Registration, atlas estimation and variability analysis of white matter fiber bundles modeled as currents.

Abstract : This paper proposes a generic framework for the registration, the template estimation and the variability analysis of white matter fiber bundles extracted from diffusion images. This framework is based on the metric on currents for the comparison of fiber bundles. This metric measures anatomical differences between fiber bundles, seen as global homologous structures across subjects. It avoids the need to establish correspondences between points or between individual fibers of different bundles. It can measure differences both in terms of the geometry of the bundles (like its boundaries) and in terms of the density of fibers within the bundle. It is robust to fiber interruptions and reconnections. In addition, a recently introduced sparse approximation algorithm allows us to give an interpretable representation of the fiber bundles and their variations in the framework of currents. First, we used this metric to drive the registration between two sets of homologous fiber bundles of two different subjects. A dense deformation of the underlying white matter is estimated, which is constrained by the bundles seen as global anatomical landmarks. By contrast, the alignment obtained from image registration is driven only by the local gradient of the image. Second, we propose a generative statistical model for the analysis of a collection of homologous bundles. This model consistently estimates prototype fiber bundles (called template), which capture the anatomical invariants in the population, a set of deformations, which align the geometry of the template to that of each subject and a set of residual perturbations. The statistical analysis of both the deformations and the residuals describe the anatomical variability in terms of geometry (stretching, torque, etc.) and "texture" (fiber density, etc.). Third, this statistical modeling allows us to simulate new synthetic bundles according to the estimated variability. This gives a way to interpret the anatomical features that the model detects consistently across the subjects. This may be used to better understand the bias introduced by the fiber extraction methods and eventually to give anatomical characterization of the normal or pathological variability of fiber bundles.
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NeuroImage, Elsevier, 2011, 55 (3), pp.1073-90. 〈10.1016/j.neuroimage.2010.11.056〉
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https://hal.inria.fr/hal-00816044
Contributeur : Stanley Durrleman <>
Soumis le : vendredi 19 avril 2013 - 16:16:08
Dernière modification le : vendredi 22 juin 2018 - 01:20:43

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Stanley Durrleman, Pierre Fillard, Xavier Pennec, Alain Trouvé, Nicholas Ayache. Registration, atlas estimation and variability analysis of white matter fiber bundles modeled as currents.. NeuroImage, Elsevier, 2011, 55 (3), pp.1073-90. 〈10.1016/j.neuroimage.2010.11.056〉. 〈hal-00816044〉

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