Dr.-Ing. Tobias Gerach

  • Alumnus

Publications


  All Publications, sorted by years

          2023  2022  2021  2020  2019  [All]


Selected Publications

Journal Articles (8)

T. Gerach, and A. Loewe.
Differential effects of mechano‐electric feedback mechanisms on whole‐heart activation, repolarization, and tension.
In The Journal of Physiology, pp. 1-20, 2024
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T. Gerach, S. Schuler, A. Wachter, and A. Loewe.
The Impact of Standard Ablation Strategies for Atrial Fibrillation on Cardiovascular Performance in a Four-Chamber Heart Model.
In Cardiovascular Engineering and Technology, vol. 14(2) , pp. 296-314, 2023
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T. Gerach, S. Appel, J. Wilczek, K. S. Golba, T. Jadczyk, and A. Loewe.
Dyssynchronous Left Ventricular Activation is Insufficient for the Breakdown of Wringing Rotation.
In Frontiers in Physiology, vol. 13, 2022
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T. Gerach, S. Schuler, J. Fröhlich, L. Lindner, E. Kovacheva, R. Moss, E. M. Wülfers, G. Seemann, C. Wieners, and A. Loewe.
Electro-Mechanical Whole-Heart Digital Twins: A Fully Coupled Multi-Physics Approach.
In Mathematics, vol. 9(11) , pp. 1247, 2021
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J. Fröhlich, T. Gerach, J. Krauß, A. Loewe, L. Stengel, and C. Wieners.
Numerical evaluation of elasto‐mechanical and visco‐elastic electro‐mechanical models of the human heart.
In GAMM-Mitteilungen, vol. 46(3-4) , 2024
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L. P. Lindner, T. Gerach, T. Jahnke, A. Loewe, D. Weiss, and C. Wieners.
Efficient time splitting schemes for the monodomain equation in cardiac electrophysiology..
In International Journal for Numerical Methods in Biomedical Engineering, pp. e3666-e3666, 2022
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E. Kovacheva, T. Gerach, S. Schuler, M. Ochs, O. Dössel, and A. Loewe.
Causes of altered ventricular mechanics in hypertrophic cardiomyopathy: an in-silico study.
In BioMedical Engineering OnLine, vol. 20(1) , pp. 69, 2021
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J. Brenneisen, A. Daub, T. Gerach, E. Kovacheva, L. Huetter, B. Frohnapfel, O. Dössel, and A. Loewe.
Sequential Coupling Shows Minor Effects of Fluid Dynamics on Myocardial Deformation in a Realistic Whole-Heart Model..
In Frontiers in cardiovascular medicine, vol. 8, pp. 768548, 2021
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Conference Contributions (11)

T. Gerach, J. Krauß, S. Schuler, and A. Loewe.
Whole Heart Simulation of Severe Aortic Stenosis Using a Lumped Parameter Model of Heart Valve Dynamics.
In 2023 Computing in Cardiology (CinC)(10363691) , pp. 1-4, 2023
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T. Gerach, S. Schuler, E. Kovacheva, O. Doessel, and A. Loewe.
Consequences of Using an Orthotropic Stress Tensor for Left Ventricular Systole.
In 2020 Computing in Cardiology Conference (CinC), vol. 47, 2020
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T. Gerach, D. Weiß, O. Dössel, and A. Loewe.
Observation guided systematic reduction of a detailed human ventricular cell model.
In Computing in Cardiology (CinC), vol. 46, 2019
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J. Krauß, T. Gerach, and A. Loewe.
Comparison of Pericardium Modeling Approaches for Mechanical Whole Heart Simulations.
In 2023 Computing in Cardiology (CinC)(10363691) , pp. 1-4, 2023
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J. Krauss, T. Gerach, and A. Loewe.
Effects of Ventricular Myofiber Orientation on Mechanical Function in Human Heart Simulations.
In 2022 Computing in Cardiology Conference, vol. 49, 2022
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J. Brenneisen, S. Schuler, E. Kovacheva, T. Gerach, O. Dössel, and A. Loewe.
Influence of Geometrical Properties for the Calculation of a Pressure-Free Whole Heart Geometry.
In 14th WCCM-ECCOMAS Congress 2020, pp. 1-9, 2021
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S. Appel, T. Gerach, O. Dössel, and A. Loewe.
Adaptation of the Calcium-dependent Tension Development in Ventricular Cardiomyocytes.
In Current Directions in Biomedical Engineering, vol. 7(2) , pp. 251-254, 2021
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J. Brenneisen, A. Daub, E. Kovacheva, T. Gerach, L. Hütter, B. Frohnapfel, O. Dössel, and A. Loewe.
A sequential coupling approach for fluid-structure interaction in a patient specific whole heart geometry.
In iHEART Congress – Modelling the Cardiac Function, 2021
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J. Brenneisen, E. Kovacheva, T. Gerach, A. Daub, L. Hütter, B. Frohnapfel, O. Dössel, and A. Loewe.
Characterization of the Fluid Dynamic Pressure Field in the Human Heart as a Basis for Coupled Fluid-Structure Simulations.
In BMT 2020, vol. Poster Session, pp. 259, 2020
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E. Kovacheva, L. Baron, S. Schuler, T. Gerach, O. Dössel, and A. Loewe.
Optimization Framework to Identify Constitutive Law Parameters of the Human Heart.
In Current Directions in Biomedical Engineering, vol. 6(3) , pp. 95-98, 2020
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E. Kovacheva, S. Schuler, T. Gerach, O. Dössel, and A. Loewe.
A Method for Pressure-Volume-Based Parameter Identification for a Passive Constitutive Model of Myocardium.
In RISM Congress: iHEART - Modelling the Cardiac Function, 2019
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Awards

Maastricht Simulation Award, Konferenz „Computing in Cardiology“ 2023 in Atlanta (USA)
Tobias Gerach, Jonathan Krauss, Steffen Schuler, Axel Loewe
Whole Heart Simulation of Severe Aortic Stenosis Using a Lumped Parameter Model of Heart Valve Dynamics

Semi-Finalist at Rosanna Degani Young Investigators Award, Konferenz „Computing in Cardiology“ 2020 in Rimini (Italien)
Tobias Gerach, Steffen Schuler, Ekaterina Kovacheva, Olaf Dössel, Axel Loewe
Consequences of Using an Orthotropic Stress Tensor for Left Ventricular Systole