Joakim Sundnes
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Computing the electrical activity in the heart
J Sundnes, GT Lines, X Cai, BF Nielsen, KA Mardal, A Tveito
Springer Science & Business Media, 2007
An operator splitting method for solving the bidomain equations coupled to a volume conductor model for the torso
J Sundnes, GT Lines, A Tveito
Mathematical biosciences 194 (2), 233-248, 2005
Mathematical models and numerical methods for the forward problem in cardiac electrophysiology
GT Lines, ML Buist, P Grottum, AJ Pullan, J Sundnes, A Tveito
Computing and Visualization in Science 5 (4), 215-239, 2003
On the computational complexity of the bidomain and the monodomain models of electrophysiology
J Sundnes, BF Nielsen, KA Mardal, X Cai, GT Lines, A Tveito
Annals of biomedical engineering 34 (7), 1088-1097, 2006
Efficient solution of ordinary differential equations modeling electrical activity in cardiac cells
J Sundnes, GT Lines, A Tveito
Mathematical biosciences 172 (2), 55-72, 2001
Multigrid block preconditioning for a coupled system of partial differential equations modeling the electrical activity in the heart
J Sundnes, GT Lines, KA Mardal, A Tveito
Computer Methods in Biomechanics & Biomedical Engineering 5 (6), 397-409, 2002
Simulation of ST segment changes during subendocardial ischemia using a realistic 3-D cardiac geometry
MC MacLachlan, J Sundnes, GT Lines
IEEE Transactions on Biomedical Engineering 52 (5), 799-807, 2005
Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour
S Land, V Gurev, S Arens, CM Augustin, L Baron, R Blake, C Bradley, ...
Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2015
Numerical solution of the bidomain equations
S Linge, J Sundnes, M Hanslien, GT Lines, A Tveito
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2009
A second-order algorithm for solving dynamic cell membrane equations
J Sundnes, R Artebrant, O Skavhaug, A Tveito
IEEE Transactions on Biomedical Engineering 56 (10), 2546-2548, 2009
Improved discretisation and linearisation of active tension in strongly coupled cardiac electro-mechanics simulations
J Sundnes, S Wall, H Osnes, T Thorvaldsen, AD McCulloch
Computer methods in biomechanics and biomedical engineering 17 (6), 604-615, 2014
An integrated electromechanical-growth heart model for simulating cardiac therapies
LC Lee, J Sundnes, M Genet, JF Wenk, ST Wall
Biomechanics and modeling in mechanobiology 15 (4), 791-803, 2016
A comparison of non-standard solvers for ODEs describing cellular reactions in the heart
MC MacLachlan, J Sundnes, RJ Spiteri
Computer methods in biomechanics and biomedical engineering 10 (5), 317-326, 2007
Electromechanical feedback with reduced cellular connectivity alters electrical activity in an infarct injured left ventricle: a finite element model study
ST Wall, JM Guccione, MB Ratcliffe, JS Sundnes
American Journal of Physiology-Heart and Circulatory Physiology 302 (1 …, 2012
Effects of deformation on transmural dispersion of repolarization using in silico models of human left ventricular wedge
BL De Oliveira, BM Rocha, LPS Barra, EM Toledo, J Sundnes, ...
International journal for numerical methods in biomedical engineering 29 (12 …, 2013
An evaluation of the accuracy of classical models for computing the membrane potential and extracellular potential for neurons
A Tveito, KH Jęger, GT Lines, Ł Paszkowski, J Sundnes, AG Edwards, ...
Frontiers in computational neuroscience 11, 27, 2017
Computational modeling of electrophysiology and pharmacotherapy of atrial fibrillation: recent advances and future challenges
M Vagos, IGM van Herck, J Sundnes, HJ Arevalo, AG Edwards, ...
Frontiers in physiology 9, 1221, 2018
An integrative appraisal of mechano-electric feedback mechanisms in the heart
V Timmermann, LA Dejgaard, KH Haugaa, AG Edwards, J Sundnes, ...
Progress in biophysics and molecular biology 130, 404-417, 2017
Uncertainty analysis of ventricular mechanics using the probabilistic collocation method
H Osnes, J Sundnes
IEEE transactions on biomedical engineering 59 (8), 2171-2179, 2012
A computationally efficient method for determining the size and location of myocardial ischemia
TS Ruud, BF Nielsen, M Lysaker, J Sundnes
IEEE Transactions on Biomedical Engineering 56 (2), 263-272, 2008
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