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Phenomenological model of diffuse global and regional atrophy using finite-element methods

Camara, O; Schweiger, M; Scahill, RI; Crum, WR; Sneller, BI; Schnabel, JA; Ridgway, GR; ... Fox, NC; + view all (2006) Phenomenological model of diffuse global and regional atrophy using finite-element methods. IEEE T MED IMAGING , 25 (11) 1417 - 1430. 10.1109/TMI.2006.880588.

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The main goal of this work is the generation of ground-truth data for the validation of atrophy measurement techniques, commonly used in the study of neurodegenerative diseases such as dementia. Several techniques have been used to measure atrophy in cross-sectional and longitudinal studies, but it is extremely difficult to compare their performance since they have been applied to different patient populations. Furthermore, assessment of performance based on phantom measurements or simple scaled images overestimates these techniques' ability to capture the complexity of neurodegeneration of the human brain. We propose a method for atrophy simulation in structural magnetic resonance (MR) images based on finite-element methods. The method produces cohorts of brain images with known change that is physically and clinically plausible, providing data for objective evaluation of atrophy measurement techniques. Atrophy is simulated in different tissue compartments or in different neuroanatomical structures with a phenomenological model. This model of diffuse global and regional atrophy is based on volumetric measurements such as the brain or the hippocampus, from patients with known disease and guided by clinical knowledge of the relative pathological involvement of regions and tissues. The consequent biomechanical readjustment of structures is modelled using conventional physics-based techniques based on biomechanical tissue properties and simulating plausible tissue deformations with finite-element methods. A thermoelastic model of tissue deformation is employed, controlling the rate of progression of atrophy by means of a set of thermal coefficients, each one corresponding to a different type of tissue. Tissue characterization is performed by means of the meshing of a labelled brain atlas, creating a reference volumetric mesh that will be introduced to a finite-element solver to create the simulated deformations. Preliminary work on the simulation of acquisition artefacts is also presented. Cross-sectional and longitudinal sets of simulated data are shown and a visual classification protocol has been used by experts to rate real and simulated scans according to their degree of atrophy. Results confirm the potential of the proposed methodology.

Type: Article
Title: Phenomenological model of diffuse global and regional atrophy using finite-element methods
DOI: 10.1109/TMI.2006.880588
Keywords: Alzheimer's disease, atlas, atrophy simulation, creation of validation image databases, dementia, design of ground truth, finite-element methods, magnetic resonance imaging, mesh warping, modelling, validation, VOXEL-BASED MORPHOMETRY, NONRIGID IMAGE REGISTRATION, REGISTERED SERIAL MRI, ALZHEIMERS-DISEASE, BRAIN ATROPHY, FLUID REGISTRATION, LONGITUDINAL MRI, ENTORHINAL CORTEX, CORTICAL CHANGE, VOLUME CHANGES
URI: http://discovery.ucl.ac.uk/id/eprint/176242
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