Christoph Augustin
Citeras av
Citeras av
Anatomically accurate high resolution modeling of human whole heart electromechanics: a strongly scalable algebraic multigrid solver method for nonlinear deformation
CM Augustin, A Neic, M Liebmann, AJ Prassl, SA Niederer, G Haase, ...
Journal of computational physics 305, 622-646, 2016
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
Image-based personalization of cardiac anatomy for coupled electromechanical modeling
A Crozier, CM Augustin, A Neic, AJ Prassl, M Holler, TE Fastl, ...
Annals of biomedical engineering 44 (1), 58-70, 2016
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
Classical and all‐floating FETI methods for the simulation of arterial tissues
CM Augustin, GA Holzapfel, O Steinbach
International journal for numerical methods in engineering 99 (4), 290-312, 2014
Phosphorylation by the stress-activated MAPK Slt2 down-regulates the yeast TOR complex 2
KL Leskoske, FM Roelants, A Emmerstorfer-Augustin, CM Augustin, EP Si, ...
Genes & development 32 (23-24), 1576-1590, 2018
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
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, 538, 2018
Simulating ventricular systolic motion in a four-chamber heart model with spatially varying robin boundary conditions to model the effect of the pericardium
M Strocchi, MAF Gsell, CM Augustin, O Razeghi, CH Roney, AJ Prassl, ...
Journal of Biomechanics 101, 109645, 2020
FETI methods for the simulation of biological tissues
C Augustin, O Steinbach
Domain decomposition methods in science and engineering XX, 503-510, 2013
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
Tracking yeast pheromone receptor Ste2 endocytosis using fluorogen-activating protein tagging
A Emmerstorfer-Augustin, CM Augustin, S Shams, J Thorner
Molecular biology of the cell 29 (22), 2720-2736, 2018
Classical and All-floating FETI Methods with Applications to Biomechanical Models
CM Augustin
Computation in Engineering and Science 27, 185, 2015
Personalization of electro-mechanical models of the pressure-overloaded left ventricle: fitting of Windkessel-type afterload models
L Marx, MAF Gsell, A Rund, F Caforio, AJ Prassl, G Toth-Gayor, T Kuehne, ...
Philosophical Transactions of the Royal Society A 378 (2173), 20190342, 2020
The impact of wall thickness and curvature on wall stress in patient-specific electromechanical models of the left atrium
CM Augustin, TE Fastl, A Neic, C Bellini, J Whitaker, R Rajani, MD O’Neill, ...
Biomechanics and Modeling in Mechanobiology, 1-20, 2019
Computational challenges in building multi-scale and multi-physics models of cardiac electro-mechanics
G Plank, AJ Prassl, C Augustin
Biomedical Engineering/Biomedizinische Technik 1 (aop), 2013
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
Computational modeling of cardiac growth and remodeling in pressure overloaded hearts—Linking microstructure to organ phenotype
JA Niestrawska, CM Augustin, G Plank
Acta Biomaterialia 106, 34-53, 2020
Simulating the Mechanics of Myocardial Tissue Using Strongly Scalable Parallel Algorithms
CM Augustin, G Plank
Biomedical Engineering/Biomedizinische Technik 1 (aop), 2013
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 preprint arXiv:2009.08802, 2020
Systemet kan inte utföra åtgärden just nu. Försök igen senare.
Artiklar 1–20