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Marek Behr

Showing results (11-20 of 24) with videos related to

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Computers in Biology and Medicine|October 17, 2022
A multiphysics modeling approach for in-stent restenosis: Theoretical aspects and finite element implementationKiran Manjunatha, Marek Behr, Felix Vogt, et al.
International Journal for Numerical Methods in Biomedical Engineering|August 8, 2013
Transient stress-based and strain-based hemolysis estimation in a simplified blood pumpLutz Pauli, Jaewook Nam, Matteo Pasquali, et al.
Soft Matter|June 23, 2020
On the effects of membrane viscosity on transient red blood cell dynamicsFabio Guglietta, Marek Behr, Luca Biferale, et al.
Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences|August 30, 2021
Lattice Boltzmann simulations on the tumbling to tank-treading transition: effects of membrane viscosityFabio Guglietta, Marek Behr, Luca Biferale, et al.
Computers in Biology and Medicine|November 16, 2023
Computational modeling of in-stent restenosis: Pharmacokinetic and pharmacodynamic evaluationKiran Manjunatha, Nicole Schaaps, Marek Behr, et al.
Wiley Interdisciplinary Reviews. Systems Biology and Medicine|January 23, 2014
Recent advances in computational methodology for simulation of mechanical circulatory assist devicesAlison L Marsden, Yuri Bazilevs, Christopher C Long, et al.
Biomechanics and Modeling in Mechanobiology|January 18, 2024
A physics-informed deep learning framework for modeling of coronary in-stent restenosisJianye Shi, Kiran Manjunatha, Marek Behr, et al.
The International Journal of Artificial Organs|April 5, 2011
A validated CFD model to predict O₂ and CO₂ transfer within hollow fiber membrane oxygenatorsMarcus Hormes, Ralf Borchardt, Ilona Mager, et al.
IEEE Transactions on Visualization and Computer Graphics|November 8, 2008
Interactive blood damage analysis for ventricular assist devicesBernd Hentschel, Irene Tedjo, Markus Probst, et al.
Artificial Organs|April 16, 2025
Experimental Investigation of the Applicability of the Stress-Based and Strain-Based Hemolysis Models for Short-Term Stress Peaks Typical for Rotary Blood PumpsMichael Lommel, Vera Froese, Henri Wolff, et al.
Pageof 3

Showing results (11-20 of 24) with videos related to

Sort By:
Pageof 3
Computers in Biology and Medicine|October 17, 2022
A multiphysics modeling approach for in-stent restenosis: Theoretical aspects and finite element implementationKiran Manjunatha, Marek Behr, Felix Vogt, et al.
International Journal for Numerical Methods in Biomedical Engineering|August 8, 2013
Transient stress-based and strain-based hemolysis estimation in a simplified blood pumpLutz Pauli, Jaewook Nam, Matteo Pasquali, et al.
Soft Matter|June 23, 2020
On the effects of membrane viscosity on transient red blood cell dynamicsFabio Guglietta, Marek Behr, Luca Biferale, et al.
Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences|August 30, 2021
Lattice Boltzmann simulations on the tumbling to tank-treading transition: effects of membrane viscosityFabio Guglietta, Marek Behr, Luca Biferale, et al.
Computers in Biology and Medicine|November 16, 2023
Computational modeling of in-stent restenosis: Pharmacokinetic and pharmacodynamic evaluationKiran Manjunatha, Nicole Schaaps, Marek Behr, et al.
Wiley Interdisciplinary Reviews. Systems Biology and Medicine|January 23, 2014
Recent advances in computational methodology for simulation of mechanical circulatory assist devicesAlison L Marsden, Yuri Bazilevs, Christopher C Long, et al.
Biomechanics and Modeling in Mechanobiology|January 18, 2024
A physics-informed deep learning framework for modeling of coronary in-stent restenosisJianye Shi, Kiran Manjunatha, Marek Behr, et al.
The International Journal of Artificial Organs|April 5, 2011
A validated CFD model to predict O₂ and CO₂ transfer within hollow fiber membrane oxygenatorsMarcus Hormes, Ralf Borchardt, Ilona Mager, et al.
IEEE Transactions on Visualization and Computer Graphics|November 8, 2008
Interactive blood damage analysis for ventricular assist devicesBernd Hentschel, Irene Tedjo, Markus Probst, et al.
Artificial Organs|April 16, 2025
Experimental Investigation of the Applicability of the Stress-Based and Strain-Based Hemolysis Models for Short-Term Stress Peaks Typical for Rotary Blood PumpsMichael Lommel, Vera Froese, Henri Wolff, et al.
Pageof 3