Gernot Plank: Publications

Modeling Cardiac Defibrillation

Trayanova, N.A., G. Plank

In Zipes, D., Jalife, J., editor, Cardiac Electrophysiology: From Cell to Bedside 2009.

Details | BibTeX | Link

Bidomain Model of Defibrillation

Trayanova, N.A., G. Plank

In Efimov, I.R., M.W. Kroll, P.J. Tchou, editor, Cardiac Bioelectric Therapy. pages 85-110. 2009.

Details | BibTeX | Link

Image-Based models of cardiac structure in health and disease

Vadakkumpadan, F., H. Arevalo, A.J. Prassl, J. Chen, F. Kickinger, G. Plank, N.A. Trayanova

Systems Biology in Medicine, 2009.

Details | BibTeX

Arrhythmogenic mechanisms of the Purkinje system during electric shocks: a modeling study

Deo M., P. Boyle, G. Plank, E.J. Vigmond

Heart Rhythm, ePub ahead of print, 2009.

Details | BibTeX

Numerical solution for optimal control of monodomain equations in cardiac electrophysiology

Chamakuri, N., G. Plank, K. Kunisch

Computational Optimization and Applications, 2009.

Details | BibTeX

Solving the coupled system improves computational efficiency of the bidomain equations

Southern, J., G. Plank, E.J. Vigmond, J. Whiteley

IEEE Transactions on Biomedical Engineering, 2009.

Details | BibTeX

Generation of histo-anatomically representative models of the individual heart: tools and application

Plank, G. R.A.B. Burton, P. Hales, M. Bishop, T. Mansoori, M.O. Bernabeu, A. Garny, A.J. Prassl, C. Bollensdorff, F. Mason, F. Mahmood, B. Rodriguez, V. Grau, J.E. Schneider, D. Gavaghan, P. Kohl

Phil. Trans. A, 2009.

Details | BibTeX

Towards Predictive Modeling of the Electrophysiology of the Heart

Vigmond E, Vadakkumpadan F, Gurev V, Arevalo H, Deo M, Plank G, Trayanova NA.

Exp. Physiol. 2009.

Details | BibTeX

Image-Based Models of Cardiac Structure with Applications in Arrhythmia and Defibrillation Studies.

Vadakkumpadan, F., L.J. Rantner, B. Tice, P. Boyle, A.J. Prassl, E.J. Vigmond, G. Plank, N.A. Trayanova

J. Electrocardiol. 2009.

Details | BibTeX

Generation of histo-anatomically representative models of the individual heart: tools and application.

Plank, G., R.A.B. Burton, P. Hales, M. Bishop, T. Mansoori, M. Bernabeu, A. Garny, A.J. Prassl, C. Bollensdorff, F. Mason, F. Mahmood, B. Rodriguez, V. Grau, J.E. Schneider, D. Gavaghan, P. Kohl.

Philos Transact A Math Phys Eng Sci. 2009.

Details | BibTeX

Feedback Control of Resonant Drift in a Bidomain Model.

Morgan, S., G. Plank, I.V. Biktasheva, V.N. Biktashev

Biophysical Journal, 2009.

Details | BibTeX

Automatically generated, anatomically accurate Meshes for the Cardiac Bidomain Equations.

A. Prassl, F. Kickinger, H. Ahammer, E. Hofer, J.E. Schneider, E.J. Vigmond, N.A. Trayanova, G. Plank

IEEE Transactions on Biomedical Engineering, 2009.

Details | BibTeX

Second order numerical solution for optimal control of monodomain model in cardiac electrophysiology.

Chamakuri, N., K. Kunisch, G. Plank

pages 202-211. 2009.

Details | BibTeX

A finite element formulation for atrial tissue monolayer.

Wieser, L. H. RIchter, B. Pfeifer, G. Plank, B. Tilg, G. Fischer

2008.

Details | BibTeX

Solvers for the Cardiac Bidomain Equations.

Vigmond, E.J., R. Weber dos Santos, S. Bauer, A.J. Prassl, M. Deo, G. Plank.

2008.

Details | BibTeX

From mitochondtrial ionic channels to arrhythmias in the heart: computational techniques to bridge the spatio-temporal scales.

G. Plank, J. Greenstein, L. Zhou, S. Cortassa, R. Winslow, B. O?Rourke,, N. Trayanova.

Philos Transact A Math Phys Eng Sci. Vol. 366, pages 3381-409. 2008.

Details | BibTeX

Evaluating Intramural Virtual Electrodes in the Myocardial Wedge Preparation: Simulations of Experimental Conditions

G. Plank, A.J. Prassl, E. Hofer, N.A. Trayanoa

Biophysical Journal, Vol. 94, pages 1904-1915. 2008.

Details | BibTeX

A Hilbert-order multiplication scheme for unstructured sparse matrices

Haase, G. M. Liebmann, G. Plank

2007.

Details | BibTeX

Algebraic multigrid preconditioner for the cardiac bidomain model

Plank, G., M. Liebmann, R. Weber dos Santos, E.J. Vigmond, G. Haase.

2007.

Details | BibTeX

Reduced order preconditioning for large linear systems.

Deo, M., G. Plank, E.J. vigmond

IEEE Transactions on Biomedical Engineering, Vol. 54, pages 938-942. 2007.

Details | BibTeX

A novel floating sensor array to detect electric nearfields of beating heart preparations

Hofer, E., F. Kepplinger, T. THurner, T. Wiener, G. Plank

2006.

Details | BibTeX

What have we learned from mathematical models of defibrillation and postshock arrhythmogenesis? Application of bidomain simulations

Trayanova, N.A., G. Plank, B. Rodriguez

2006.

Details | BibTeX

3-dimensional models of individual cardiac histo-anatomy: tools and challenges

Burton, A.B.R., G. Plank, J. Schneider, V. Grau, H. Ahammer, S.L. Keeling, J.L. Lee, N. Smith, N.A. Trayanova, P. Kohl

2006.

Details | BibTeX

Defibrillation depends on conductivity fluctuations and the degree of disorganization in reentry patterns

Plank, G., L.J. Leon, S. Kimber, E.J. Vigmond

2005.

Details | BibTeX

Shock energy necessary for successful defibrillation depends on the degree of disorganization of reentrant activation pattern.

Plank, G., E.J. Vigmond, L.J. Leon

2004.

Details | BibTeX

Parallel multigrid preconditioner for the cardiac bidomain model

Weber dos Santos, R., G. Plank, S. Bauer, E.J. Vigmond

2004.

Details | BibTeX

Preconditioning techniques for the bidomain equations

Weber dos Santos, R., G. Plank, S. Bauer, E.J. Vigmond

2004.

Details | BibTeX

The use of cardiac near-field measurements to determine activation times.

G. Plank, E. Hofer

2003.

Details | BibTeX

Cardiac near-field morphology during conduction around a microscopic obstacle - a computer simulation study

G. Plank, E.J. Vigmond, L.J. Leon, E. Hofer

2003.

Details | BibTeX

Computational tools for modeling electrical activity in cardiac tissue

Vigmond, E.J., M. Hughes, G. Plank, L.J. Leon

2003.

Details | BibTeX

Model study of vector-loop morphology during electrical mapping of microscopic conduction in cardiac tissue.

G. Plank, E. Hofer

2000.

Details | BibTeX

Comparison between the role of discontinuities in cardiac conduction and in a one-dimensional hardware model

de Castro, M. E. Hofer, A.P. Munuzuri, M. Gomez-Gesteira, G. Plank, I. Schafferhofer, V. Perez-Munuzuri

1998.

Details | BibTeX

A new real-time mapping system to detect microscopic cardiac excitation patterns.

Mohr, G., E. Hofer, G. Plank

1998.

Details | BibTeX