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2017
M. E. Rognes, P. E. Farrell, S. W. Funke, J. E. Hake and M. Maleckar. "cbcbeat: an adjoint-enabled framework for computational cardiac electrophysiology." Journal of Open Source Software 2, no. 13 (2017).
S. Behdadfar, L. Navarro, J. Sundnes, M. Maleckar, S. Ross, H. H. Odland and S. Avril. "A Centerline Based Model Morphing Algorithm for Patient-Specific Finite Element Modelling of the Left Ventricle." IEEE Transactions on Biomedical Engineering (2017).
M. Vagos, H. Arevalo, B. L. de Oliveira, J. Sundnes and M. Maleckar. "A computational framework for testing arrhythmia marker sensitivities to model parameters in functionally calibrated populations of atrial cells." Chaos 27, no. 9 (2017).
M. Vagos, H. Arevalo, F. Sacco and M. Maleckar. A data-driven framework uncovers arrhythmogenic mechanisms in a 'functionally calibrated' population of models. Biophysical Society 61st Annual Meeting, New Orleans, Louisiana, USA, 2017.
S. Kallhovd, M. Maleckar and M. E. Rognes. "Inverse estimation of cardiac activation times via gradient-based optimization." International Journal for Numerical Methods in Biomedical Engineering 34, no. 2 (2017): e2919.
M. Marciniak, H. Arevalo, J. Tfelt-Hansen, K. A. Ahtarovski, T. Jespersen, R. Jabbari, C. Glinge, N. Vejlstrup, T. Engstrom, M. Maleckar et al. A multiple kernel learning framework to investigate the relationship between ventricular fibrillation and first myocardial infarction In Functional Imaging and Modelling of the Heart, Edited by M. Pop and G. Wright. Springer, 2017.
M. Maleckar, A. G. Edwards, W. Louch and G. T. Lines. "Studying dyadic structure-function relationships: a review of current modeling approaches and new insights into Ca2+ (mis)handling." Clinical Medicine Insights: Cardiology 11 (2017): 1-11.
2014
J. Koivumäki, L. Skibsbye, M. Maleckar and T. Jespersen. Action Potential Repolarisation in Healthy and Fibrillating Human Atria: Contribution of Small Conductance Calcium-Activated Potassium Channels., 2014.
J. Koivumäki, L. Skibsbye, M. Maleckar and T. Jespersen. Action Potential Repolarisation in Healthy and Fibrillating Human Atria: Contribution of Small Conductance Calcium-Activated Potassium Channels In Conference of the Scandinavian Physiological Society., 2014.
M. Maleckar. Electrophysiology and advanced simulation techniques focused on atrial fibrillation In Annual Meeting of the Scandinavian Physiological Society., 2014.
J. Koivumäki, G. Seemann, M. Maleckar and P. Tavi. "In Silico Screening of the Key Cellular Remodeling Targets in Chronic Atrial Fibrillation." PLoS Computational Biology 10(5) (2014).
L. Yuan, J. Koivumäki, B. Liang, L. G. Lorentzen, J. H. Svendsen, J. Tfelt-Hansen, M. Maleckar, N. Schmitt, M. S. Olesen and T. Jespersen. "Investigations of the NaV\beta1b Sodium Channel Subunit in Human Ventricle; Functional Characterization of the H162P Brugada Syndrome Mutant." Heart and Circulatory Physiology 306 (2014): H1204-H1212.
S. Kallhovd, V. Mezzano, S. U. Gjerald, J. Saberniak, F. Sheikh, H. Haugaa and M. Maleckar. Localization and not extent of fibrofatty infiltration is the primary factor determining conduction disturbance in a computational model of arrhythomogenic cardiomyopathy In Biophysical Society 58th Annual Meeting. Biophysical Society 58th Annual Meeting, San Francisco, February 15-19, 2014, 2014.
S. Kallhovd, V. Mezzano, S. U. Gjerald, J. Saberniak, F. Sheikh, H. Haugaa and M. Maleckar. Localization and not extent of fibrofatty infiltration is the primary factor determining conduction disturbance in a computational model of arrhythomogenic cardiomyopathy In Copenhagen Meeting on Cardiac Arrhythmia, May 19-22, 2014. Copenhagen Meeting on Cardiac Arrhythmia, May 19-22, 2014, 2014.
S. Kallhovd, V. Mezzano, S. U. Gjerald, J. Saberniak, F. Sheikh, H. Haugaa and M. Maleckar. Localization and not extent of fibrofatty infiltration is the primary factor determining conduction disturbance in a computational model of arrhythomogenic cardiomyopathy In VPH 2014, Trondheim, Norway., 2014.
J. Koivumäki, R. Clark, D. Belke, C. Kondo, P. Fedak, M. Maleckar and W. R. Giles. "Na+ Current Expression in Human Atrial Myofibroblasts: Its Identity and Functional Consequences." Frontiers in Physiology 5 (2014): 275.
M. Maleckar, G. T. Lines, J. Koivumäki, J. M. Cordeiro and K. Calloe. "NS5806 Partially Restores Action Potential Duration But Fails to Ameliorate Calcium Transient Dysfunction in a Computational Model of Canine Heart Failure." Europace 16 (2014): iv46-iv55.

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