Flow-induced permeation of non-occlusive blood clots: an MRI study and modelling |
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Authors: | Barbara Grobelnik Jernej Vidmar Gregor Tratar Aleš Blinc Igor Serša |
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Affiliation: | Jozef Stefan Institute, Jamova 39, 1000, Ljubljana, Slovenia. |
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Abstract: | The success of clot thrombolysis very much depends on efficient clot permeation with blood plasma carrying the thrombolytic agent. In this paper clot permeation was studied by dynamic magnetic resonance imaging (MRI) on artificial non-occlusive blood clots inserted in an artificial circulation system filled with blood plasma to which an MRI contrast agent was added. The MRI results revealed that clot permeation is much faster and more efficient at the entrance of the flow channel across the clot. Clot permeation with fluid was simulated numerically as well. The simulation was based on numerical solution of Navier-Stokes equations for the flow in the channel and within the clot. The clot was considered as a porous material with known permeability and porosity. Based on the calculated velocity profiles, concentration profiles of fluid in the clot were modelled. These agreed well with the MRI results. The presented model of clot permeation with fluid may also serve as a useful extension to numerical modelling of dissolution of non-occlusive blood clots during thrombolytic therapy. |
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Keywords: | Flow Permeation Thrombolysis Non-occlusive blood clot Mathematical modelling Dynamical MRI |
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