论文信息 - TOWARDS MICROSTRUCTURE BASED TISSUE PERFUSION RECONSTRUCTION FROM CT USING MULTISCALE MODELING

TOWARDS MICROSTRUCTURE BASED TISSUE PERFUSION RECONSTRUCTION FROM CT USING MULTISCALE MODELING

The paper deals with modeling of blood perfusion and simulation of dynamic CT investigation. The flow can be characterized at several scales for which different mod- els are used. We focus on two levels: flow in larger branching vessels is described using a simple "1D" model based of the Bernoulli equation. This model is coupled through point sources/sinks with a "0D" model describing multicompartment flows in tissue parenchyma. We propose also a model of homogenized layer which can better reflect arrangement of the microvessels; the homogenization approach will be used to describe flows in the parenchyma by a two-scale model which provides the effective parameters dependent on the microstruc- ture. The research is motivated by modeling liver perfusion which should enable an improved analysis of CT scans. For this purpose we describe a dynamic transport of the contrast fluid at levels of the "1D" and "0D" models, so that time-space distribution of the so-called tissue density can be computed and compared with the measured data obtained form the CT.

Eduard Rohan | Ondřej Bublík | Alena Jonášová | Vladimír Lukeš

[1] Eduard Rohan,et al. Multiscale FE simulation of diffusion-deformation processes in homogenized dual-porous media , 2012, Math. Comput. Simul..

[2] Ralph E. Showalter,et al. Double-diffusion models from a highly-heterogeneous medium☆ , 2004 .

[3] Doina Cioranescu,et al. The Periodic Unfolding Method in Homogenization , 2008, SIAM J. Math. Anal..

[4] R. E. Showaltera,et al. Double-diffusion models from a highly-heterogeneous medium ✩ , 2004 .

[5] Eduard Rohan,et al. On modelling the parallel diffusion flow in deforming porous media , 2007, Math. Comput. Simul..

[6] B. V. Van Beers,et al. Non-invasive quantification of liver perfusion with dynamic computed tomography and a dual-input one-compartmental model. , 2000, Clinical science.

[7] Eduard Rohan,et al. Two-Scale Modeling of Tissue Perfusion Problem Using Homogenization of Dual Porous Media , 2010 .

[8] Alfio Quarteroni,et al. Cardiovascular mathematics : modeling and simulation of the circulatory system , 2009 .

[9] Tong San Koh,et al. Cerebral perfusion mapping using a robust and efficient method for deconvolution analysis of dynamic contrast-enhanced images , 2006, NeuroImage.

[10] Salah Naili,et al. Multiscale modeling of a fluid saturated medium with double porosity: Relevance to the compact bone , 2012 .

[11] Eduard Rohan,et al. Modeling Tissue Perfusion Using a Homogenized Model with Layer-wise Decomposition , 2012 .