Dipl.Phys. Thomas Fritz 

Alumnus 

title  contact 

PatientSpecific Biomechanical Modeling of the Heart  Application in Dilated Cardiomyopathy 
title  type  sws  tutor 

Eine Sensitivitätsanalyse zum Einfluss von Faserorientierung und elektrophysiologischem Stimulationsprofil auf die Biomechanik des Herzens  Studienarbeit 


Simulation der Auswirkung von Ablationsnarben auf die Vorhofmechanik  Bachelorarbeit 


Modellierung der Vorhofmechanik  Diplomarbeit  
In Silico Analysis of the Velocity Vector Field of the Ventricles  Bachelorarbeit 


Analyzing the ElectroMechanical heterogeneity of the heart using Computer Modeling  Diplomarbeit 
Publications
Journal Articles (3)
T. Fritz, C. Wieners, G. Seemann, H. Steen, and O. Dössel.
Simulation of the contraction of the ventricles in a human heart model including atria and pericardium : Finite element analysis of a frictionless contact problem.
In Biomechanics and Modeling in Mechanobiology, vol. 13(3) , pp. 627641, 2014
Simulation of the contraction of the ventricles in a human heart model including atria and pericardium : Finite element analysis of a frictionless contact problem.
In Biomechanics and Modeling in Mechanobiology, vol. 13(3) , pp. 627641, 2014
S. Land, V. Gurev, S. Arens, C. M. Augustin, L. Baron, R. Blake, C. Bradley, S. Castro, A. Crozier, M. Favino, T. E. Fastl, T. Fritz, H. Gao, A. Gizzi, B. E. Griffith, D. E. Hurtado, R. Krause, X. Luo, M. P. Nash, S. Pezzuto, G. Plank, S. Rossi, D. Ruprecht, G. Seemann, N. P. Smith, J. Sundnes, J. J. Rice, N. Trayanova, D. Wang, Z. Jenny Wang, and S. A. Niederer.
Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour.
In Proceedings. Mathematical, Physical, and Engineering Sciences / the Royal Society, vol. 471(2184) , pp. 2015.0641, 2015
Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour.
In Proceedings. Mathematical, Physical, and Engineering Sciences / the Royal Society, vol. 471(2184) , pp. 2015.0641, 2015
D. U. J. Keller, O. Jarrousse, T. Fritz, S. Ley, O. Dössel, and G. Seemann.
Impact of physiological ventricular deformation on the morphology of the Twave: a hybrid, staticdynamic approach.
In IEEE Trans Biomed Eng., vol. 58(7) , pp. 21092119, 2011
Impact of physiological ventricular deformation on the morphology of the Twave: a hybrid, staticdynamic approach.
In IEEE Trans Biomed Eng., vol. 58(7) , pp. 21092119, 2011
Conference Contributions (15)
T. Fritz, E. Kovacheva, G. Seemann, O. Dössel, and A. Loewe.
The inverse problem of cardiac mechanics  estimation of cardiac active stress from endocardial motion tracking.
In Computational & Mathematical Biomedical Engineering Proceedings, vol. 1, pp. 9195, 2019
The inverse problem of cardiac mechanics  estimation of cardiac active stress from endocardial motion tracking.
In Computational & Mathematical Biomedical Engineering Proceedings, vol. 1, pp. 9195, 2019
T. Fritz, O. Dössel, and M. Krueger.
Electromechanical modeling of the human atria.
In Biomedizinische Technik. Biomedical Engineering, vol. 58(s1) , 2013
Electromechanical modeling of the human atria.
In Biomedizinische Technik. Biomedical Engineering, vol. 58(s1) , 2013
T. Fritz, O. Jarrousse, D. Keller, G. Seemann, and O. Dössel.
In silico analysis of the impact of transmural myocardial infarction on cardiac mechanical dynamics for the 17 AHA segments.
In Proceedings of the 6th International Conference on Functional Imaging and Modeling of the Heart, vol. LNCS, 6666, pp. 241249, 2011
In silico analysis of the impact of transmural myocardial infarction on cardiac mechanical dynamics for the 17 AHA segments.
In Proceedings of the 6th International Conference on Functional Imaging and Modeling of the Heart, vol. LNCS, 6666, pp. 241249, 2011
T. Fritz, G. Seemann, and O. Dössel.
Analyzing transmural myocardial infarction of the left ventricle using computer modeling.
In 4th Cardiac Physiome Workshop, vol. Poster, 2011
Analyzing transmural myocardial infarction of the left ventricle using computer modeling.
In 4th Cardiac Physiome Workshop, vol. Poster, 2011
T. Fritz, O. Jarrousse, G. Seemann, and O. Dössel.
Analyzing the transmural electromechanical heterogeneity of the left ventricle in a computer model.
In Biomedizinische Technik / Biomedical Engineering (Proceedings BMT2010), vol. 55(Suppl 1) , 2010
Analyzing the transmural electromechanical heterogeneity of the left ventricle in a computer model.
In Biomedizinische Technik / Biomedical Engineering (Proceedings BMT2010), vol. 55(Suppl 1) , 2010
T. Fritz, O. Jarrousse, and O. Dössel.
Adapting a massspring system to energy density function describing myocardial mechanics.
In Proceedings of the 4th European Congress for Medical and Biomedical Engineering 2008. 2327 November 2008, Antwerp, Belgium, vol. 22, pp. 20032006, 2008
Adapting a massspring system to energy density function describing myocardial mechanics.
In Proceedings of the 4th European Congress for Medical and Biomedical Engineering 2008. 2327 November 2008, Antwerp, Belgium, vol. 22, pp. 20032006, 2008
L. Baron, T. Fritz, G. Seemann, and O. Dössel.
Sensitivity study of fiber orientation on stroke volume in the human left ventricle.
In Computing in Cardiology, vol. 41, pp. 681684, 2014
Sensitivity study of fiber orientation on stroke volume in the human left ventricle.
In Computing in Cardiology, vol. 41, pp. 681684, 2014
W. H. W. Schulze, T. Fritz, D. Potyagaylo, J. Trächtler, R. Schimpf, T. Papavassiliu, E. Tülümen, B. Rudic, V. Liebe, C. Doesch, M. Borggrefe, and O. Dössel.
Effect of mesh resolution on forward calculations of the electrocardiogram in a simplified thorax model.
In Biomedizinische Technik / Biomedical Engineering, vol. 59(s1) , pp. 945948, 2014
Effect of mesh resolution on forward calculations of the electrocardiogram in a simplified thorax model.
In Biomedizinische Technik / Biomedical Engineering, vol. 59(s1) , pp. 945948, 2014
L.M. Busch, T. Fritz, M. W. Krueger, G. Seemann, and O. Dössel.
Impact of different ablation patterns on the biomechanics of the human left atrium.
In Biomedizinische Technik. Biomedical Engineering, vol. 58(s1) , 2013
Impact of different ablation patterns on the biomechanics of the human left atrium.
In Biomedizinische Technik. Biomedical Engineering, vol. 58(s1) , 2013
O. Jarrousse, T. Fritz, and O. Dössel.
Modeling breast tissue mechanics from Prone to supine positions with a modified massspring system.
In Proceedings BMT 2010, 44. DGBMT Jahrestagung, 3LänderTagung DACH, Rostock, vol. 55(S1) , pp. 8790, 2010
Modeling breast tissue mechanics from Prone to supine positions with a modified massspring system.
In Proceedings BMT 2010, 44. DGBMT Jahrestagung, 3LänderTagung DACH, Rostock, vol. 55(S1) , pp. 8790, 2010
M. W. Krueger, V. Schmidt, D. U. J. Keller, T. Fritz, G. Seemann, and O. Dössel.
Comparison of Methods for Visualization of 3D Myocardial Fiber Structure in Printed Images.
In KIT PhD Symposium 2010, pp. 80, 2010
Comparison of Methods for Visualization of 3D Myocardial Fiber Structure in Printed Images.
In KIT PhD Symposium 2010, pp. 80, 2010
O. Jarrousse, T. Fritz, and O. Dössel.
Implicit time integration in a volumetric massspring system for modeling myocardial elastomechanics.
In IFMBE Proceedings World Congress on Medical Physics and Biomedical Engineering, vol. 25/4, pp. 876879, 2009
Implicit time integration in a volumetric massspring system for modeling myocardial elastomechanics.
In IFMBE Proceedings World Congress on Medical Physics and Biomedical Engineering, vol. 25/4, pp. 876879, 2009
O. Jarrousse, T. Fritz, and O. Dössel.
A volumetric massspring system for modeling myocardial elastomechanics.
In The Cardiac Physiome: Multiscale and Multiphysics Mathematical Modelling Applied to the Heart, 2009
A volumetric massspring system for modeling myocardial elastomechanics.
In The Cardiac Physiome: Multiscale and Multiphysics Mathematical Modelling Applied to the Heart, 2009
O. Jarrousse, T. Fritz, and O. Dössel.
A modifed massspring system for myocardial mechanics modeling.
In Proceedings of the 4th European Congress for Medical and Biomedical Engineering 2008. 2327 November 2008, Antwerp, Belgium, vol. 22, pp. 19431946, 2008
A modifed massspring system for myocardial mechanics modeling.
In Proceedings of the 4th European Congress for Medical and Biomedical Engineering 2008. 2327 November 2008, Antwerp, Belgium, vol. 22, pp. 19431946, 2008