Validation of the anisotropy index ellipsoidal area ratio in diffusion tensor imaging |
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| Authors: | Xiaojian Kang Timothy J. Herron David L. Woods |
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| Affiliation: | 1. Department of Neurology and Center for Neuroscience, 4860 Y St., Suite 3700, Sacramento, CA 95817, USA;2. Human Cognitive Neurophysiology Lab, VA Research Service, VA-NCHCS, 150 Muir Road, Martinez, CA 94553, USA;3. UC Davis Center for Mind and Brain, 202 Cousteau Place, Suite 201, Davis, CA 95616, USA |
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| Abstract: | A new diffusion anisotropy index, ellipsoidal area ratio (EAR), was described recently and proved to be less noise-sensitive than fractional anisotropy (FA) by theory and simulation. Here we show that EAR has higher signal-to-noise ratios than FA in average diffusion tensor imaging data from 40 normal subjects. EAR was also more sensitive than FA in detecting white matter abnormalities in a patient with widespread diffuse axonal injury. Monte Carlo simulation showed that EAR's mean values are more biased by noise than FA when anisotropy is small, both for single fiber tracts and when fiber tracts cross. However, the improved signal-to-noise ratio of EAR relative to FA suggests that EAR may be a superior measure of anisotropy both in quantifying both deep white matter with relatively uniform fiber tracts and pericortical white matter structure with relatively low anisotropy and fiber crossings. |
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| Keywords: | Ellipsoidal area ratio Fiber tracts Fractional anisotropy Diffusion tensor imaging |
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