Application of a probabilistic double-fibre structure model to diffusion-weighted MR images of the human brain |
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Authors: | Hosey Tim P Harding Sally G Carpenter T Adrian Ansorge Richard E Williams Guy B |
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Institution: | Department of Physics, Cavendish Laboratory, CB3 0HE Cambridge, UK. |
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Abstract: | A Markov chain Monte Carlo (MCMC) algorithm has been reported which is capable of determining the probabilistic orientation of two-fibre populations from high angular resolution diffusion-weighted data (HARDI). We present and critically discuss the application of this algorithm to in vivo human datasets acquired in clinically realistic times. We show that by appropriate model selection areas of multiple fibre populations can be identified that correspond with those predicted from known anatomy. Quantitative maps of fibre orientation probability are derived and shown for one- and two-fibre models of neural architecture. Fibre crossings in the pons, the internal capsule and the corona radiata are shown. In addition, we demonstrate that the relative proportion of anisotropic signal may be a more appropriate measure of anisotropy than summary measures derived from the tensor model such as fractional anisotropy in areas with multi-fibre populations. |
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Keywords: | Diffusion MRI Markov chain Monte Carlo |
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