address: department of physics and astronomy e …a.v. panfilov cv june 18, 2018 1 curriculum vitae...
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A.V. Panfilov CV June 18, 2018 1
CURRICULUM VITAE
Alexander V. Panfilov
Address: Department of Physics and AstronomyGent University,Krijgslaan 281, S9, 9000 Gent Belgium.
Telephone: +32-9-2644964Fax: +32-9-2644989e-mail: [email protected]: http://www.heart.ugent.be/
EDUCATION:
1973-1979 B.S. and M.Sc. cum laude in Theoretical Physics, MoscowInstitute of Physics and Technology, USSR
1979-1983 Ph.D. in biophysics, Institute of Biological Physics, Pushchino,USSR Academy of Sciences
PROFESSIONAL APPOINTMENTS:
1979-1982 Research Associate on mathematical modeling, at the Institute ofBiological Physics, USSR Academy of Sciences,
1982-1990 Research Member on mathematical modeling, at the Institute ofBiological Physics, USSR Academy of Sciences,
1992-2005 University Docent (tenured), Department of Theoretical Biology,Utrecht University, The Netherlands.
2003-2004 Professor, Division of Mathematics, University of Dundee, Scotland2005-2011 University Hoofddocent, Department of Theoretical Biology,
Utrecht University, The Netherlands.2011-present Professor, Department of Physics and Astronomy,
Gent University, Belgium.2005- Honorary Professor, Division of Mathematics, University of Dundee, Scotland2017- Guest Professor, at the Heart Lung Centre at Leiden University Medical Centre, Netherlands.
ADDITIONAL APPOINTMENTS:
A.V. Panfilov CV June 18, 2018 2
1990 Research Member, Center for Nonlinear Studies,University of Leeds, Leeds, UK.
1990-1992 Visiting assistant Professor, Department of Mathematics,University of Utah, Salt Lake City, Utah, USA
2001 Visiting Professor at Isaac Newton Institute for Mathematicalstudies, Cambridge University, Cambridge, UK
2006 Visiting Professor of IHES, Bures-sur-Yvette, France2007 Visiting Professor, Courant Institute, NYU, New York City, USA2007 Visiting Professor of IHES, Bures-sur-Yvette, France2008 Visiting Professor of University Paris Descartes, Paris, France2008 Visiting Professor, Courant Institute, NYU, New York City, USA2009 Visiting Professor at Isaac Newton Institute for Mathematical2009 Visiting Professor, Courant Institute, NYU, New York City, USA
UNIVERSITY QUALIFICATIONS:
1997 Basic university teaching qualification1997 Senior university teaching qualification2004 Senior university research qualification
Supervision of the PhD projects:
Alexandre N. Rudenko, Numerical studies of vortex dynamics in three- dimensional excitablemedium, 1987
Bahtier N. Vasiev, Vortex dynamics in heterogeneous excitable medium, 1990.
Stan Maree, From Pattern formation to Morphogenesis,2000.
Christian Zemlin, Rhythms and Wave Propagation in the Heart, 2002.
Olivier Bernus, Development of a realistic computer model of the human ventricles to studyof reentrant arrhythmias, 2003.
Kirtsen ten Tusscher, Spiral wave dynamics and ventricular arrhythmias , 2004.
Rikkert Keldermann, Mechanisms of Ventricular Fibrillation The role of mechano-electricalfeedback and tissue heterogeneity, 2009.
Louis Daniel Weise, Spiral Wave Initiation in Reaction-Diffusion-Mechanics Systems: AModel for the Onset of Reentrant Cardiac Arrhythmia, 2012.
Sergey Pravdin, Mathematical modelling of structure and function of the cardiac left ventri-cle, 18/02/2015.
Arne Defauw, Human heart heterogeneity and its role in the onset and perpetuation of cardiacarrhythmias, 25/02/2015.
A.V. Panfilov CV June 18, 2018 3
Ivan Kazbanov, Biophysical mechanisms of cardiac arrhythmias due to fibrosis and otherpathological conditions, 25/02/2016.
Nina Kudryashova, The fundamental role of cardiac tissue morphology in electrical signalpropagation, 23/04/2018.
External examiner of the PhD thesis:
Alan Garny, 2004 (Oxford University, UK)
Iulia Graf, 2005 (Karlruhe Institute of Technology, Germany)
Nico Kuijpers, 2008 (Technical University of Eindhoven, The Netherlands)
Martyn Bishop, 2008 (Oxford University University, UK)
Nicolas Jeannequin, 2009 (Oxford University, UK)
Andrew Foulkes, 2010, (Liverpool University, UK)
Oussama Jarrousse, 2011 (Karlruhe Institute of Technology, Germany)
Rafel Bordas, 2011 (Oxford University, UK)
Nigel Harrison, 2012, (Liverpool University, UK)
Nathan Kirk, 2012 (Leeds University,UK)
Jatin Relan, 2012 (University of Nice, France)
Jinshan Xu, 2012 ( Ecole Normale Suprieure de Lyon, France)
Said Askar, 2013 (Leiden University, The Netherlands)
Simon Labarthe, 2013 (University of Bordeaux, France)
Douglas Bruce, 2015 (Oxford University, UK)
Ross Morgan, 2016 (KCL, UK)
Tomas Stary, 2016 (Exeter University, UK)
Brian Bingen, 2016 (Leiden University, The Netherlands)
TEACHING:
Various undergraduate and graduate courses on mathematics and mathematical biology.
Developing of the following courses based on own readers and tutorial manuals:
“Qualitative analysis of differential equations of one and two variables”.
“Non-linear dynamical systems”.
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“Theoretical Physiology”.
PROFESSIONAL ACTIVITIES:
Organizer:
A member of the Organizing committee of international conference on excitable media,Pushchino, 1983.
A member of the Organizing committee of international conference on excitable media,Pushchino, 1990.
Organizer of international workshop on Whole heart modelling, Utrecht, The Netherlands,1994.
Organizer of a Session on Whole heart modelling at the 4th ECMTB meeting, ”Theory andMathematics in Biology and Medicine”, Amsterdam, 1999.
A member of the Organizing committee of workshop on non-linear dynamics in excitablemedia, Gent, 2007.
Editorial boards:
PLOS One (Section editor)
PLOS Computational Biology (Guest editor)
Frontiers in Computational Physiology (Associate Editor)
Journal reviewer:
American Journal of Physiology,
Annals of Biomedical Engineering,
Applied Physical Letters,
Biophysical Journal,
Bio-Medical Engineering OnLine,
Bulletin of Mathematical Biology,
Cardiovascular Research,
Circulation,
Circulation Research,
Chaos,
European Biophysics Journal,
A.V. Panfilov CV June 18, 2018 5
Europhysics Letters,
FASEB Journal,
IEEE Transactions on Biomedical Engineering,
IEEE Transactions on Medical Imaging,
Information Technology,
Journal of Cardiovascular Electrophysiology
Journal of Electrocardiology
Journal of Mathemaical Biology,
Journal of Physical Chemistry,
Journal of Theoretical Biology,
Journal of Theoretical Medicine,
Heart Rhythm,
Mathematical Biosciences,
Mathematical Medicine and Biology,
New Journal of Physics,
Nonlinearity,
Nature,
Philosophical Transactions: Physical Sciences and Engineering,
Physics in Medicine and Biology,
PLoS Computational Biology,
PLoS ONE,
Physical Letters,
Physical Review,
Physical Review Letters,
Physica D,
PNAS,
Progress in Biophysics and Molecular Biology,
A.V. Panfilov CV June 18, 2018 6
Progress in Neurobiology,
Royal Society journal INTERFACE,
Science,
SIAM J.Applied Mathematics,
The European Physical Journal B,
The Journal of Physiology
PARTICIPATION IN SCIENTIFIC ORGANIZATIONS:
Member of the Society of Theoretical Biology, Member of the Physiological Society of GreatBritain, Member of the Dutch Society of Theoretical Biology, Member of the American Physio-logical Society.
GRANTS:
Awards since 1993:
For visit of Dr. Vasiev, NWO, 1993.
For organization of International conference “Whole heart modelling”, Utrecht, NWO,93/8449SB140 HSo, 1993.
For visit of Dr. Aliev, NWO, 1994.
Visit to University of Auckland, New Zealand, NWO, 1995.
For visit of Prof. Jalife, NH, 1996.
For visit of Prof. Hunter, NWO, 96/17384a/Tm 1996.
Visit to Conference “ Non-pharmacological management of atrial fibrillation”, London,NH,R95155,1996.
Visit to WCNA, Athens, Greece, NWO, 1996.
For visit of Prof. Keener, NWO, 98/12315a/Tm, 1998.
PhD Project, NWO, 1995.
PhD Project, NWO, 1997.
PhD Project, IWT, 1999.
Time on supercomputer ’Teras’, NCF,SG-006,2001.
For parallelizing code on supercomputer, NCF,NRG-99,2001.
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Time on supercomputer ’Teras’, NCF,SG-095,2002.
Postdoc Project,(e 237,981), NWO, 2003.
Computer system, (e 12,500), NCF, 2003.
The Royal Society (UK) for visit of 25th annual scientific sessions of NASPE (conferencegrant), 2004.
For visit A.M. Pertsov and R. Clayton, NWO,EW,’Incidentele Steun’ scheme, 2004.
PhD project, (e 205,029), NWO, 2005.
PhD project, (e 177,000), NWO, 2007.
SSF Utrecht University, for 3 months visitor, 2008.
PhD project, (e 312.400), FWO, 2011
PhD project, (e 198.000), BOF, Gent University, 2011
Joint PhD project, (18 funding months), BOF, Gent University, 2011
Multidisciplinary Research Partnership (MRP) Bioinformatics: in team from nucleotides tonetworks, (e 2.580.070), BOF, Gent University, 2011
Interuniversity Attraction Poles, (e 580.000), Belspo, (With Prof. L. Leybaert), 2012
Mesenchymal stem cell therapy for atrial fibrillation: a cover to uncover, Ammodo (e 580.000)co-appicant with Dr. D.A.Pijnappels, 2013
”Investigation of arrhythmogenic consequences of connexin hemichannel opening in theheart using biophysical modelling.”, BOF, UGent, (e 404.000), (With Prof. L. Leybaert),2014
Joint PhD project, (24 funding months), ”A discrete biophysical model of cardiac tissue andits application to study cardiac arrhythmias due to tissue anisotropy.”, BOF, UGent, 2016
Grant consultant:
since 1992. Consultant of 3 subsequent NSF grants Department of Mathematics Universityof Utah, USA; (Principal Investigator Prof. J. Keener).
1993-1998. Consultant of the NIH PPG grant at the Department of Pharmacology, SUNY,Syracuse,USA; (Principal Investigator Prof. J.Jalife).
1999-2004. A member of the External Advisory Board of the NIH PPG grant at the Depart-ment of Pharmacology, SUNY, Syracuse,USA; (Principal Investigator Prof. J.Jalife).
Grant reviewer:
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Member of Peer Review College of the Engineering & Physical Sciences Research CouncilUK.
Gerber Foundation, USA.
German Israel Foundation.
Expert, FP7, European Commission.
Expert of the Slovenian Research Agency.
Israel Science Foundation,
National Science Foundation,USA.
Research Council of Norway.
Wellcome Trust Foundation,UK.
Marsden Fund, New Zealand.
Wiener Wissenschafts-, Forschungs- und Technologiefonds (WWTF), Austra.
BBSRC,UK.
MRC,UK.
Natural Sciences and Engineering Research Council of Canada.
Other activities:
Expert STEP Consortium ’Seeding the EuroPhysiome: A Roadmap to the Virtual Physio-logical Human’ (2006-2007).
Panel member of the Slovenian Research Agency.
INVITED PRESENTATIONS (1992-current):
Meeting of the Theoretical Biology Society of the Netherlands, October 9, 1992
International conference ”Nonlinear systems and Cell to Cell signaling”, The Netherlands,November14, 1992
Physiological Institute of University of Bern, Dec 11, 1992
Meeting of the Physiological Society of the Great Britain. Leeds, UK, 14 January 1993
Max Plank Institute, Dortmund, Germany, May 1993
Department of Pharmacology SUNY Health Center, Syracuse, NY, USA, August 1993
Experimental Cardiology, Academic Medical Center, Amsterdam, The Netherlands, 25 Oct.1993
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Zoologiche Institute of University of Munchen, Munchen, Germany, 10 Nov. 1993
Medical Physics and Biophysics, Nijmegen, The Netherlands, 15 Nov. 1993
International workshop: “Whole heart modeling”, Utrecht, The Netherlands, 12 February,1994
ESF-workshop “Biological pattern formation”, Heidelberg, Germany,20-24 June,1994
Department of Cardiology, UCLA, USA 15 Aug.1994
International Conference: “Modeling the heart”, Edinburgh,Scotland,24-28 October,1994
Department of engineering Science of Auckland University,New Zealand, 17 March 1995
Seminar of the Department of Mathematics, Canterbury University New Zealand, 24 March1995
Department of BioMathematics, UCLA, USA 11 April 1995
The Third International Congress on Industrial and Applied Mathematics, Hamburg, Ger-many, 3-7 July, 1995
Center of Nonlinear Studies in Nice,France, approx.mid August,1995
Department of Cardiology of the Harvard Medical School, Boston,USA, 11 December 1995
Heart-lung Institute of Academic Hospital of Utrecht,The Netherlands 15 February 1996
The Second world congress of Nonlinear Analysts, Athens,Greece, 16 July 1996
3rd European Conference on Mathematics Applied to Biology and Medicine. Heidelberg,Germany, October 6. - 10. , 1996
International workshop “Pattern formation in complex fluids and Biology”, Dresden 1-5September, 1997
Department of Chemistry, of Free University of Bruxelles, 17 February, 1998
Congress ”Chaos en Order”, University Utrecht, 6 March, 1998
Cardio-Vascular Research Training Institute, Salt Lake City, UT, USA, 15 April 1998
Department of Cardiology, University of California at Los Angeles, USA,20 April, 1998
Seminar on ”Nonlinearity in complex systems”, of Department of Physics, Otto-von-GrerickeUniversitiet Magdeburg, Germany, 27 April, 1998
Conference at University of Warwick,UK, 1999
The Amsterdam Center for Computational Science, Friday 26 March 1999
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Amsterdam Meeting of society of mathematical biology ”Theory and mathematics in Biol-ogy and medicine”.29June-3July 1999
Workshop ” Nonlinear Systems in Life Sciences”, Leiden, Lorenz centrum, 30 Aug - 2 Sept1999
Institute of Theoretical Biology, Humboldt University, Berlin, Germany. 16 November, 1999
California Institute of Technology, (Computational biology), 6 March 2000
Department of Cardiology, UCLA, 8 March 2000
Department of Mathematics University of Utah, 22 March 2000
Meeting of London Mathematical Society “Modeling Spatiotemporal Dynamics in Interact-ing Systems”, Oxford: March 31st - April 1st, 2000
Pacemaker company “Vitatron” , 19 April 2000
HPCN 2000 congress in Amsterdam, 10 May, 2001
Department of Medical Physics, KUN, 2001
Conference “Issues in Cardiovascular-Respiratory Control Modeling”, Graz, Austria, 15June, 2001
Conference “The integrated heart”, Queenstown, New Zealand, 20 Aug 2001
World Congress of IUPS, Christchurch, New Zealand, August 2001
Isaac Newton Institute for Mathematical studies, University of Cambridge, September, 2001
Department of Cardiac Physiology, University of Manchester, UK, 2001
Department of Mathematics, University of Notre Dame, USA, 28 Nov, 2001
International conference “Dynamics of Networks and Spatially Extended Systems”, Cal-cutta, India, 21-23 January 2002
The SIMBIOS Centre Seminar, Dundee, UK, 21 February, 2002
Institute of cardiovascular research of Free University of Amsterdam,18 March 2002
Netherlands Modeling Club, AMC, Amsterdam, 6 June 2002
EPRSC workshop on engineering virtual tissues and organs, Leeds, UK, 17-18 June 2002
A World Congress in Cardiac Electrophysiology “Cardiostim 2002”, Nice, 19-22 June, 2002
Department of Biomedical Engineering, of the Case Western Reserve University, Cleveland,Ohio, USA, 6 November 2002
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A Workshop on “Mathematical and numerical methods for modeling in the life sciences”,Gent, Belgium, November 28 - 29, 2002
A Workshop ’Systems Biology”, Egmond aan Zee, the Netherlands, 6 - 7 March, 2003
University of Dundee, Scotland, 19 March 2003
Department of Biomedical Engeneering, University of Erlangen, Germany, 27 March 2003
24th Annual Scientific Sessions of the North American Society of Pacing and Electrophysi-ology, Washington DC, USA, 14-17 May, 2003
A Workshop ”Complex Nonlinear Processes”, 11-13 September, Berlin, Germany, 2003
Institute of Biomedical Engineering, Karlsruhe, Germany, 14 October, 2003
Modelling for Integration with Proteins, Networks and Signals Workshop, Sheffield, UK,4-6 November, 2003
School of Comuting and Mathematical Sciences Seminar, Glasgow Caledonian University,Glasgow, UK, 14 November, 2003
Applied Mathematics Seminar, University of Dundee, Dundee, UK, 18 November, 2003
Institute of Biomedical and Life Science, University of Glasgow Glasgow, UK, 10 Decem-ber, 2003
A workshop “Signal Transduction: muscles and synapse”, Columbus, OH, USA, 8-12 March,2004
Department of Applied Mathematics, University of Liverpool, UK, 24 March 2004
Conference “Electromechanical behaviour of the heart: confronting models with data to-wards medical applications”, Rocquencourt, France, 26-30 April, 2004
25th Annual Scientific Sessions of the North American Society of Pacing and Electrophysi-ology, San Francisco, USA, 19-22 May, 2004
Congress in Cardiac Electrophysiology “Cardiostim”, Nice, France, 16-19 June, 2004
Conference “Cardiac Cellular Electrophysiology: From funny currents to the current Phys-iome”, Montpellier, 3-5 September, 2004
Workshop “Russian science and the physiome project”, Ekaterniburg, Russia, 24-25 Septem-ber, 2004
Workshop “Computational Modelling in Biology”, Oxford, UK, 1-3 October, 2004
Netherlands Conference on Bioinformatics, Groningen, Netherlands, 7-8 October, 2004
Department of Physiology, Oxford University, UK, 20 October, 2004
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Colloquium, Faculty of Biology, Utrecht University, Netherlands, 31 March, 2005
International Conference on Theoretical Physics,’TD70’, Moscow, Russia, 11-16 April, 2005
Colloquium, Biocomplexity Institute, Indiana University, Bloomington, USA, 4 May, 2005
Heart Rhythm 2005 Scientific Sessions, New Orleans, USA, 4-7 May, 2005
Conference ”Cardiovascular Physics - Model Based Data Analysis of Heart Rhythm”, Physikzen-trum Bad Honnef, Germany, 9-11 May, 2005
Workshop on ”Oscillations and (in-)stability: Control near and far from equilibrium in Biol-ogy”, the Lorentz Center, Leiden, the Netherlands, 23 May- 3 June 2005 (2 lectures)
The summer school “Control Theory with Modeling Applications to Physiology and Medicine”,Schloss Seggau, Austria, 24 July- 5 August, 2005 (5 lectures)
Integrated Biology Workshop, Oxford, UK, 29-30 September 2005
Departement de Genetique et Procreation, University of Grenoble ,France, 18 October, 2005
Workshop ’Applications of Methods of Stochastic Systems and Statistical Physics in Biol-ogy’, University of Notre Dame, USA, 28-30 October 2005
Weill Medical College, Cornell University, New York City, USA, 4 November 2005
Workshop ’Dynamics of Patterns”, Lorentz Center, Leiden, the Netherlands, 7- 11 November2005
1st European Cardiac Simulation Group Meeting, Manchester, UK, 11-12 November 2005
42nd Dutch Mathematical Congress, Delft, the Netherlands, 27-28 March, 2006
The arctic summer school ”Mathematical Models of the Heart”,Svalbard, Norway, 5-12May,2006 (3 lectures).
Applied Mathematics Colloquium Colloquium, Massachusetts Institute of Technology, Boston,USA, 15 May, 2006
Heart Rhythm 2006 Scientific Sessions, Boston, USA, 17-20 May, 2006
Congress in Cardiac Electrophysiology “Cardiostim”, Nice, France, 13-17 June, 2006
Centre for Systems Biology at Edinburgh, Edinburgh, UK, 13 July, 2006
A workshop “Cardiac Electrophysiology and Arrhythmia”, Columbus, OH, USA, September25-29, 2006
Fifth International Workshop on Computer Simulation and Experimental Assessment ofElectrical Cardiac Function, Lausanne, Switzerland , December 10-12 2006
MAS colloquium, CWI, Amsterdam, January 9, 2007
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BIOSIM07, Manchester, UK, 16 March, 2007
A workshop on Non-linear Dynamics in Excitable Media, Gent, Belgium, 15-18 April, 2007
Weill Medical College of Cornell University, New York, USA, 20 April, 2007
Biomathematics Seminar, Courant Institute of Mathematical Sciences, New York, USA, 24April, 2007
European Heart Modelling Workshop, Oxford, UK, 16-17 May, 2007
A workshop “Nonlinear Collective Behaviour”, Lorentz Center, Leiden, the Netherlands,11-15 June, 2007
Institute of Biomedical Engineering, Karlsruhe, Germany, 26 June, 2007
FEBS 2007 Congress Satellite Workshop “Biosimulations for Pharma Industry”,Vienna,Austria, 9-10 July, 2007
Intergrative Biology workshop, Oxford, UK, 27-28 September, 2007
Conference “Frontiers in Application of Systems Modeling and Simulation”, Long Beach,CA, USA, 5-6 October, 2007
The Institut des Hautes tudes Scientifiques in Bures-sur-Yvette (IHES), France, 19 Decem-ber, 2007
NHLBI-VCU Workshop on Computational Cardiovascular and Cardiopulmonary Dynamics,Richmond, VA, USA, February 23 - March 2, 2008
A Bioengineering research seminar, Auckland, New Zealand, 11 March, 2008
Seminar, AgResearch Ltd.,Ruakura Research Centre, Hamilton, New Zealand, 13 March,2008.
Workshop on Multi-scale Modelling of the Heart, Auckland, New Zealand, 27th-29th March,2008
Biomathematics Seminar, Courant Institute of Mathematical Sciences, New York, USA, 28April, 2008
Weill Medical College of Cornell University, New York, USA, 29 April, 2008
Seminaire Modelisation, simulation et imagerie du myocarde, Paris, France, 18 June 2008.
Seminar series ’Anatomical modelling of the heart and its applications’, Providence Univer-sity, Taiwan, 18-22 July, 2008 (3 lectures).
Seminar, National Center of Theoretical Science, Tsing-Hua, Taiwan, 23-24 July, 2008 (2lectures).
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Workshop ’Frontiers in Computational Electrocardiology’, Maastricht, Netherlands, 17 Septem-ber 2008.
Seminar, Warwick Systems Biology Centre, Warwick, UK, 11 November 2008.
Colloquium, Institute of Theoretical Physics, Technical University of Berlin, Berlin, Ger-many, 20 November 2008.
“Complex nonlinear processes in chemistry and biology”, Berlin, Germany, 22 November2008.
Computational Life Sciences meeting, Hague ,Netherlands , 27 November 2008.
IMS Cardiomaths Seminar, Imperial College London, UK, 2 March 2009 (2 lectures).
Mechanics & Computation Seminar, Stanford University, USA, 12 March 2009.
Seminar at the Institute of Immunology and Physiology, Ural Division of the Russian Academyof Sciences, Russia, 17 April, 2009
Biomathematics Seminar, Courant Institute of Mathematical Sciences, New York, USA, 5May, 2009
Heart Rhythm 2009 Scientific Sessions, Boston, USA, 13-17 May, 2009
Europace 2009, Berlin, Germany, 21 - 24 June, 2009
Cardiac Physiome summer programme at the Isaac Newton Institute, Cambridge, UK, 6,7July 2009 (2 lectures)
Workshop Multi-scale and Multi-physics Mathematical Modelling Applied to the Heart,Cambridge, UK, 20-24 July 2009
“Cardiac Dynamics”, ESF Sceince Meeting, Smolenice, Slovakia, 24-27 August, 2009
NHLBI-VCU Workshop Modeling the Heart in 3D, Richmond, VA, USA, October 15 -October 17, 2009
’Bi-domian’ workshop, Graz, Austria, 29-31 October, 2009
Workshop “Software and Device System for Non-Invasive Electrophysiological Study ofHeart”, Nurenberg, Germany, 11-12 December, 2009
“Interdisciplinary Workshop on Pattern Formation in Morphogenesis”, (Invited Mathemati-cian), IHES, Bures-sur-Yvette. France, 11-15 January 2010
“Inauguration Symposium of the Cardiovascular Physics Group”, Berlin, Germany, 14 Jan-uary, 2010
Colloquium in the Departments of Mathematics and Theoretical Physics in Durham, UK, 19January, 2010
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Gordon Research Conference “Oscillations & Dynamic Instabilities In Chemical Systems”,Il Ciocco Hotel and Resort in Lucca (Barga) Italy, 4-9 July 2010
Colloquium, Department of Physics, Indian Institute of Science, Bangalore, India 17 Septem-ber 2010.
Colloquium, of the Institute of Mathematical Sciences, Chennai, India, 29 September 2010.
Colloquium, Department of Physics, Goa University, Goa, India, 8 October 2010.
Seminar of the School of Physical Sciences of the Jawaharlal Nehru University, New Delhi,India, 19 October 2010.
Workshop “Physiology and Biophysics of myocardium”, Ekaterniburg, Russia, 27-29 April,2011.
Seminar of the New York University School of Medicine, New York, USA, 10 May, 2011.
Institute of Biomedical Engineering, Karlsruhe, Germany, 20 May, 2011.
Workshop on Interdisciplinary Biomedical Research, London, UK, July 18th - 19th, 2011.
9th International Conference of Numerical Analysis and Applied Mathematics, Halkidiki,Greece, 19-25 September 2011.
Seminar at the Institute of Henri Poincare, Paris, 17 January 2012
International Conference on Mathematical and Theoretical Biology, Pune, India, 23-27 Jan-uary 2012
76th Annual Meeting of the DPG, Berlin, 25 - 30 March 2012
Colloquium, Max Planck Institute for Dynamics and Self-Organization, Goettingen, Ger-many, 11 April 2012
Seminar at Nizhny Novgorod State University, Nizhny Novgorod, Russia, 24 May 2012
International Conference ”Instabilities and Control of Excitable Networks: From macro- tonano-systems”, Dolgoprudny, Russia, May 25-30, 2012
International Conference ”Ginzburg conference on Physics ”, Moscow , Russia, May 28-June 2, 2012
Seminar at INRIA research centre, Sofia Antipolis, France, 20 June 2012
Seminar at Centre de Recherche Cardio-Thoracique, Pessac, France, 28 September 2012
International Conference NonEquilibrium Collective Dynamics: Bridging the Gap betweenHard and Soft Materials, Potsdam, Germany, October 1-4, 2012
Seminar Department of Basic Medical Sciences, Gent University, Gent, Belgium, 1 February2013
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Seminar at the Department of Human and Engeneered Environmental Studies, GraduateSchool of Frontier Sciences, Tokyo University, Tokyo, Japan, 2 April 2013
Ritsumeikan-Shiga Universities Joint Seminar on Cardiac Arrhythmias at Shiga Universityof Medical Science, Otsu, Japan, 9 April 2013
International Conference ”Modelling of Physiological Flows, MPF 2013”, Chia Laguna,Italy, 11-14 June, 2013
International Conference ”Channelopathy Meeting”, Moscow , Russia, June 21-22, 2013
1st International Workshop on Latest Advances in Cardiac Modelling, Garching, Germany,10-11 July, 2013
Seminar at the Department Cellular Biophysics, Imperial College London, London, UK,16September, 2013
The 5th Workshop on Mathematical Models and Numerical Methods in Biology and Medicine,Moscow, Russia, 29-30 October 2013
Seminar at the Department Mathematics, University of Milan, Milan, Italy,5 March, 2014
Conference Sudden Death: from risk stratification to prevention, Saint-Petersburg, Russia,11-13 September 2014
Seminar, Department of Mathematics, University of Warwick Warwick, UK, 16 January2015
Special seminar at the Institute of Radioelectronics and Information technologies, Ural Fed-eral University, Ekaterinburg, Russia, 17 February 2015
Cardiac Physiome Workshop, Auckland, New Zealand, 8-10 April, 2015
Cardiac Electrophysiology Meeting, Auckland, New Zealand, 11 April, 2015
1st Pan American Congress on Computational Mechanics, Buenos Aires, Argentina, 27-29April 2015
Workshop Theory at sea, Ostend, Belgium, 21-22 May 2015
Talk at the Department of Cardiac Surgery, Irkutsk regional Hospital, Irkutsk, Russia, 12August 2015
Scientific conference Computing in Cardiology, Nice, France, 6-9 September, 2015
Workshop on Mathematical Physiology of Cardiac, Skeletal and Smooth Muscles Scientificconference Computing in Cardiology, Pisa, Italy, 5-9 October, 2015
The 7th Workshop on Mathematical Models and Numerical Methods in Biology and Medicine,Moscow, Russia, 30 October-3 November 2015
A.V. Panfilov CV June 18, 2018 17
Workshop ”Mathematical Modelling in Physiology: biomedical applications”, Moscow, Rus-sia, 21-24 March 2016
Conference ”Experimental and computational biomedicine”, Ekaterinburg, Russia, 10-12April, 2016
Mathematical Biology seminar, Salt Lake City, UT, USA, 2 May 2016
A World Congress in Cardiac Electrophysiology ’Cardiostim”, Nice, 8-11 June, 2016
Conference ”Saint Petersburg Arrhythmia Forum”, Saint-Petersburg, Russia, 23-25 June2016
Mackie-2016 Symposium, Gent, Belgium, 29 June 2016
Center for Research and Innovation in Bioengineering, Universitat Politecnica de Valencia,Valencia, Spain, 26 July, 2016
Division of Biomedical Engineering, University of Cape Town, South Africa, 31 August2016
Sunninghill Hospital, Johannesburg, South Africa , 15 September 2016
Seventh International Conference on Multiscale Modelling and Methods: Upscaling in En-gineering and Medicine , Santiago, Chile, January 16-17, 2017
1st Summer School on Cardiovascular Modeling, 4 lectures, Santiago, Russia, January 18-20, 2017
Conference Actual problems of mathematics and its applications, Ekaterinburg, Russia,February 5-11, 2017
Royal Society International Scientific Seminar Incorporating Uncertainty into Cardiac Phys-iome Simulations. February 15-16, 2017
Conference Mathematical and Numerical Modeling of the Cardiovascular System and Ap-plications, Pavia, Italy, February 21-22, 2017
Seminar at the Centre for Cardiac Research, University La Plata, Argentina, March 15, 2017
Conference on Fundamental Clinical Cardiac Physiology. Kazan, Russia, April 7-8, 2017
Conference Days on Diffraction, Saint Petersburg, Russia, June 19-23, 2017
Seminar at INRIA research centre, Sofia Antipolis, France, 28 August 2017
Conference Actual problems of mathematics and its applications, Ekaterinburg, Russia,February 4-10, 2018
(IB)2 Seminar, Brussels, Belgium, 23 February, 2018
A.V. Panfilov CV June 18, 2018 18
INdAM Workshop ”Mathematical and Numerical Modeling of the Cardiovascular System”,Rome, Italy, 16-19 April, 2018
Seminar at Department of Physics, University of Rhode Island, USA, 26 April , 2018
Biomathematics Seminar, Courant Institute of Mathematical Sciences, New York, USA, 8May, 2018
II St. Petersburg Arrhythmology Forum, Saint-Petersburg, Russia, 7-9 June 2018
Forum of young arrhythmologists in basic arrhythmology, Saint-Petersburg, Russia, 8-9 June2018
BIBLIOGRAPHY (current Google Scholar h-index 53, Web of Science h-index 43) :
1. A.K.Grenadier, A.V.Panfilov, Spiral waves in myocard (theoretical analytics); Biofizica v.26,p.1107-1108, (1981)
2. A.V.Panfilov, A.M.Pertsov, L.I.Churicova, Increase of heteroge- neties at the interface ofdecrement conduction in Hodgkin- Huxley model; Boifizica v.26 (1981)p.1082-1085,(1981)
3. A.M.Pertsov, R.N.Khramov, A.V.Panfilov, Sharp increase in refractory period induced byexcitation suppression in Fitz-Hugh-Nagumo model. New mechanism of antiarrhythmicdrug action; Biofizica v.26, p.1077-1081,(1981)
4. A.M.Pertsov, A.V.Panfilov, Spiral waves in active media. Reverberator in the Fitz-Hugh-Nagumo model; in book ”Auto- waves processes in systems with diffusion”. Gorky, IPF,p.77-84, (1981)
5. Yu.A.Kuznetsov, A.V.Panfilov, Stochastic waves in the Fitz-Hugh-Nagumo model; PreprintNCBI Pushchino, 9p, (1981)
6. A.V.Panfilov, A.M.Pertsov, Mechanism of spiral waves initiation in active media connectedwith critical curvature phenomenon; Biofizica v.27, p. 886-889,(1982)
7. A.V.Panfilov, O.A.Mornev, M.A.Tsiganov, V.I.Krinsky, Analytical estimation of reverbera-tor period in an arbitrary active medium; Biofizica v.27, p.1064-1068,(1982)
8. A.M.Pertsov, A.V.Panfilov, F.U.Medvedeva, Instabilities of auto- waves in excitable mediaassociated with critical curvature phenomenon; Biofizica v.28, p.100-102, (1983)
9. A.M.Pertsov, E.A.Ermakova, A.V.Panfilov, Spiral waves rotating around a hole and rever-berators in the Fitz-Hugh-Nagumo model; Preprint OIChPh Chernogolovka, 13p, (1983)
10. K.I.Agladze, N.A.Gorelova, G.G.Zurabishvily, A.S.Mikhailov, A.V.Panfilov, M.A.TsiganovThe autowaves control; NCBI Pushchino,48p, (1983)
11. A.N.Rudenko, A.V.Panfilov, Drift and interaction of vortices in two-dimensional heteroge-neous active medium; Studia Biophysica, v.98, p.183-188, (1983)
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12. A.V.Panfilov, A.M.Pertsov, Vortex ring in three-dimensional active medium in described byreaction-diffusion equations; Doklady Akademii NAUK SSSR v.274, p.1500-1503, (1984)
13. A.V.Panfilov, A.N.Rudenko, A.M.Pertsov, Twisted scroll waves in three- dimensional activemedia; Doklady Akademii Nauk SSSR v.279 p.1000-1002, (1984)
14. R.N.Khramov, A.N.Rudenko, A.V.Panfilov, V.I.Krinsky, Drift of vortices in heterogeneousactive medium (simplified analysis); Studia Biophysica, v.102, p.69-74, (1984)
15. A.M.Pertsov, E.A.Ermakova, A.V.Panfilov, Rotating spiral waves in a modified Fitz-Hugh-Nagumo model;Physica v.14D, p.117-124, (1984)
16. A.B.Medvinsky, A.V.Panfilov,A .M.Pertsov, Properties of rotating waves in three dimen-sions. Scroll rings in myocard; in book ”Self-Organization. Autowaves and Structures Farfrom Equilibrium. Ed. V.I.Krinsky, Springer-Verlag, Berlin,Heidelberg, New York, Tokyo,p.195-199, (1984)
17. A.V.Panfilov, A.N.Rudenko, A.M.Pertsov, Twisted scroll waves in three- dimensional activemedia; in book ”Self-Organization. Autowaves and Structures Far from Equilibrium. Ed.V.I.Krinsky, Springer-Verlag, Berlin, Heidelberg, New York, Tokyo, p.103- 105, (1984)
18. V.I.Krinsky, A.S.Mikhailov, A.V.Panfilov, E.A.Ermakova, M.A.Tsiganov , Spiral waves inactive media; Radiofizica v.27, p.1116-1129, (1984)
19. A.V.Panfilov, A.N.Rudenko, A.T.Winfree, Twisted scroll rings in three- dimensional activemedia; Biofizica v.30, p.464- 466, (1985)
20. A.S.Mikhailov, A.V.Panfilov, A.N.Rudenko, Twisted scroll waves in active three- dimen-sional media; Physics Letters v.109A, p.246-250, (1985)
21. A.V.Panfilov, A.T.Winfree, Dynamical simulations of twisted scroll rings in three- dimen-sional excitable media; Physica v.17D, p.323-330, (1985)
22. E.A.Ermakova, V.I.Krinsky, A.V.Panfilov, A.M.Pertsov,Interaction between spiral and flatperiodic autowaves in an active medium; Biofizica v.31, p.318-323, (1986)
23. A.V.Panfilov, A.N.Rudenko, V.I.Krinsky, Scroll rings in three- dimensional active mediumwith two component diffusion; Biofizica v.31, p.850-854, (1986)
24. K.B.Aslanidi, A.V.Panfilov, The Boyle-Conway model including the effect of an electro-genic pump for nonexcitable cells; Mathematical Biosciences v.79, p.45-54, (1986)
25. A.V.Panfilov, A.N.Rudenko, Three-dimensional vortices in active medium; in book ”Siner-getics”. Shtinitza,Kishinev, p.21-22, (1986)
26. K.B.Aslanidi, A.V.Panfilov, Metabolic regulation of ionosmotic homeostasis of elecrounex-citable cells; Biofizica v.31, p.814-819, (1986)
27. Book: V.I.Krinsky, A.B.Medvinsky, A.V.Panfilov, Evolution of Autowave Vortices; MoscowZnanie, (1986)
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28. G.R.Ivanitsky, A.V.Panfilov, M.A.Tsiganov, Pulsation mechanism of spatial distribution ofpopulation numbers of dividing bio objects; Biofizica v.32, p.354-356, (1987)
29. A.V.Panfilov, A.N.Rudenko, Two regimes of the scroll ring drift in the three-dimensionalactive media; Physica v.28D, p.215-218, (1987)
30. A.V.Panfilov,M.A.Tsiganov, Wave propagation in the reaction- diffusion equations in bothcomponent diffusion; Deponent VINITI 8027-B87, 24p, (1987)
31. A.V.Panfilov, M.A.Tsiganov, Dependence of front velocity on its curvature in reaction-diffusion equations with both component diffusion; in book:”Collective dynamics of ex-citation and pattern formation in biological tissues”. IPF,Gorky, p.178-184, (1988)
32. A.V.Panfilov, M.A.Tsiganov, L.R.Gainulina, Doppler shift in active media; in book:”Collectivedynamics of excitation and pattern formation in biological tissues”. IPF,Gorky, p.185-189,(1988)
33. K.I.Agladze, A.V.Panfilov, A.N.Rudenko, Nonstationary rotation of spiral waves: three-dimensional effect; Physica v.29D, p.409-415, (1988)
34. A.V.Panfilov, B.N.Vasiev, Studying of the reverberator arising in nonhomogeneous activemedium; Preprint, Pushchino, NCBI, 16p, (1989)
35. B.N.Vasiev, A.V.Panfilov, Reverberator in coupled fibers model; Preprint, Pushchino, NCBI,23p, (1989)
36. B.N.Vasiev, A.V.Panfilov, K.I.Agladze, Drift of the reverberator in thin layer of B-Z reactionwith temperature gradient; in book ”Proceedings of the conference of young scientists of theNCBI”. Pushchino, NCBI, p.26-30, (1989)
37. G.R.Ivanitsky, V.I.Krinsky, A.V.Panfilov, M.A.Tsiganov, Two regimes of the drift of rever-berators in nonhomogeneous active media; Biofizica v.34, p.297-299, (1989)
38. A.V.Panfilov, R.R.Aliev, A.V.Mushinsky, An integral invariant for scroll rings in a reaction-diffusion system; Physica v.36D, p.181-188, (1989)
39. K.I.Agladze, V.I.Krinsky, A.V.Panfilov, H.Linde, L.Kuhnert, Three- dimensional vortex witha spiral filament in a chemically active medium; Physica v.39D, p.38-42, (1989)
40. V.I.Krinsky, A.V.Panfilov, Parallel image processing ; in book ”Biotechnics - a new branchof computer science”. ed G.R.Ivanitsky, Moscow Nauka, (1989)
41. V.I.Krinsky, A.V.Panfilov, Autowaves for parallel image processing; in book ”Nonlinearwaves, Dynamics and Evolution”. ed.A.V.Gaponov-Grekhov and M.I.Rabinovich, Springer-Verlag, (1990)
42. A.V.Panfilov, A.V.Holden. Self-generation of turbulent vortices in a two-dimensional modelof cardiac tissue. Phys.Lett.A v.151, p.23-26, (1990)
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43. A.V.Panfilov, A.V.Holden. Vortices in a system of two coupled excitable fibers. Phys.Lett.A,v.147, (1990), p.463 -466, (1990)
44. A.V.Panfilov, Three-dimensional vortices in active media; in book ”Nonlinear wave pro-cesses in excitable media” ed. A.V.Holden, M.Markus and H.G.Othmer Plenum Press NewYork, p.361-382, (1991)
45. A.V.Panfilov, A.V.Holden “Graphical identification of spatio -temporal chaos”. Computersand Graphics, v.15, p.301-302, (1991)
46. A.V.Panfilov, B.N.Vasiev. The drift of a vortex in an inhomogeneous system of two coupledfibers. Chaos, solitons and fractals, v.1, pp.119-129, (1991)
47. A.V.Panfilov, A.V.Holden. Spatio- temporal irregularity in a two- dimensional model ofcardiac tissue, Int. J. Bifurcation and Chaos v.1, p.219-255, (1991)
48. A.V.Panfilov, B.N.Vasiev. Vortex initiation in a heterogeneous excitable medium, Physica Dv.49, p.107-113, (1991)
49. J.P. Keener and A.V.Panfilov,”Scroll waves in myocardium”. in “Spatio-Temporal Organi-zation in Nonequilibrium systems”. ed. S.Mueller and Th. Plesser, Dortmund,p.119-121,(1992)
50. O.A.Mornev, A.V.Panfilov and R.R.Aliev,”The FitzHugh-Nagumo system of equations is agradient system”. Biophysics,v.37,pp.104-106, (1992)
51. A.V.Panfilov, A.V.Holden “Computer simulation of re-entry sources in myocardium in twoand three dimensions”. J. theor. Biol, v.161,pp.271-285, (1993)
52. A.V.Panfilov and P.Hogeweg,”Spiral break-up in a modified FitzHugh Nagumo model”.Phys. Lett. A,v.176,pp.295-299,1993
53. A.V.Panfilov, J.P. Keener. Re-entry generation in anisotropic twisted myocardium.J Cardio-vasc. Electrophys.,v.4,pp.412-421, (1993)
54. A.V.Panfilov, J.P.Keener. Effects of high frequency stimulation in excitable medium withobstacle. J Theor. Biol.,v.163, p.439-448, (1993)
55. A.V.Panfilov, J.P.Keener,”Twisted scroll waves in heterogeneous excitable media”. Int, J.Bif. and Chaos, v.3,p.445-450, (1993)
56. A.V.Panfilov and J.P. Keener,”Modeling reentry in a finite element model of the heart”.J.Physiol.,v.467,p.152P, (1993)
57. J.P. Keener and A.V.Panfilov,”Three dimensional propagation in the heart: The effects ofGeometry and Fiber orientation on Propagation in Myocardium”. in the book”Cardiac Elec-trophysiology and Arrhythmias”. Ed.D.P. Zipes and J. Jalife, 2nd edition,p.335-347, (1994)
58. K. Agladze, J. Keener, S.C. Muller and A. Panfilov,”Rotating spiral waves created by geom-etry”. Science, v.264, 1746-1748, (1994)
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59. B.N.Vasiev,A.V.Panfilov and R.N.Khramov,”Large pulsating waves in a one-dimensional ex-citable medium”. Phys.Lett.A,v.192,227-232, (1994)
60. B.N.Vasiev,P.Hogeweg and A.V.Panfilov,”Simulation of Dictyostelium Aggeregation via Reaction-Diffusion Model”. Phys. Rev. Lett, v.73,p.3173-3176 , (1994)
61. R.A.Gray,J.Jalife,A.V.Panfilov et al.,”Nonstationary vortex like reentrant activity as a mech-anism of polymorphic ventricular tachycardia in the isolated rabbit heart”. Circulation,v.91,p.2454-2469, (1995)
62. A.V.Panfilov and J.P. Keener, “Re-entry in an anatomical model of the heart”. Chaos Solitonsand Fractals,v.5,p.681-689, (1995)
63. R.A.Gray,J.Jalife,A.V.Panfilov et al.,”Mechanisms of cardiac fibrillation”. Science, v.270,p.1222-1223, (1995)
64. A.V.Panfilov, J.P Keener,” Dynamics of dissipative structures in excitable media”. SIAM J.Appl. Math.v.55,p.205-219, (1995)
65. A.V. Panfilov, J.P.Keener Re-entry in three-dimensional myocardium with twisted anisotropy,Physica D,v.84,p.545-552, (1995)
66. R.R.Aliev and A.V.Panfilov,”Multiple responses at the boundaries of vulnerability windowin the BZ reaction”. Phys.Rev.E,v.52,3,p.2287-2293, (1995)
67. A.V.Panfilov and P.Hogeweg ,”Mechanisms of cardiac fibrillation”. Science, v.270,p.1223-1224, (1995)
68. R.R.Aliev and A.V.Panfilov,” A simple two-variable model of cardiac excitation”. Chaos,solitons and fractals, v.7,p.293-301, (1996)
69. A.V.Panfilov and P.Hogeweg ,”Scroll break-up in a three-dimensional excitable media”.Phys.Rev.E, v.53,2,p.1740-1743, (1996)
70. R.R.Aliev and A.V.Panfilov,’ Modeling of heart excitation patterns caused by a local Inho-mogeneity”. J.theor.biol. v.181,p.33-40, (1996)
71. J.P.Keener and A.V.Panfilov, ”A biophysical model for defibrillation of cardiac tissue”. Bio-phys.J., v.71,p.1335-1345, (1996)
72. C. Van Oss, A.V. Panfilov, P.Hogeweg, F.Siegert, C.J. Weijer, ”Spatial pattern formation dur-ing aggregation of the slime mould Dictyostelium discoideum”. J. Theor. Biol.,v.181,p.203-213, (1996)
73. J.P.Keener and A.V.Panfilov,”Front tracking methods for wave propagation in myocardium”.in ”Computational Biology of the Heart’. ed. A.V. Panfilov and A.V. Holden, Wiley,p.235-258, (1997)
74. A.V.Holden, A.V.Panfilov, “Modeling propagation in excitable media”. in ”ComputationalBiology of the Heart’. ed. A.V. Panfilov and A.V. Holden, Wiley, p.65-100, (1997)
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75. A.V.Panfilov,” Modelling of reentrant patterns in an anatomical model of the heart”. in”Computational Biology of the Heart’. ed. A.V. Panfilov and A.V. Holden, Wiley,p.259-276, (1997)
76. Editing of book: A.V.Panfilov, A.V.Holden,”Computational Biology of the Heart”. Wiley,(1997)
77. A.F.M. Maree and A.V. Panfilov,’Spiral breakup in excitable tissue due to lateral instability’.Phys.Rev.Lett., v.78,p.1819-1822, (1997)
78. A.V.Panfilov,”Spiral breakup as a model of ventricular fibrillation” , Chaos, v.8,p.57-64,(1998)
79. A.V.Panfilov,”Three-dimensional organization of electrical turbulence in the heart”. Phys.Rev.E, v.59, p.R6251-R6254, (1999)
80. A.F.M. Maree, A.V. Panfilov, and P.Hogeweg, “Phototaxis during the slug stage of Dic-tyostelium discoideum: a model study”. Proc.R.Soc.Lond.B, v.266,p.1351-1360, (1999)
81. A.F.M. Maree, A.V. Panfilov, and P.Hogeweg, “Migration and thermotaxis of Dictyosteliumdiscoideum slugs, a model study”. J. theor. Biol,v.199,p.297-309, (1999)
82. A.V.Panfilov,”Three dimensional wave propagation in mathematical models of ventricularfibrillation”. in the book”Cardiac Electrophysiology. From cell to bedside”. Sauners Com-pany,Ed.D.P. Zipes and J. Jalife, 3nd edition,p.271-276, (1999)
83. A.V.Panfilov, S.C. Mueller, V.S. Zykov and J.P.Keener, ” Elimination of spiral waves incardiac tissue by multiple electrical shocks”. Phys.Rev.E,v.61, p.4644-4647, (2000)
84. P.L. Kerkhof, A. V. Panfilov, J.K.J. Li, “Dissociation of variability in electrical and mechan-ical parameters of left ventricular function”, FASEB Journal, v.14, pp. A156-A156,(2000)
85. C. W. Zemlin, A. V. Panfilov “Spiral waves in excitable media with negative restitution”.Phys. Rev. E 63, 041912, (2001)
86. C. W. Zemlin, H.Herzel, S.Y.Yen Ho, A.V.Panfilov “A realistoc and efficient model of ex-citation propagation in the human atria”. in book; “Computer simulation and experimentalassessment of cardiac electrophysiology”. Edited by Virag N., Blank O, and KappembergerL., Future publishing Company Inc., Armonk N.Y.,p.29-34,(2001)
87. A.V.Panfilov, A.M.Pertsov “Ventricular fibrillation: evolution of the multiple-wavelet hy-pothesis”. Phil. Trans. Roy. Soc.A., v.359, pp.1315-1326, (2001)
88. J.J.A. van Boxtel, A.V. Panfilov, ”Spiral breakup in an array of coupled cells. The role of thegap junctional conductance”. XXXIVth International Congress of Physiological Sciences,Christchurch, New Zealand, 440, (2001)
89. Bernus O, Wilders R, Zemlin CW, Verschelde H, Panfilov AV.,’A realistic and efficient modelof human ventricular tissue.’. Proc. Physiol. Soc. New Zealand, v.20,Suppl.1,p.18, (2001)
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90. Rusakov AV, Aliev AA, Panfilov AV, Medvinskii AB.”Instability of a three-dimnsional linearvortex in a simple model of a heterogeneous excitable medium’. Biofizika. Jan-Feb;47(1):111-5,(2002)
91. Bernus O, Verschelde H, Panfilov AV.,’Modified ionic models of cardiac tissue for efficientlarge scale computations.”. Phys Med Biol. Jun 7;47(11):1947-59, (2002)
92. Bernus O, Wilders R, Zemlin CW, Verschelde H, Panfilov AV.,’A computationally efficientelectrophysiological model of human ventricular cells.’. Am J Physiol., v. 282(6):H2296-308, (2002)
93. Panfilov AV., ’Spiral breakup in an array of coupled cells: the role of the intercellular con-ductance’. Phys Rev Lett., v.88(11):118101, (2002)
94. Panfilov AV., Zemlin CW., “Wave propagation in an excitable medium with a negativelysloped restitution curve”. Chaos,v.12,p.800-806, (2002)
95. Bernus O. ,Van Eyck B, Verschelde H, Panfilov AV, “Transition from ventricular fibrillationto ventricular tachycardia: a simulation study on the role of calcium-channel blockers inhuman ventricular tissue”. Phys Med Biol 47: 4167-4179, (2002)
96. Ten Tusscher K.H, Panfilov AV.,’ Reentry in heterogeneous cardiac tissue described by theLuo-Rudy ventricular action potential model.’. Am.J.Physiol., v.284, :H542-548, (2003)
97. Medvinskii AB, Rusakov AV, Moskalenko AV, Fedorov MV, Panfilov AV.., ’The study ofautowave mechanisms of electrocardiogram variability during high frequency arrhythmias:mathematical modeling data”. Biofizica,v.48:314-323, (2003)
98. Bernus O. , Verschelde H, Panfilov AV, ‘Spiral wave stability in cardiac tissue with biphasicrestitution”, Phys. Rev. E v.68, 021917, (2003)
99. Rusakov AV, Panfilov AV, Medvinskii AB.,”Unidirectional block of propagation of a singleautowave in a narrow gap and emergence of a two-dimensional reentry depends on geometryof the obstacle and on excitability of the media”. Biofizica,v.48:722-726, (2003)
100. Ten Tusscher K.H, Panfilov AV.,’ Influence of nonexcitable cells on spiral breakup in two-dimensional and three-dimensional excitable media”, Phys. Rev. E v.68, 062902, (2003)
101. Bernus O. , Verschelde H, Panfilov AV, ‘Reentry in an anatomical model of the human ven-tricles, International Journal of Bifurcation and Chaos,v.13,p.3693-3702,(2003)
102. Panfilov AV.,Kerkhof PLM, ’Quantifying ventricular fibrillation: in silico research and clin-ical implications’, IEEE Trans. Biomed. Eng,v.51,p.195-196,(2004)
103. Ten Tusscher K.H, Noble D, Noble PJ,Panfilov AV.,’ A model for human ventricular tissue.’.Am.J.Physiol.,v.286,p.H1573-1589,(2004)
104. Nash M.P and Panfilov A.V., ’Electromechanical model of excitable tissue to study re-entrantcardiac arrhythmias’,Progress in Biophysics and Molecular Biology,v.85,p 501-522,(2004)
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105. Ten Tusscher KHWJ, Panfilov, A. V.,’Eikonal formulation of the minimal principle for scrollwave filaments’.Phys. Rev. Lett,v.93,108106,(2004)
106. Ten Tusscher KHWJ, Panfilov, A. V.,’ Wave Propagation in Excitable Media with RandomlyDistributed Obstacles’, SIAM Journal of Multiscale Modeling & Simulation,v.3,pp. 265-282,(2005)
107. Ten Tusscher K.H, Noble D, Noble PJ, Panfilov AV., Comments on ”A model for humanventricular tissue”, Am.J.Physiol.,v.288,p.H253-254,(2005)
108. Rusakov AV, Medvinsky AB.,Panfilov AV,”Scroll waves meandering in a model of an ex-citable medium”, Phys. Rev. E v.72, 022902/1-022902/4,(2005)
109. Panfilov A.V. , Keldermann R.H., Nash M.P.,”Self-Organized Pacemakers in a CoupledReaction-diffusion-mechanics System”, Phys. Rev. Lett, v.95,258104/1-258104/4,(2005)
110. Clayton RH, Zhuchkova EA, Panfilov AV., “Phase singularities and filaments: Simplifyingcomplexity in computational models of ventricular fibrillation”, Prog Biophys Mol Biol,v.90,378-398,(2006)
111. Ten Tusscher KH, Bernus O, Hren R, Panfilov AV., “Comparison of electrophysiologi-cal models for human ventricular cells and tissues”, Prog Biophys Mol Biol, v.90,326-345,(2006)
112. Panfilov AV., “Is heart size a factor in ventricular fibrillation? Or how close are rabbit andhuman hearts?”,Heart Rhythm,v.3,862-864 ,(2006)
113. Ten Tusscher K.H, Panfilov AV., ”Alternans and spiral breakup in a human ventricular tissuemodel”, Am.J.Physiol.,v.291(3),p.H1088-1100,(2006)
114. Ten Tusscher K.H, Panfilov AV., ”Cell model for efficient simulation of wave propagationin human ventricular tissue under normal and pathological conditions.’, Phys Med Biol.v.51,p.6141-6156,(2006)
115. Keldermann R.H., Nash M.P., Panfilov A.V. ”Pacemakers in a reaction-diffusion mechanicssystem”, Journal of Statistical Physics,v.128,p.375-392,(2007)
116. Alonso S., Panfilov AV., “Negative filament tension in the Luo-Rudy model of cardiac tis-sue”, Chaos, v.17,015102/1-015102/9, (2007)
117. Panfilov A.V., Keldermann R.H., Nash M.P., ”Drift and breakup of spiral waves in reaction-diffusion-mechanics systems”,Proc. Natl. Acad. Sci. USA, v.104,p.7922-7926, (2007)
118. Ten Tusscher KH, Hren R, Panfilov AV., “Organization of ventricular fibrillation in the hu-man heart”, Circulation Research, v.100,p.e87-101,(2007)
119. Ten Tusscher K.H, Panfilov AV., ”Influence of diffuse fibrosis on wave propagation in humanventricular tissue”, Europace, v.9,p.v138-v145,(2007)
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120. Ten Tusscher KH, Panfilov AV., “Modelling of the ventricular conduction system.”, ProgBiophys Mol Biol, v.96,p.152-170,(2008)
121. Keldermann R.H., ten Tusscher K.H.W.J., Nash M.P., Hren R., Taggart P., Panfilov A.V.,”Effectof heterogeneous APD restitution on VF organization in a model of the human ventricles”,Am. J. Physiol., v.294,p.H764-H774,(2008)
122. Clayton RH, Panfilov AV., “A guide to modelling cardiac electrical activity in anatomicallydetailed ventricles”, Prog Biophys Mol Biol, v.96,p.19-43,(2008)
123. Alonso S., Panfilov AV., “ Negative Filament Tension at High Excitability in a Model ofCardiac Tissue”, Phys. Rev. Lett.,v. 100, 218101/1-218101/4, (2008)
124. Makkes van der Deijl G.B., Panfilov AV.,”Formation of fast spirals on heterogeneities of anexcitable medium”, Phys.Rev.E.,v.78, 012901/1-012901/4 (2008)
125. Keldermann RH, Ten Tusscher KH, Nash MP, Bradley CP, Hren R, Taggart P, PanfilovAV.,’A computational study of mother rotor VF in the human ventricles.’, Am J Physiol.,Heart Circ Physiol.,v.296,p.H370-H379,(2009)
126. Ten Tusscher KH, Mourad A, Nash MP, Clayton RH, Bradley CP, Paterson DJ, Hren RH,Hayward M, Panfilov AV, Taggart P., ’Organization of ventricular fibrillation in the humanheart: experiments and models’, Exp Physiol.v.94,p.553-562,, (2009)
127. Keldermann R.H., Nash M.P., Panfilov A.V. ”Modeling cardiac mechano-electrical feedbackusing reaction-diffusion-mechanics systems”, Physica D, v.238,p.1000-1007,(2009)
128. Bernus O., Holden A.V., Panfilov A.V. ”Nonlinear waves in excitable media: Approaches tocardiac arrhythmias”, Physica D, v.238,p.v-viii,(2009).
129. A.V.Panfilov,”Theory of Reentry”, in the book” Cardiac Electrophysiology: From Cell toBedside, 5th Edition”,Elsevier, Ed.D.P. Zipes and J. Jalife,p.329-337, (2009)
130. Keldermann RH, Nash MP, Gelderblom H, Wang VY, Panfilov AV.’Electromechanical wave-break in a model of the human left ventricle.’, Am J Physiol., Heart Circ Physiol.,v.299,p.H134-43,(2010)
131. Young RJ and Panfilov AV “Anisotropy of wave propagation in the heart can be modeled bya Riemannian electrophysiological metric “,Proc. Natl. Acad. Sci. USA, v.107,p.14964-14967, (2010)
132. Sridhar S, Sinha S, Panfilov AV,”Anomalous drift of spiral waves in heterogeneous excitablemedia”, Phys. Rev. E v.82, 051908/1- 051908/5,(2010)
133. Clayton RH, Bernus O, Cherry EM, Dierckx H, Fenton FH, Mirabella L, Panfilov AV, SachseFB, Seemann G, Zhang H “ Models of cardiac tissue electrophysiology: Progress, challengesand open questions”,Progress in Biophysics and Molecular Biology,v.104, p.22-48, (2011)
134. Alonso S, Bar M, Panfilov AV., ”Effects of reduced discrete coupling on filament tension inexcitable media”,Chaos.,v.21(1):013118/1-013118/7, (2011)
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135. Clayton RH, Nash MP, Bradley CP, Panfilov AV, Paterson DJ, Taggart P.,”Experiment-modelinteraction for analysis of epicardial activation during human ventricular fibrillation withglobal myocardial ischaemia”, Prog Biophys Mol Biol.,v.107(1):101-111,(2011)
136. Quinn TA, Granite S, Allessie MA, Antzelevitch C, Bollensdorff C, Bub G, Burton RA,Cerbai E, Chen PS, Delmar M, Difrancesco D, Earm YE, Efimov IR, Egger M, EntchevaE, Fink M, Fischmeister R, Franz MR, Garny A, Giles WR, Hannes T, Harding SE, HunterPJ, Iribe G, Jalife J, Johnson CR, Kass RS, Kodama I, Koren G, Lord P, Markhasin VS,Matsuoka S, McCulloch AD, Mirams GR, Morley GE, Nattel S, Noble D, Olesen SP, Pan-filov AV, Trayanova NA, Ravens U, Richard S, Rosenbaum DS, Rudy Y, Sachs F, SachseFB, Saint DA, Schotten U, Solovyova O, Taggart P, Tung L, Varr A, Volders PG, Wang K,Weiss JN, Wettwer E, White E, Wilders R, Winslow RL, Kohl P.,”Minimum Informationabout a Cardiac Electrophysiology Experiment (MICEE): standardised reporting for modelreproducibility, interoperability, and data sharing”, Prog Biophys Mol Biol.,v.107(1):4-10, (2011)
137. Weise LD, Nash MP, Panfilov AV.,”A discrete model to study reaction-diffusion-mechanicssystems.”,PLoS One.,v.6(7):e21934/1-e21934/13,(2011)
138. Weise LD, Panfilov AV.,” New mechanism of spiral wave initiation in a reaction-diffusion-mechanics system ”,PLoS One,v.6(11):e27264/1- e27264/9,(2011)
139. Weise LD, Panfilov AV.,” Emergence of spiral wave activity in a mechanically heterogeneousreaction-diffusion-mechanics system ”,Phys Rev Lett.,v.108: 228104/1-228104/5,(2012)
140. Alonso S, Bar M, Panfilov AV., ”Negative Tension of Scroll Wave Filaments and Turbulencein Three-Dimensional Excitable Media and Application in Cardiac Dynamics”, Bull MathBiol., v.75:1351-1376,(2013)
141. Bingen BO, Askar SF, Schalij MJ, KazbanovIV, Ypey DL, Panfilov AV, Pijnappels DA.,”Prolongation of Minimal Action Potential Duration in Sustained Fibrillation DecreasesComplexity by Transient Destabilization”, Cardiovasc Res. v.97,p.161-170(2013)
142. Weise LD, Panfilov AV.,’A discrete electromechanical model for human cardiac tissue: ef-fects of stretch-activated currents and stretch conditions on restitution properties and spiralwave dynamics’,PLoS One,v.8(3):e59317/1- e59317/13,(2013)
143. Pravdin SF, Berdyshev VI, Panfilov AV, Katsnelson LB, Solovyova O, Markhasin VS.,”Mathematical model of the anatomy and fibre orientation field of the left ventricle of theheart.”, Biomed Eng Online, v.12:54/1-54/21,(2013)
144. Dierckx H, Brisard E, Verschelde H, Panfilov AV.,”Drift laws for spiral waves on curvedanisotropic surfaces.”, Phys. Rev. E v.88, 012908/1- 012908/9,(2013)
145. Nayak AR, Shajahan TK, Panfilov AV, Pandit R., ”Spiral-wave dynamics in a mathematicalmodel of human ventricular tissue with myocytes and fibroblasts.”,PLoS One,v.8(9):e72950/1-e72950/25,(2013)
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146. Bingen BO, Neshati Z, Askar SF, Kazbanov IV, Ypey DL, Panfilov AV, Schalij MJ, de VriesAA, Pijnappels DA., ”Atrium-specific Kir3.x determines inducibility, dynamics, and termi-nation of fibrillation by regulating restitution-driven alternans.”,Circulation, v.128(25):2732-44,(2013)
147. Defauw A, Kazbanov IV, Dierckx H, Dawyndt P, Panfilov AV.,”Action potential durationheterogeneity of cardiac tissue can be evaluated from cell properties using Gaussian Green’sfunction approach.”,PLoS One,v8(11):e79607/1-e79607/12,(2013)
148. Defauw A, Dawyndt , Panfilov AV,”Initiation and dynamics of a spiral wave around anionic heterogeneity in a model for human cardiac tissue.”, Phys. Rev. E v.88, 062703/1-062703/9,(2013)
149. Vandersickel N, Kazbanov IV, Nuitermans A, Weise LD, Pandit R, Panfilov AV,”A study ofearly afterdepolarizations in a model for human ventricular tissue.”,PLoS One,v9(1):e84595/1-e84595/19,(2014)
150. Pravdin SF, Dierckx H, Katsnelson LB, Solovyova O, Markhasin VS, Panfilov AV.,”Electricalwave propagation in an anisotropic model of the left ventricle based on analytical descriptionof cardiac architecture.” PLoS One,v9(5):e93617/1-e93617/15,(2014)
151. Li BW, Cai MC, Zhang H, Panfilov AV, Dierckx H., ”Chiral selection and frequency re-sponse of spiral waves in reaction-diffusion systems under a chiral electric field.”,J ChemPhys.v.140,184901/1-184901/10,(2014)
152. Bingen BO, Engels MC, Schalij MJ, Jangsangthong W, Neshati Z, Feola I, Ypey DL, AskarSF, Panfilov AV, Pijnappels DA, de Vries AA., ”Light-induced termination of spiral wavearrhythmias by optogenetic engineering of atrial cardiomyocytes”, Cardiovasc Res., vol.104:194-205,(2014)
153. Majumder R, Pandit R, Panfilov AV.,”Turbulent electrical activity at sharp-edged inexcitableobstacles in a model for human cardiac tissue”, Am J Physiol Heart Circ Physiol., vol.307:H1024-35,(2014).
154. Kazbanov IV, Clayton RH, Nash MP, Bradley CP, Paterson DJ, Hayward MP, Taggart P, Pan-filov AV.,Effect of global cardiac ischemia on human ventricular fibrillation: insights froma multi-scale mechanistic model of the human heart., PLoS Comput Biol.v.10,e100389/1-e100389/15, (2014)
155. Defauw A, Vandersickel N, Dawyndt P, Panfilov AV., ”Small size ionic heterogeneities inthe human heart can attract rotors.”, Am J Physiol Heart Circ Physiol., vol.307,H1456-68,(2014).
156. Vandersickel N1, Kazbanov IV, Defauw A, Pijnappels DA, Panfilov AV, ”Decreased repo-larization reserve increases defibrillation threshold by favoring early afterdepolarizations inan in silico model of human ventricular tissue.”,Heart Rhythm, v.12:1088-96,(2015)
157. Dierckx,H., Arens, S., Li, BW, DWeise, LD., Panfilov, A.V., ”A theory for spiral wave driftin reaction-diffusion-mechanics systems ”, New J. Phys. v.17,043055/1- 043055/20,(2015)
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158. Vandersickel N, Defauw A, Dawyndt P, Panfilov, AV, ”Global alternans instability and itseffect on non-linear wave propagation: dynamical Wenckebach block and self terminatingspiral waves.”, Computing in Cardiology, 42:1213-1216(2015)
159. Pravdin, S., Dierckx, H., Markhasin, V. S., Panfilov, A. V. ”Drift of Scroll Wave Filamentsin an Anisotropic Model of the Left Ventricle of the Human Heart.” BioMed Research Inter-national, vol. 2015, Article ID 389830, (2015).
160. Weise LD, Panfilov AV.,”Discrete mechanical modeling of mechanoelectrical feedback incardiac tissue: Novel mechanisms of spiral wave initiation”, Modeling, Simulation and Ap-plications, 14, 29-50,(2015)
161. Kudryashova NN, Kazbanov IV, Panfilov AV, Agladze KI., ”Conditions for Waveblock Dueto Anisotropy in a Model of Human Ventricular Tissue.”, PLoS One. 10(11):e0141832,(2015)
162. Bingen BO, Askar SF, Neshati Z, Feola I, Panfilov AV, de Vries AA, Pijnappels DA., ”Con-stitutively Active Acetylcholine-Dependent Potassium Current Increases Atrial Defibrilla-tion Threshold by Favoring Post-Shock Re-Initiation.”, Sci Rep. 5:15187,(2015)
163. Zimik S, Vandersickel N, Nayak AR, Panfilov AV, Pandit R.,”A Comparative Study of EarlyAfterdepolarization-Mediated Fibrillation in Two Mathematical Models for Human Ventric-ular Cells.”, PLoS One. 30;10(6): e0130632, (2015)
164. Solovyova O, Katsnelson LB, Kohl P, Panfilov AV, Tsaturyan AK, Tsyvian PB,”Mechano-Electric heterogeneity of the myocardium as a paradigm of its function”, Prog Biophys MolBiol.,120(1-3):249-54,(2016)
165. Kazbanov IV, ten Tusscher KHWJ, and Panfilov AV, ”Effects of Heterogeneous Diffuse Fi-brosis on Arrhythmia Dynamics and Mechanism”Sci Rep.,6,20835/1-20835/14,(2016)
166. Vandersickel, N, de Boer, TP, Vos, MA, Panfilov AV,” Torsade de Pointes due to early after-depolarizations in a heterogeneous cardiac tissue: a computational study”, J. Physiol.,594(23):6865-6878, (2016)
167. Majumder, R, Engels, MC, Zeppenfeld K, de Vries AAF, Panfilov, AV Pijnappels DA, ”Spa-tially discordant islands of APD alternans underlie arrhythmogenesis in rat remodeled ven-tricular monolayers: an interactive in silico-in vitro study”, Sci Rep. 6,24334/1-20835/12,(2016)
168. Majumder, R, Jangsangthong W, Feola I, Ypey DL, Pijnappels DA, Panfilov AV, ”A Mathe-matical Model of Neonatal Rat Atrial Monolayers with Constitutively Active Acetylcholine-Mediated K+ Current.”,PLoS Comput Biol., 12:e1004946/1-e1004946/27, (2016)
169. Pravdin, S., Dierckx, H., Panfilov, A. V. ”Drift of scroll waves of electrical excitation in anisotropic model of the cardiac left ventricle” Russ. J. Numer. Anal. Math. Modelling, 31(5):293304, (2016)
170. Konovalov, PV, Pravdin, SF O.Solovyova, O, Panfilov, A. V. ”Scroll Wave Dynamics in aModel of the Heterogeneous Heart” JETP Letters, 104, No. 2, pp. 130134, (2016)
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171. Majumder, R., Pandit, R., Panfilov, A.V. , ”Scroll-wave dynamics in the presence of ionicand conduction inhomogeneities in an anatomically realistic mathematical model for the pigheart”, JETP Letters, 104, No. 11, pp. 796799, (2016)
172. Sridhar S, Vandersickel N, Panfilov, AV, ”Effect of myocyte-fibroblast coupling on the onsetof pathological dynamics in a model of ventricular tissue.”, Sci Rep. 7, 40985/1- 40985 /12,(2017)
173. Nayak AR, Panfilov AV, Pandit R.,”Spiral-wave dynamics in a mathematical model of humanventricular tissue with myocytes and Purkinje fibers.”, Phys. Rev. E v.95, 022405, (2017)
174. Kudryashova, N., Tsvelaya V., Agladze K.I. and Panfilov A.V.,” Virtual cardiac monolayersfor electrical wave propagation” Scientific Reports. 7, 7887/1- 7887/19,(2017)
175. Feola I., Volkers L., Majumder R., Teplenin A., Schalij M.J., Panfilov A.V.,de Vries A.A.F.,Pijnappels D.A., ”Localized Optogenetic Targeting of Rotors in Atrial Cardiomyocyte Mono-layers”, Circulation: Arrhythmia and Electrophysiology,v.10:e005591,(2017)
176. Dierckx, H., Verschelde, H.; Panfilov, A. V.,” Measurement and structure of spiral waveresponse functions”, Chaos.27, 093912,(2017)
177. Vandersickel N., Van Nieuwenhuyse E., Seemann G and Panfilov A.V., ”Spatial Patterns ofExcitation at Tissue and Whole Organ Level Due to Early Afterdepolarizations. ” Front.Physiol.,8,404/1-404/12, (2017)
178. Weise, LD, and Panfilov, A.V. ”Mechanism for Mechanical Wave Break in the Heart Muscle”Physical Review Letters 119, 108101, (2017)
179. Epanchintsev T, Pravdin S, Sozykin A, Panfilov A., ”Simulation of Overdrive Pacing in2D Phenomenological Models of Anisotropic Myocardium”, Procedia Computer Science,119,245254,(2017)
180. Pravdin S.F., Dierckx H., Panfilov A., ”Effect of the Form and Anisotropy of the Left Ven-tricle on the Drift of Scroll Waves”, Biophysics 62, 391-394, (2017)
181. Van Nieuwenhuyse E. Seemann G,, Panfilov A.V., Vandersickel N.,”Effects of early after-depolarizations on excitation patterns in an accurate model of the human ventricles”, PLoSOne. 12(12): e0188867, (2017)
182. Dierckx H., Biktasheva I.V,.Verschelde H.,Panfilov A.V.,Biktashev V.N.,”Filament tensionand phase locking of meandering scroll waves”, Phys. Rev. Lett., 119 (25),258101,(2017)
183. Vandersickel N., Bossu A. De Neve J., Dunnink A., Meijborg V.M.F., van der HeydenM.A.G., Beekman J.D.M., De Bakker J.M.T., Vos M.A., Panfilov A.V.,”Short-lasting episodesof torsade de pointes in the chronic atrioventricular block dog model have a focal mecha-nism, while longer-lasting episodes are maintained by re-entry”,JACC Clin. Electrophysiol,3 (13) p.1565-1576,(2017)
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184. Panfilov A., Dierckx, H., ”Theory of rotors and arrhythmias”, in the book”Cardiac Electro-physiology and Arrhythmias”. Ed.D.P. Zipes,J. Jalife, W.Stevenson, 7th edition, Elsevier,p.325-334, (2017)
185. De Coster T., Claus P., Kazbanov I.V., Haemers P., Willems R., Sipido K.R., Panfilov A.V.,”Arrhythmogenicity of fibro-fatty infiltrations”, Sci Rep. 8, 2050/1- 2050/9, (2018)
186. Feola I., Volkers L., Majumder R., Teplenin A., Schalij M.J., Panfilov A.V.,de Vries A.A.F.,Pijnappels D.A., Response by Feola et al to Letter Regarding Article,”Localized OptogeneticTargeting of Rotors in Atrial Cardiomyocyte Monolayers”, Circulation: Arrhythmia andElectrophysiology, 11:e006130,(2018)
187. Teplenin A.S., Dierckx H., de Vries A.A.F., Pijnappels D.A., Panfilov A.V.,”ParadoxicalOnset of Arrhythmic Waves from Depolarized Areas in Cardiac Tissue Due to Curvature-Dependent Instability”, Phys.Rev.X,in press (2018)