| The openCARP simulation environment for cardiac electrophysiology G Plank, A Loewe, A Neic, C Augustin, YL Huang, MAF Gsell, ... Computer methods and Programs in Biomedicine 208, 106223, 2021 | 143 | 2021 |
| A framework for the generation of digital twins of cardiac electrophysiology from clinical 12-leads ECGs K Gillette, MAF Gsell, AJ Prassl, E Karabelas, U Reiter, G Reiter, ... Medical Image Analysis 71, 102080, 2021 | 115 | 2021 |
| A publicly available virtual cohort of four-chamber heart meshes for cardiac electro-mechanics simulations M Strocchi, CM Augustin, MAF Gsell, E Karabelas, A Neic, K Gillette, ... PloS one 15 (6), e0235145, 2020 | 95 | 2020 |
| Automating image-based mesh generation and manipulation tasks in cardiac modeling workflows using meshtool A Neic, MAF Gsell, E Karabelas, AJ Prassl, G Plank SoftwareX 11, 100454, 2020 | 62 | 2020 |
| A computationally efficient physiologically comprehensive 3D–0D closed-loop model of the heart and circulation CM Augustin, MAF Gsell, E Karabelas, E Willemen, FW Prinzen, ... Computer methods in applied mechanics and engineering 386, 114092, 2021 | 44 | 2021 |
| Patient-specific modeling of left ventricular electromechanics as a driver for haemodynamic analysis CM Augustin, A Crozier, A Neic, AJ Prassl, E Karabelas, ... EP Europace 18 (suppl_4), iv121-iv129, 2016 | 38 | 2016 |
| Towards a computational framework for modeling the impact of aortic coarctations upon left ventricular load E Karabelas, MAF Gsell, CM Augustin, L Marx, A Neic, AJ Prassl, ... Frontiers in physiology 9, 339113, 2018 | 35 | 2018 |
| Generating admissible space-time meshes for moving domains in (d+ 1) dimensions M Neumüller, E Karabelas Space-Time Methods: Applications to Partial Differential Equations 25, 185, 2019 | 30 | 2019 |
| Versatile stabilized finite element formulations for nearly and fully incompressible solid mechanics E Karabelas, G Haase, G Plank, CM Augustin Computational mechanics 65 (1), 193-215, 2020 | 28 | 2020 |
| Assessment of wall stresses and mechanical heart power in the left ventricle: Finite element modeling versus Laplace analysis MAF Gsell, CM Augustin, AJ Prassl, E Karabelas, JF Fernandes, M Kelm, ... International journal for numerical methods in biomedical engineering 34 (12 …, 2018 | 26 | 2018 |
| Global sensitivity analysis of four chamber heart hemodynamics using surrogate models E Karabelas, S Longobardi, J Fuchsberger, O Razeghi, C Rodero, ... IEEE Transactions on Biomedical Engineering 69 (10), 3216-3223, 2022 | 25 | 2022 |
| An accurate, robust, and efficient finite element framework with applications to anisotropic, nearly and fully incompressible elasticity E Karabelas, MAF Gsell, G Haase, G Plank, CM Augustin Computer methods in applied mechanics and engineering 394, 114887, 2022 | 14 | 2022 |
| Modelling the interaction between stem cells derived cardiomyocytes patches and host myocardium to aid non-arrhythmic engineered heart tissue design D Fassina, CM Costa, S Longobardi, E Karabelas, G Plank, SE Harding, ... PLoS computational biology 18 (4), e1010030, 2022 | 13 | 2022 |
| On the incorporation of obstacles in a fluid flow problem using a Navier–Stokes–Brinkman penalization approach J Fuchsberger, P Aigner, S Niederer, G Plank, H Schima, G Haase, ... Journal of Computational Science 57, 101506, 2022 | 12 | 2022 |
| The effect of ventricular myofibre orientation on atrial dynamics M Strocchi, CM Augustin, MAF Gsell, E Karabelas, A Neic, K Gillette, ... International Conference on Functional Imaging and Modeling of the Heart …, 2021 | 10 | 2021 |
| Space-Time Discontinuous Galerkin Methods for Cardiac Electromechanics E Karabelas, G Brenn, G Holzapfel, W von der Linden, M Schanz, ... Verlag der Technischen Universität Graz, 2016 | 8 | 2016 |
| Validation of a 3D-0D Closed-Loop Model of the Heart and CirculationModeling the Experimental Assessment of Diastolic and Systolic Ventricular Properties CM Augustin, MAF Gsell, E Karabelas, E Willemen, F Prinzen, J Lumens, ... arXiv preprint arXiv:2009.08802, 2020 | 7 | 2020 |
| Physiologically valid 3D-0D closed loop model of the heart and circulation--Modeling the acute response to altered loading and contractility CM Augustin, MAF Gsell, E Karabelas, G Plank arXiv e-prints, arXiv: 2009.08802, 2020 | 6 | 2020 |
| Validation study of computational fluid dynamics models of hemodynamics in the human aorta J Fuchsberger, E Karabelas, P Aigner, H Schima, G Haase, G Plank PAMM 19 (1), e201900472, 2019 | 5 | 2019 |
| Space–time DG methods for the coupled electro–mechanical activation of the human heart E Karabelas, O Steinbach PAMM 14 (1), 839-840, 2014 | 3 | 2014 |
Gernot PlankMedical University of Graz在 medunigraz.at 的电子邮件经过验证
