| A model for human ventricular tissue KHWJ Ten Tusscher, D Noble, PJ Noble, AV Panfilov American Journal of Physiology-Heart and Circulatory Physiology 286 (4 …, 2004 | 1843 | 2004 |
| Alternans and spiral breakup in a human ventricular tissue model KHWJ Ten Tusscher, AV Panfilov American Journal of Physiology-Heart and Circulatory Physiology 291 (3 …, 2006 | 1366 | 2006 |
| PLETHORA gradient formation mechanism separates auxin responses AP Mähönen, K Tusscher, R Siligato, O Smetana, S Díaz-Triviño, ... Nature 515 (7525), 125-129, 2014 | 424 | 2014 |
| Cell model for efficient simulation of wave propagation in human ventricular tissue under normal and pathological conditions KHWJ Ten Tusscher, AV Panfilov Physics in Medicine & Biology 51 (23), 6141, 2006 | 253 | 2006 |
| Organization of ventricular fibrillation in the human heart KHWJ Ten Tusscher, R Hren, AV Panfilov Circulation research 100 (12), e87-e101, 2007 | 213 | 2007 |
| Influence of diffuse fibrosis on wave propagation in human ventricular tissue KHWJ Ten Tusscher, AV Panfilov Europace 9 (suppl_6), vi38-vi45, 2007 | 171 | 2007 |
| Modelling of the ventricular conduction system K Ten Tusscher, AV Panfilov Progress in biophysics and molecular biology 96 (1-3), 152-170, 2008 | 168 | 2008 |
| Polar auxin transport: models and mechanisms K van Berkel, RJ de Boer, B Scheres, K ten Tusscher Development 140 (11), 2253-2268, 2013 | 159 | 2013 |
| Comparison of electrophysiological models for human ventricular cells and tissues KHWJ Ten Tusscher, O Bernus, AV Panfilov Progress in biophysics and molecular biology 90 (1-3), 326-345, 2006 | 154 | 2006 |
| Reentry in heterogeneous cardiac tissue described by the Luo-Rudy ventricular action potential model K Ten Tusscher, AV Panfilov American Journal of Physiology-Heart and Circulatory Physiology 284 (2 …, 2003 | 133 | 2003 |
| Effects of heterogeneous diffuse fibrosis on arrhythmia dynamics and mechanism IV Kazbanov, KHWJ Ten Tusscher, AV Panfilov Scientific reports 6 (1), 20835, 2016 | 130 | 2016 |
| Organization of ventricular fibrillation in the human heart: experiments and models KHWJ Ten Tusscher, A Mourad, MP Nash, RH Clayton, CP Bradley, ... Experimental physiology 94 (5), 553-562, 2009 | 113 | 2009 |
| Evolution of networks for body plan patterning; interplay of modularity, robustness and evolvability KH Ten Tusscher, P Hogeweg PLoS computational biology 7 (10), e1002208, 2011 | 106 | 2011 |
| Effect of heterogeneous APD restitution on VF organization in a model of the human ventricles RH Keldermann, KHWJ ten Tusscher, MP Nash, R Hren, P Taggart, ... American Journal of Physiology-Heart and Circulatory Physiology 294 (2 …, 2008 | 93 | 2008 |
| A self-organized PLT/Auxin/ARR-B network controls the dynamics of root zonation development in Arabidopsis thaliana E Salvi, JP Rutten, R Di Mambro, L Polverari, V Licursi, R Negri, RD Ioio, ... Developmental cell 53 (4), 431-443. e23, 2020 | 88 | 2020 |
| Modeling halotropism: a key role for root tip architecture and reflux loop remodeling in redistributing auxin T van den Berg, RA Korver, C Testerink, KHWJ Ten Tusscher Development 143 (18), 3350-3362, 2016 | 87 | 2016 |
| A computational study of mother rotor VF in the human ventricles RH Keldermann, KHWJ Ten Tusscher, MP Nash, CP Bradley, R Hren, ... American Journal of Physiology-Heart and Circulatory Physiology 296 (2 …, 2009 | 85 | 2009 |
| Influence of nonexcitable cells on spiral breakup in two-dimensional and three-dimensional excitable media K Ten Tusscher, AV Panfilov Physical Review E 68 (6), 062902, 2003 | 85 | 2003 |
| The systems biology of lateral root formation: connecting the dots JAS Teixeira, KH Ten Tusscher Molecular Plant 12 (6), 784-803, 2019 | 84 | 2019 |
| Periodic lateral root priming: what makes it tick? M Laskowski, KH Ten Tusscher The Plant Cell 29 (3), 432-444, 2017 | 68 | 2017 |
