Dr.-Ing. Markus Rottmann

  • Alumnus
Completed theses
title type person in charge tutor
Bachelor thesis

Linus Kienle

Internship thesis

Bar Kopolowich

Bachelor thesis

Farhan Rafdionza

Bachelor thesis

Ufuk Arslan

Bachelor thesis

Wenzel Kaltenbacher

Master thesis

Christian Reich

Bachelor thesis

Joachim Greiner

Master thesis

Constantin Kohl

Bachelor thesis

Laura Unger

Master thesis

Max Barchet

Masterarbeit

Markus Rottmann

Publications


All publications, sorted by years

          2016 2015 2014 2013 [All]


Selected Publications

Journal Articles (1)

O. Dössel, G. Lenis, A. Loewe, M. Rottmann, G. Seemann, and T. Oesterlein.
Model Assisted Biosignal Analysis of Atrial Electrograms.
In Technisches Messen, vol. 83(2) , pp. 102-111, 2016
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Conference Contributions (15)

M. Rottmann, H. Lehrmann, V. Markstein, U. Arslan, W. Kaltenbacher, L. Kienle, J. Zürn, R. Weber, J. Allgeier, C. Keyl, D. Trenk, F.-J. Neumann, O. Dössel, T. Arentz, and A. S. Jadidi.
V 1333 Rotational and Focal Drivers Develop at Heterogeneous Atrial Sites Displaying Low Voltage and Slow Conduction – A Clinical High-Density Mapping in Persistent AF and High-Resolution Simulation.
In Frühjahrstagung der Deutschen Gesellschaft für Kardiologie, 2017
M. Rottmann, J. Zürn, U. Arslan, O. Dössel, and K. Klingel.
P1807 Correlations between fibrosis and intracardiac recordings based on 3D reconstructions in the murine model of viral myocarditis .
In Frühjahrstagung der Deutschen Gesellschaft für Kardiologie, 2017
M. Rottmann, W. Kaltenbacher, O. Dössel, G. Seemann, V. Markstein, H. Lehmann, J. Allgeier, R. Weber, T. Arentz, A. Jadidi, and . ASIG.
V991 - Impact of catheter design for identification of rotational activity in atrial fibrillation.
In Clin Res Cardiol, vol. 105(s1) , 2016
  PDF      
M. Rottmann, V. Markstein, U. Arslan, H. Lehrmann, J. Allgeier, R. Weber, W. Kaltenbacher, O. Dössel, T. Arentz, and A. S. Jadidi.
Impact of Three Dimensional Atrial Fibrosis on Development and Stability of Rotational and Focal Sources in Atrial Fibrillation A 3D Simulation and Clinical High-Density Mapping Study in Persistent Atrial Fibrillation.
In Computing in Cardiology, vol. 43, pp. 157-160, 2016
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M. Rottmann, T. Oesterlein, C. Reich, A. Luik, C. Schmitt, and O. Dössel.
Characteristic features of electrograms of depolarization waves during atrial fibrillation.
In 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2016
  
M. Rottmann, J. Zürn, U. Arslan, K. Klingel, and O. Dössel.
Effects of fibrosis on the extracellular potential based on 3D reconstructions from histological sections of heart tissue.
In Current Directions in Biomedical Engineering, vol. 2(1) , pp. 675-678, 2016
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M. Rottmann, O. Dössel, and G. Seemann.
Analysis of characteristic signal morphologies of double potentials near block lines in an atrial simulation model.
In Biomedical Technology/ Biomedical Engineering, 2015
M. Rottmann, L. Unger, W. Kaltenbacher, G. Seemann, A. Loewe, M. W. Krueger, A. S. Jadidi, T. Arentz, and O. Doessel.
Methods for analyzing signal characteristics of stable and unstable rotors in a realistic heart model.
In 2015 Computing in Cardiology Conference (CinC), pp. 485-488, 2015
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M. Rottmann, M. W. Keller, T. Oesterlein, O. Dössel, and G. Seemann.
Comparison of different methods and catheter designs to estimate the rotor tip position a simulation study.
In Computing in Cardiology, vol. 41, pp. 133-136, 2014
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M. Rottmann, T. Oesterlein, and O. Dössel.
Local activation time based estimation of the direction of propagation of plane wave and the corresponding conduction velocity in simulated electrograms.
In Biomedizinische Technik / Biomedical Engineering, vol. 59(s1) , pp. 152-155, 2014
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O. Dössel, G. Lenis, A. Loewe, S. Pollnow, M. Rottmann, B. Verma, C. Schmitt, A. Luik, and T. Oesterlein.
Atrial Signals Modeling Meets Biosignal Analysis.
In IFMBE Proceedings, vol. 65, pp. 723-726, 2017
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W. Kaltenbacher, M. Rottmann, and O. Dössel.
An algorithm to automatically determine the cycle length coverage to identify rotational activity during atrial fibrillation a simulation study.
In Current Directions in Biomedical Engineering, vol. 2(1) , pp. 167-170, 2016
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C. Reich, T. Oesterlein, M. Rottmann, O. Dössel, and G. Seemann.
Classification of cardiac excitation patterns during atrial fibrillation.
In Current Directions in Biomedical Engineering, vol. 2(1) , pp. 161-166, 2016
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O. Dössel, A. Luik, T. Oesterlein, M. Rottmann, B. Verma, and . Schmitt C..
Computer modeling of the atria and clinical electrograms.
In 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, vol. Poster Session, 2015
  
L. A. Unger, M. Rottmann, O. Dössel, and G. Seemann.
Detecting phase singularities and rotor center trajectories based on the Hilbert transform of intraatrial electrograms in an atrial voxel model.
In Current Directions in Biomedical Engineering, vol. 1(1) , pp. 38-41, 2015
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Awards

2016

Semi-Finalist Young Investigator Award, Computing in Cardiology (CinC), 2016, Vancouver, Markus Rottmann: "Impact of Three Dimensional Atrial Fibrosis on Development and Stability of Rotational Activity in Atrial Fibrillation – A 3D Simulation and Clinical High-density Mapping Study in Persistent Atrial Fibrillation"