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Conference Papers Year : 2010

Mapping longitudinal changes in the brain affected by Alzheimer's disease


Background. The brain of patients with Alzheimer's disease undergoes changes starting from many years before the development of the first clinical symptoms. Large prospective neuroimaging datasets provide data to study the structural changes over time in health and disease. The evaluation of the longitudinal changes in the brain poses several challenges concerning the consistency of the measurements at both spatial and temporal level and the development of a reliable general model to adapt to the subject-specific temporal evolution. Objectives. 1) To use deformation based morphometry to develop a unique framework to consistently quantify the changes in the brain, at both local (voxel) and regional level. 2) To describe the longitudinal changes in the brain affected by Alzheimer's under a multilevel approach, where the subject-specific structural changes at each time point are integrated to describe a subject-specific trajectory for the changes in time composed by coherent serial deformations. Methods. We employed the longitudinal scans for a group of 8 Alzheimer's patients from the ADNI dataset. For each subject we measured the deformations to match the follow-up scans to the baseline using the Symmetric Log-Domain Demons Algorithm. The degree of expansion/contraction in the whole brain was assessed at two different levels within the same framework * Global change at regional level (Shift of the boundaries): computing the flux of the deformation across the brain's surface. * Local change at voxel level (Infinitesimal volume change): point evaluation of the deformation's Jacobian determinant. For each subject, the sequence of deformations at each time point was used to define a subject-specific prior longitudinal deformation and the prior was used to re-estimate the deformations as a weighted average between spatial and temporal information. Results. The correlation between manual derived brain volume changes and the measure of whole brain changes derived from the deformation field was of 0.899. The temporal regularization procedure generally led to more linear trends for the subject-specific changes in time and increased the correlation with manual derived measures reaching the maxima of 0.922 when the weight of the temporal information was half of the spatial. Conclusions. Deformation based morphometry provides a framework to evaluate the changes in the brain along the time consistently along the spatial dimension, from the voxel to the regional level, and consistently along the temporal dimension, regularising the longitudinal estimation of the deformations.
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hal-00813774 , version 1 (16-04-2013)


  • HAL Id : hal-00813774 , version 1


Marco Lorenzi, G. Frisoni, Nicholas Ayache, Xavier Pennec. Mapping longitudinal changes in the brain affected by Alzheimer's disease. VPH European Conference, Sep 2010, Brussels, Belgium. ⟨hal-00813774⟩
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