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D A Nordsletten

Showing results (1-10 of 7) with videos related to

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Medical & Biological Engineering & Computing|January 24, 2013
Patient specific fluid-structure ventricular modelling for integrated cardiac careA de Vecchi, D A Nordsletten, R Razavi, et al.
Progress in Biophysics and Molecular Biology|November 18, 2009
Coupling multi-physics models to cardiac mechanicsD A Nordsletten, S A Niederer, M P Nash, et al.
Journal of Biomechanics|December 14, 2011
A novel porous mechanical framework for modelling the interaction between coronary perfusion and myocardial mechanicsA N Cookson, J Lee, C Michler, et al.
Progress in Biophysics and Molecular Biology|August 27, 2014
Towards a fast and efficient approach for modelling the patient-specific ventricular haemodynamicsA de Vecchi, A Gomez, K Pushparajah, et al.
Medical Image Analysis|May 27, 2023
Cerebrovascular super-resolution 4D Flow MRI - Sequential combination of resolution enhancement by deep learning and physics-informed image processing to non-invasively quantify intracranial velocity, flow, and relative pressureE Ferdian, D Marlevi, J Schollenberger, et al.
Computerized Medical Imaging and Graphics : the Official Journal of the Computerized Medical Imaging Society|April 25, 2016
A novel methodology for personalized simulations of ventricular hemodynamics from noninvasive imaging dataA de Vecchi, A Gomez, K Pushparajah, et al.
International Journal for Numerical Methods in Biomedical Engineering|January 25, 2013
A computationally efficient framework for the simulation of cardiac perfusion using a multi-compartment Darcy porous-media flow modelC Michler, A N Cookson, R Chabiniok, et al.
Pageof 1

Showing results (1-10 of 7) with videos related to

Sort By:
Pageof 1
Medical & Biological Engineering & Computing|January 24, 2013
Patient specific fluid-structure ventricular modelling for integrated cardiac careA de Vecchi, D A Nordsletten, R Razavi, et al.
Progress in Biophysics and Molecular Biology|November 18, 2009
Coupling multi-physics models to cardiac mechanicsD A Nordsletten, S A Niederer, M P Nash, et al.
Journal of Biomechanics|December 14, 2011
A novel porous mechanical framework for modelling the interaction between coronary perfusion and myocardial mechanicsA N Cookson, J Lee, C Michler, et al.
Progress in Biophysics and Molecular Biology|August 27, 2014
Towards a fast and efficient approach for modelling the patient-specific ventricular haemodynamicsA de Vecchi, A Gomez, K Pushparajah, et al.
Medical Image Analysis|May 27, 2023
Cerebrovascular super-resolution 4D Flow MRI - Sequential combination of resolution enhancement by deep learning and physics-informed image processing to non-invasively quantify intracranial velocity, flow, and relative pressureE Ferdian, D Marlevi, J Schollenberger, et al.
Computerized Medical Imaging and Graphics : the Official Journal of the Computerized Medical Imaging Society|April 25, 2016
A novel methodology for personalized simulations of ventricular hemodynamics from noninvasive imaging dataA de Vecchi, A Gomez, K Pushparajah, et al.
International Journal for Numerical Methods in Biomedical Engineering|January 25, 2013
A computationally efficient framework for the simulation of cardiac perfusion using a multi-compartment Darcy porous-media flow modelC Michler, A N Cookson, R Chabiniok, et al.
Pageof 1