brain. Once geometric models have been constructed they can be combined to study spatial relationships and quantitatively analyzed to produce the volume and surface area of the segmented regions.
© (2003) Society of Photo-Optical Instrumentation Engineers (SPIE)
Leonid Zhukov, Ken Museth, David E. Breen, Ross T. Whitaker, Alan H. Barr, "Level set modeling and segmentation of diffusion tensor magnetic resonance imaging brain data," Journal of Electronic Imaging 12(1), (1 January 2003). https://doi.org/10.1117/1.1527628 . Submission:
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