Dr.-Ing. cand. Robin Moss
Doctoral researcher (Computational Modelling)Research Interests:
- Electro-mechanical coupling
- Tension modelling of cardiomyocytes
- Generation of realistic structural meshes to be used in finite element simulations
- Parameter adaptation in electrophysiological models of cardiomyocytes to mutations of ion channels
Brief CV:
Robin Moss received his Master of Science in electrical engineering and information technology from KIT (Karlsruhe Institute of Technology) in 2015. After finishing his Master's thesis on the 'Effects of the Long-QT-Syndrome on the Mechanical Deformation in a Computational Rabbit Model' at the Institute of Biomedical Engineering (KIT), he took the opportunity to join the IEKM in Freiburg as a PhD student in the Computational Modelling section in 2016.
Selected Publications:
- Moss R, Wülfers EM, Schuler S, Loewe A, Seemann G. A Fully-Coupled Electro-Mechanical Whole-Heart Computational Model: Influence of Cardiac Contraction on the ECG. Frontiers in Physiology, 16 December 2021
- Moss R, Sachse FB, Moreno-Galindo EG, Navarro Polanco RA, Tristani-Firouzi M, Seemann G. Modeling effects of voltage dependent properties of the cardiac muscarinic receptor on human sinus node function. PLOS Computational Biology 14(10): e1006438
- Ziupa D, Menza M, Koppermann S, Moss R, Beck J, Franke G, Feliz SP, Brunner M, Mayer S, Bugger H, Koren G,Zehender M, Jung BA, Foell D, Seemann G, Bode C, Odening KE. Electro-mechanical (dys-)function in long QT syndrome type 1. Int. J. Cardiol. 274:144-151:0167-5273
- Dressler FF, Bodi I, Menza M, Moss R, Bugger H, Bode C, Behrends JC, Seemann G, Odening KE. Interregional electro-mechanical heterogeneity in the rabbit myocardium. Prog. Biophys. MolBiol. 130(Pt B):344-355
- Ortiz-Bonnin B, Rinné S, Moss R, Streit AK, Scharf M, Richter K, Stöber A, Pfeufer A, Seemann G, Kääb S, Beckmann B-M, Decher N. Electrophysiological characterization of a large set of novel variants in the SCN5A-gene: identification of novel LQTS3 and BrS mutations. Pflugers Arch 2016/468(8):1375-87