Medizinische Universität Graz Austria/Österreich - Forschungsportal - Medical University of Graz
Augustin Christoph |
** = Publikationen gelistet in SCI/SSCI/Pubmed
2023
Originalarbeit (Zeitschrift)
** Petras, A; Gsell, MAF; Augustin, CM; Rodriguez-Padilla, J; Jung, A; Strocchi, M; Prinzen, FW; Niederer, SA; Plank, G; Vigmond, EJ
Mechanoelectric effects in healthy cardiac function and under Left Bundle Branch Block pathology.
Comput Biol Med. 2023; 156:106696
Doi: 10.1016/j.compbiomed.2023.106696
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** Rodero, C; Longobardi, S; Augustin, C; Strocchi, M; Plank, G; Lamata, P; Niederer, SA
Calibration of Cohorts of Virtual Patient Heart Models Using Bayesian History Matching.
Ann Biomed Eng. 2023; 51(1):241-252
Doi: 10.1007/s10439-022-03095-9
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2022
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** Caforio, F; Augustin, CM; Alastruey, J; Gsell, MAF; Plank, G
A coupling strategy for a first 3D-1D model of the cardiovascular system to study the effects of pulse wave propagation on cardiac function
COMPUT MECH. 2022;
Doi: 10.1007/s00466-022-02206-6
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** Gillette, K; Gsell, MAF; Strocchi, M; Grandits, T; Neic, A; Manninger, M; Scherr, D; Roney, CH; Prassl, AJ; Augustin, CM; Vigmond, EJ; Plank, G
A personalized real-time virtual model of whole heart electrophysiology.
Front Physiol. 2022; 13: 907190
Doi: 10.3389/fphys.2022.907190
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** Jung, A; Gsell, MAF; Augustin, CM; Plank, G
An Integrated Workflow for Building Digital Twins of Cardiac Electromechanics-A Multi-Fidelity Approach for Personalising Active Mechanics.
Mathematics (Basel). 2022; 10(5): 823
Doi: 10.3390/math10050823
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** Karabelas, E; Gsell, MAF; Haase, G; Plank, G; Augustin, CM
An accurate, robust, and efficient finite element framework with applications to anisotropic, nearly and fully incompressible elasticity.
Comput Methods Appl Mech Eng. 2022; 394: 114887
Doi: 10.1016/j.cma.2022.114887
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** Marx, L; Niestrawska, JA; Gsell, MAF; Caforio, F; Plank, G; Augustin, CM
Robust and efficient fixed-point algorithm for the inverse elastostatic problem to identify myocardial passive material parameters and the unloaded reference configuration.
J Comput Phys. 2022; 463: 111266
Doi: 10.1016/j.jcp.2022.111266
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** Rodríguez-Padilla, J; Petras, A; Magat, J; Bayer, J; Bihan-Poudec, Y; El, Hamrani, D; Ramlugun, G; Neic, A; Augustin, CM; Vaillant, F; Constantin, M; Benoist, D; Pourtau, L; Dubes, V; Rogier, J; Labrousse, L; Bernus, O; Quesson, B; Haïssaguerre, M; Gsell, M; Plank, G; Ozenne, V; Vigmond, E
Impact of intraventricular septal fiber orientation on cardiac electromechanical function.
Am J Physiol Heart Circ Physiol. 2022; 322(6):H936-H952
Doi: 10.1152/ajpheart.00050.2022
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Korrektur
** Rodero, C; Strocchi, M; Marciniak, M; Longobardi, S; Whitaker, J; O'Neill, MD; Gillette, K; Augustin, C; Plank, G; Vigmond, EJ; Lamata, P; Niederer, SA
Correction: Linking statistical shape models and simulated function in the healthy adult human heart.
PLoS Comput Biol. 2022; 18(5): e1010196
Doi: 10.1371/journal.pcbi.1010196
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Abstract (Zeitschrift)
** Sobota, V; Prassl, AJ; Ozenne, V; Augustin, CM; Nordmeyer, S; Bayer, JD
The interplay of sex-specific electrophysiology and repolarization heterogeneity governs ventricular arrhythmia sustainability in women
EUR HEART J. 2022; 43: 2518-2518.
[Oral Communication]
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2021
Originalarbeit (Zeitschrift)
** Augustin, CM; Gsell, MAF; Karabelas, E; Willemen, E; Prinzen, FW; Lumens, J; Vigmond, EJ; Plank, G
A computationally efficient physiologically comprehensive 3D-0D closed-loop model of the heart and circulation.
Comput Methods Appl Mech Eng. 2021; 386:114092
Doi: 10.1016/j.cma.2021.114092
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** Gillette, K; Gsell, MAF; Prassl, AJ; Karabelas, E; Reiter, U; Reiter, G; Grandits, T; Payer, C; Štern, D; Urschler, M; Bayer, JD; Augustin, CM; Neic, A; Pock, T; Vigmond, EJ; Plank, G
A Framework for the generation of digital twins of cardiac electrophysiology from clinical 12-leads ECGs.
Med Image Anal. 2021; 71:102080
Doi: 10.1016/j.media.2021.102080
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** Plank, G; Loewe, A; Neic, A; Augustin, C; Huang, YL; Gsell, MAF; Karabelas, E; Nothstein, M; Prassl, AJ; Sánchez, J; Seemann, G; Vigmond, EJ
The openCARP simulation environment for cardiac electrophysiology.
Comput Methods Programs Biomed. 2021; 208:106223
Doi: 10.1016/j.cmpb.2021.106223
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** Rodero, C; Strocchi, M; Marciniak, M; Longobardi, S; Whitaker, J; O'Neill, MD; Gillette, K; Augustin, C; Plank, G; Vigmond, EJ; Lamata, P; Niederer, SA
Linking statistical shape models and simulated function in the healthy adult human heart.
PLoS Comput Biol. 2021; 17(4):e1008851
Doi: 10.1371/journal.pcbi.1008851
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** Wu, J; Augustin, CM; Shadden, SC
Reconstructing vascular homeostasis by growth-based prestretch and optimal fiber deposition.
J Mech Behav Biomed Mater. 2021; 114:104161
Doi: 10.1016/j.jmbbm.2020.104161
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2020
Originalarbeit (Zeitschrift)
** Augustin, CM; Fastl, TE; Neic, A; Bellini, C; Whitaker, J; Rajani, R; O'Neill, MD; Bishop, MJ; Plank, G; Niederer, SA
The impact of wall thickness and curvature on wall stress in patient-specific electromechanical models of the left atrium.
Biomech Model Mechanobiol. 2020; 19(3):1015-1034
Doi: 10.1007/s10237-019-01268-5
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** Karabelas, E; Haase, G; Plank, G; Augustin, CM
Versatile stabilized finite element formulations for nearly and fully incompressible solid mechanics.
Comput Mech. 2020; 65(1):193-215
Doi: 10.1007/s00466-019-01760-w
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** Marx, L; Gsell, MAF; Rund, A; Caforio, F; Prassl, AJ; Toth-Gayor, G; Kuehne, T; Augustin, CM; Plank, G
Personalization of electro-mechanical models of the pressure-overloaded left ventricle: fitting of Windkessel-type afterload models.
Philos Trans A Math Phys Eng Sci. 2020; 378(2173): 20190342-20190342.
Doi: 10.1098/rsta.2019.0342
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** Strocchi, M; Augustin, CM; Gsell, MAF; Karabelas, E; Neic, A; Gillette, K; Razeghi, O; Prassl, AJ; Vigmond, EJ; Behar, JM; Gould, J; Sidhu, B; Rinaldi, CA; Bishop, MJ; Plank, G; Niederer, SA
A publicly available virtual cohort of four-chamber heart meshes for cardiac electro-mechanics simulations.
PLoS One. 2020; 15(6):e0235145
Doi: 10.1371/journal.pone.0235145
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** Strocchi, M; Gsell, MAF; Augustin, CM; Razeghi, O; Roney, CH; Prassl, AJ; Vigmond, EJ; Behar, JM; Gould, JS; Rinaldi, CA; Bishop, MJ; Plank, G; Niederer, SA
Simulating ventricular systolic motion in a four-chamber heart model with spatially varying robin boundary conditions to model the effect of the pericardium.
J Biomech. 2020; 101:109645-109645
Doi: 10.1016/j.jbiomech.2020.109645
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Übersichtsarbeit
** Niestrawska, JA; Augustin, CM; Plank, G
Computational modeling of cardiac growth and remodeling in pressure overloaded hearts-Linking microstructure to organ phenotype.
Acta Biomater. 2020; 106:34-53
Doi: 10.1016/j.actbio.2020.02.010
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2019
Originalarbeit (Zeitschrift)
** Rodriguez, MA; Augustin, CM; Shadden, SC
FEniCS mechanics: A package for continuum mechanics simulations
SOFTWAREX. 2019; 9: 107-111.
Doi: 10.1016/j.softx.2018.10.005
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2018
Originalarbeit (Zeitschrift)
** Emmerstorfer-Augustin, A; Augustin, CM; Shams, S; Thorner, J
Tracking yeast pheromone receptor Ste2 endocytosis using fluorogen-activating protein tagging.
Mol Biol Cell. 2018; 29(22): 2720-2736.
Doi: 10.1091/mbc.E18-07-0424
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** Gsell, MAF; Augustin, CM; Prassl, AJ; Karabelas, E; Fernandes, JF; Kelm, M; Goubergrits, L; Kuehne, T; Plank, G
Assessment of wall stresses and mechanical heart power in the left ventricle: Finite element modeling versus Laplace analysis.
Int J Numer Method Biomed Eng. 2018; 34(12):e3147-e3147
Doi: 10.1002/cnm.3147
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** Karabelas, E; Gsell, MAF; Augustin, CM; Marx, L; Neic, A; Prassl, AJ; Goubergrits, L; Kuehne, T; Plank, G
Towards a Computational Framework for Modeling the Impact of Aortic Coarctations Upon Left Ventricular Load.
Front Physiol. 2018; 9(12):538-538
Doi: 10.3389/fphys.2018.00538
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** Leskoske, KL; Roelants, FM; Emmerstorfer-Augustin, A; Augustin, CM; Si, EP; Hill, JM; Thorner, J
Phosphorylation by the stress-activated MAPK Slt2 down-regulates the yeast TOR complex 2.
Genes Dev. 2018; 32(23-24):1576-1590
Doi: 10.1101/gad.318709.118
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2016
Originalarbeit (Zeitschrift)
** Augustin, CM; Crozier, A; Neic, A; Prassl, AJ; Karabelas, E; Ferreira da Silva, T; Fernandes, JF; Campos, F; Kuehne, T; Plank, G
Patient-specific modeling of left ventricular electromechanics as a driver for haemodynamic analysis.
Europace. 2016; 18(suppl 4):iv121-iv129-iv121-iv129
Doi: 10.1093/europace/euw369
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** Augustin, CM; Neic, A; Liebmann, M; Prassl, AJ; Niederer, SA; Haase, G; Plank, G
Anatomically accurate high resolution modeling of human whole heart electromechanics: A strongly scalable algebraic multigrid solver method for nonlinear deformation.
J Comput Phys. 2016; 305(suppl 4):622-646
Doi: 10.1016/j.jcp.2015.10.045
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** Crozier, A; Augustin, CM; Neic, A; Prassl, AJ; Holler, M; Fastl, TE; Hennemuth, A; Bredies, K; Kuehne, T; Bishop, MJ; Niederer, SA; Plank, G
Image-Based Personalization of Cardiac Anatomy for Coupled Electromechanical Modeling.
Ann Biomed Eng. 2016; 44(1):58-70
Doi: 10.1007/s10439-015-1474-5
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2015
Originalarbeit (Zeitschrift)
** Land, S; Gurev, V; Arens, S; Augustin, CM; Baron, L; Blake, R; Bradley, C; Castro, S; Crozier, A; Favino, M; Fastl, TE; Fritz, T; Gao, H; Gizzi, A; Griffith, BE; Hurtado, DE; Krause, R; Luo, X; Nash, MP; Pezzuto, S; Plank, G; Rossi, S; Ruprecht, D; Seemann, G; Smith, NP; Sundnes, J; Rice, JJ; Trayanova, N; Wang, D; Jenny Wang, Z; Niederer, SA
Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour.
Proc Math Phys Eng Sci. 2015; 471(2184):20150641-20150641
Doi: 10.1098/rspa.2015.0641
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2014
Originalarbeit (Zeitschrift)
** Augustin, CM; Holzapfel, GA; Steinbach, O
Classical and all-floating FETI methods for the simulation of arterial tissues.
Int J Numer Methods Eng. 2014; 99(4):290-312
Doi: 10.1002/nme.4674
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2013
Originalarbeit (Zeitschrift)
** Augustin, C; Steinbach, O
FETI Methods for the Simulation of Biological Tissues.
Domain Decompos Method Sci Eng XX (2011). 2013; 91(11):503-510
Doi: 10.1007/978-3-642-35275-1_59
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** Augustin, CM; Plank, G
Simulating the Mechanics of Myocardial Tissue Using Strongly Scalable Parallel Algorithms.
Biomed Tech (Berl). 2013; 58 Suppl 1(4):
Doi: 10.1515/bmt-2013-4322
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** Plank, G; Prassl, AJ; Augustin, C
Computational Challenges in Building Multi-Scale and Multi-Physics Models of Cardiac Electro-Mechanics.
Biomed Tech (Berl). 2013; 58 Suppl 1(1):
Doi: 10.1515/bmt-2013-4318
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