:: Methodological Aspects related to CARP
  1. Vigmond, E.J., R.Weber dos Santos, S. Bauer, A.J. Prassl, M. Deo, G. Plank. Solvers for the Cardiac Bidomain Equations, Prog. Biophys. Mol. Biol., Focused Issue Cardiovascular Physiome, in press.
  2. Makarand, D., G. Plank, and E. Vigmond. Reduced Order Preconditioning for Large Linear Systems., IEEE Trans. Biomed. Eng., 54(5), 938-942, 2007. [MEDLINE]
  3. Plank, G., M. Liebmann, R. Weber dos Santos, E. Vigmond and G.Haase. Algebraic Multigrid Preconditioner for the Cardiac Bidomain Model, IEEE Trans. Biomed. Eng., 54(4):585-596, 2007. [MEDLINE]
  4. Burton* A.B.R., G. Plank*, J. Schneider*, V. Grau Colomer, H. Ahammer, S.L. Keeling, J.L. Lee, N. Smith, N.A. Trayanova and P. Kohl. (* shared first authors) 3-Dimensional Models of Individual Cardiac Histo-Anatomy: Tools and Challenges. Ann. N.Y. Acad. Sci., 1080, 301-319, 2006. [MEDLINE]
  5. Plank, G., R. Clayton, D. Boyd, E.J. Vigmond Integrative Biology: Modelling Heart Attacks with Supercomputers. HPCx Capability Computing Journal, 2006.
  6. Weber dos Santos, R., G. Plank, S. Bauer, E.J. Vigmond, Preconditioning techniques for the bidomain equations. Lecture Notes in Computational Science and Engineering (LNCSE), ISBN/ISSN 14397358, 40:571-580, 2004.
  7. Weber dos Santos, R., G. Plank, S. Bauer, E.J. Vigmond, Parallel multigrid preconditioner for the cardiac bidomain model., IEEE Trans. Biomed. Eng., 51(11):1960-8, 2004.
  8. Vigmond, E.J., M. Hughes, G. Plank, L.J. Leon, Computational Tools for Modeling Electrical Activity in Cardiac Tissue. J. Electrocardiol., 36 Suppl:69-74, 2003.
  9. Vigmond E.J., F. Aguel, N.A. Trayanova. Computational techniques for solving the bidomain equations in three dimensions. IEEE Trans Biomed Eng. 49(11):1260-9, 2002.
:: Studies executed using CARP
  1. Plank, G., A.J. Prassl, E. Hofer, and N.A. Trayanova Evaluating Intramural Virtual Electrodes in the Myocardial Wedge Preparation: Simulations of Experimental Conditions. Biophys.J ., to appear
  2. Bauer, S., G. Röder, M. Bär. Alternans and the influence of ionic channel modifications: Cardiac 3D simulations and 1D numerical bifurcation analysis. Chaos 17, 015104, 2007. [MEDLINE]
  3. Plank G., L.J. Leon, S. Kimber, E.J. Vigmond, Defibrillation depends on conductivity fluctuations and the degree of disorganization in reentry patterns., J. Cardiovasc. Electrophysiol., 16(2):205-216, 2005.

  4. Vigmond E.J., C. Clements. Construction of a computer model to investigate
    sawtooth effects in the Purkinje system. IEEE Trans Biomed Eng, 54(3):389-99, 2007.
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