Arbeids- og kompetanseområde
Anvendt matematikk
Bildebehandling
Modellering av flyt i levende vev
Innførings emner i matematikk
Matematisk modellering
Matematisk bildebehandling med anvendelser i medisinske og biologiske fag. Data Data-drevet modellering av flyt i levende vev.
Publikasjonar
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Perfusion estimation using synthetic MRI-based measurements and a porous media flow model
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A nonlinear multi-scale model for blood circulation in a realistic vascular system
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A computational fluid dynamics framework to generate digital reference objects for perfusion imaging
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Computational Study of Vessel Occlusion using a Nonlinear Multiscale Blood Flow Model
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A multi-scale flow model for studying blood circulation in the vascular system
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A study of blood flow regulation on collateral circulation using multiscale flow model
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Fractal vascular structure optimization based on a multi-scale blood flow model
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A new framework for assessing subject-specific whole brain circulation and perfusion using MRI-based measurements and a multi-scale continuous flow model
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Mathematics and Medicine: How mathematics, modelling and simulations can lead to better diagnosis and treatments
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Mathematical perfusion
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In vivo detection of chronic kidney disease using tissue deformation fields from dynamic MR imaging.
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Estimating the discretization dependent accuracy of perfusion in coupled capillary flow measurements
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Models suited for data assimilation
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Graph representations of vessel flow
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Modelling of brain perfusion
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Workflow sensitivity of post-processing methods in renal DCE-MRI
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Dynamic contrast-enhanced MRI measurement of renal function in healthy participants
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Physical models for simulation and reconstruction of human tissue deformation fields in dynamic MRI
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Reproducibility and agreement in quantification of renal function using 1.5-T DCE-MRI
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Poroelastic regularization of image registration
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Image processing methods for 4D magnetic resonance acquisitions from brain and kidney
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Segmentation-driven image registration-application to 4D DCE-MRI recordings of the moving kidneys
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Local/non-local regularized image segmentation using graph-cuts
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Combined motion correction and segmentation of DCE-MRI kidney data