Tung, Leslie

Professor
Som Biomedical EngineeringBME Profile

Traylor 703
(410) 955-3132
ltung@jhu.edu

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Publications

Journal Articles
  • Morrissette-McAlmon J, Blazeski A, Somers S, Kostecki G, Tung L, Grayson WL (2018).  Adipose-derived perivascular mesenchymal stromal/stem cells promote functional vascular tissue engineering for cardiac regenerative purposes.  Journal of Tissue Engineering and Regenerative Medicine.  12(2).
  • Ong CS, Fukunishi T, Zhang H, Huang CY, Nashed A, Blazeski A, Disilvestre D, Vricella L, Conte J, Tung L, Tomaselli GF, Hibino N (2017).  Biomaterial-Free Three-Dimensional Bioprinting of Cardiac Tissue using Human Induced Pluripotent Stem Cell Derived Cardiomyocytes.  Scientific Reports.  7(1).
  • Ong CS, Fukunishi T, Nashed A, Blazeski A, Zhang H, Hardy S, DiSilvestre D, Vricella L, Conte J, Tung L, Tomaselli G, Hibino N (2017).  Creation of cardiac tissue exhibiting mechanical integration of spheroids using 3D bioprinting.  Journal of Visualized Experiments.  2017(125).
  • Oh Y, Cho GS, Kim MJ, Kim YJ, Kwon C, Lee G (2016).  Functional Coupling with Cardiac Muscle Promotes Maturation of hPSC-Derived Sympathetic Neurons.  Cell Stem Cell.  19(1).
  • Hunter DW, Tandri H, Halperin H, Tung L, Berger RD (2016).  Tetanizing prepulse: A novel strategy to mitigate implantable cardioverter-defibrillator shock-related pain.  Heart Rhythm.  13(5).
  • Molitoris JM, Paliwal S, Sekar RB, Blake R, Park J, Trayanova NA, Tung L, Levchenko A (2016).  Precisely parameterized experimental and computational models of tissue organization.  Integrative Biology (United Kingdom).  8(2).
  • Zhu R, Millrod MA, Zambidis ET, Tung L (2016).  Variability of Action Potentials Within and among Cardiac Cell Clusters Derived from Human Embryonic Stem Cells.  Scientific Reports.  6.
  • Blazeski A, Kostecki GM, Tung L (2015).  Engineered heart slices for electrophysiological and contractile studies.  Biomaterials.  55(1).
  • Park SA, Lee SR, Tung L, Yue DT (2014).  Optical mapping of optogenetically shaped cardiac action potentials.  Scientific Reports.  4.
  • Thompson SA, Blazeski A, Copeland CR, Cohen DM, Chen CS, Reich DM, Tung L (2014).  Acute slowing of cardiac conduction in response to myofibroblast coupling to cardiomyocytes through N-cadherin.  Journal of Molecular and Cellular Cardiology.  68.
  • Zhu R, Blazeski A, Poon E, Costa KD, Tung L, Boheler KR (2014).  Physical developmental cues for the maturation of human pluripotent stem cell-derived cardiomyocytes.  Stem Cell Research and Therapy.  5(1).
  • Gorospe G, Zhu R, Millrod MA, Zambidis ET, Tung L, Vidal R (2014).  Automated grouping of action potentials of human embryonic stem cell-derived cardiomyocytes.  IEEE Transactions on Biomedical Engineering.  61(9).
  • Aiba T, Farinelli F, Kostecki G, Hesketh GG, Edwards D, Biswas S, Tung L, Tomaselli GF (2014).  A mutation causing brugada syndrome identifies a mechanism for altered autonomic and oxidant regulation of cardiac sodium currents.  Circulation: Cardiovascular Genetics.  7(3).
  • Gorospe G, Younes L, Tung L, Vidal R (2013).  A metamorphosis distance for embryonic cardiac action potential interpolation and classification..  Medical image computing and computer-assisted intervention : MICCAI ... International Conference on Medical Image Computing and Computer-Assisted Intervention.  16(Pt 1).
  • Joshi-Mukherjee R, Dick IE, Liu T, O'Rourke B, Yue DT, Tung L (2013).  Structural and functional plasticity in long-term cultures of adult ventricular myocytes.  Journal of Molecular and Cellular Cardiology.  65.
  • Gorospe G, Younes L, Tung L, Vidal R (2013).  A metamorphosis distance for embryonic cardiac action potential interpolation and classification.  Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics).  8149 LNCS(PART 1).
  • Weinberg SH, Chang KC, Zhu R, Tandri H, Berger RD, Trayanova NA, Tung L (2013).  Defibrillation success with high frequency electric fields is related to degree and location of conduction block.  Heart Rhythm.  10(5).
  • Blazeski A, Zhu R, Hunter DW, Weinberg SH, Boheler KR, Zambidis ET, Tung L (2012).  Electrophysiological and contractile function of cardiomyocytes derived from human embryonic stem cells.  Progress in Biophysics and Molecular Biology.  110(2-3).
  • Blazeski A, Zhu R, Hunter DW, Weinberg SH, Zambidis ET, Tung L (2012).  Cardiomyocytes derived from human induced pluripotent stem cells as models for normal and diseased cardiac electrophysiology and contractility.  Progress in Biophysics and Molecular Biology.  110(2-3).
  • Weinberg SH, Tung L (2012).  Oscillation in cycle length induces transient discordant and steady-state concordant alternans in the heart.  PLoS ONE.  7(7).
  • Thompson SA, Burridge PW, Lipke EA, Shamblott M, Zambidis ET, Tung L (2012).  Engraftment of human embryonic stem cell derived cardiomyocytes improves conduction in an arrhythmogenic in vitro model.  Journal of Molecular and Cellular Cardiology.  53(1).
  • Chang MG, Chang CY, De Lange E, Xu L, O'Rourke B, Karagueuzian HS, Tung L, Marbán E, Garfinkel A, Weiss JN, Qu Z, Abraham MR (2012).  Dynamics of early afterdepolarization-mediated triggered activity in cardiac monolayers.  Biophysical Journal.  102(12).
  • Quinn TA, Granite S, Allessie MA, Antzelevitch C, Bollensdorff C, Bub G, Burton RAB, Cerbai E, Chen PS, Delmar M, DiFrancesco D, Earm YE, Efimov IR, Egger M, Entcheva E, Fink M, Fischmeister R, Franz MR, Garny A, Giles WR, Hannes T, Harding SE, Hunter PJ, 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, Panfilov AV, Trayanova NA, Ravens U, Richard S, Rosenbaum DS, Rudy Y, Sachs F, Sachse FB, Saint DA, Schotten U, Solovyova O, Taggart P, Tung L, Varró A, Volders PG, Wang K, Weiss JN, Wettwer E, White E, Wilders R, Winslow RL, Kohl P (2011).  Minimum Information about a Cardiac Electrophysiology Experiment (MICEE): Standardised reporting for model reproducibility, interoperability, and data sharing.  Progress in Biophysics and Molecular Biology.  107(1).
  • Tandri H, Weinberg SH, Chang KC, Zhu R, Trayanova NA, Tung L, Berger RD (2011).  Reversible cardiac conduction block and defibrillation with high-frequency electric field.  Science Translational Medicine.  3(102).
  • Andreou AG, Zhang Z, Özgün R, Choi ET, Kalayjian ZK, Marwick MA, Blain Christen J, Tung L (2011).  Contactless fluorescence imaging with a CMOS image sensor.  Proceedings - IEEE International Symposium on Circuits and Systems.
  • Thompson SA, Copeland CR, Reich DH, Tung L (2011).  Mechanical coupling between myofibroblasts and cardiomyocytes slows electric conduction in fibrotic cell monolayers.  Circulation.  123(19).
  • Burridge PW, Thompson S, Millrod MA, Weinberg S, Yuan X, Peters A, Mahairaki V, Koliatsos VE, Tung L, Zambidis ET (2011).  A universal system for highly efficient cardiac differentiation of human induced pluripotent stem cells that eliminates interline variability.  PLoS ONE.  6(4).
  • Limpitikul W, Christoforou N, Thompson SA, Gearhart JD, Tung L, Lipke EA (2010).  Influence of Electromechanical Activity on Cardiac Differentiation of Mouse Embryonic Stem Cells.  Cardiovascular Engineering and Technology.  1(3).
  • Weinberg S, Malhotra N, Tung L (2010).  Vulnerable windows define susceptibility to alternans and spatial discordance.  American Journal of Physiology - Heart and Circulatory Physiology.  298(6).
  • Kim DH, Lipke EA, Kim P, Cheong R, Thompson S, Delannoy M, Suh KY, Tung L, Levchenko A (2010).  Nanoscale cues regulate the structure and function of macroscopic cardiac tissue constructs.  Proceedings of the National Academy of Sciences of the United States of America.  107(2).
  • Weinberg S, Lipke EA, Tung L (2010).  In vitro electrophysiological mapping of stem cells.  Methods in Molecular Biology.  660.
  • Abraham MR, Chang MG, Zhang Y, Chang CY, Xu L, Emokpae R, Tung L, Marbán E (2009).  Spiral waves and reentry dynamics in an in vitro model of the healed infarct border zone.  Circulation Research.  105(11).
  • Sekar RB, Kizana E, Cho HC, Molitoris JM, Hesketh GG, Eaton BP, Marbán E, Tung L (2009).  IK1 heterogeneity affects genesis and stability of spiral waves in cardiac myocyte monolayers.  Circulation Research.  104(3).
  • Lipke EA, Tung L (2008).  Embryonic stem cell-derived cardiomyocytes enhance action potential propagation through cardiac scaffolds.  AIChE Annual Meeting, Conference Proceedings.
  • Parker KK, Tan J, Chen CS, Tung L (2008).  Myofibrillar architecture in engineered cardiac myocytes.  Circulation Research.  103(4).
  • Weinberg S, Iravanian S, Tung L (2008).  Representation of collective electrical behavior of cardiac cell sheets.  Biophysical Journal.  95(3).
  • Zhang Y, Sekar RB, McCulloch AD, Tung L (2008).  Cell cultures as models of cardiac mechanoelectric feedback.  Progress in Biophysics and Molecular Biology.  97(2-3).
  • Cysyk J, Tung L (2008).  Electric field perturbations of spiral waves attached to millimeter-size obstacles.  Biophysical Journal.  94(4).
  • Lin JW, Garber L, Qi YR, Chang MG, Cysyk J, Tung L (2008).  Reion of slowed conduction acts as core for spiral wave reentry in cardiac cell monolayers.  American Journal of Physiology - Heart and Circulatory Physiology.  294(1).
  • Zhang Y, Sekar RB, Abraham MR, Tung L (2007).  Fluorescence microscopic mapping of electrical wave propagation in an in-vitro model of skeletal myoblast cell transplantation.  Conference on Lasers and Electro-Optics, 2007, CLEO 2007.
  • Sekar RB, Kizana E, Smith RR, Barth AS, Zhang Y, Marbán E, Tung L (2007).  Lentiviral vector-mediated expression of GFP or Kir2.1 alters the electrophysiology of neonatal rat ventricular myocytes without inducing cytotoxicity.  American Journal of Physiology - Heart and Circulatory Physiology.  293(5).
  • Tung L, Cysyk J (2007).  Imaging fibrillation/defibrillation in a dish.  Journal of Electrocardiology.  40(6 SUPPL. 1).
  • Bursac N, Loo Y, Leong K, Tung L (2007).  Novel anisotropic engineered cardiac tissues: Studies of electrical propagation.  Biochemical and Biophysical Research Communications.  361(4).
  • Kizana E, Chang CY, Cingolani E, Ramirez-Correa GA, Sekar RB, Abraham MR, Ginn SL, Tung L, Alexander IE, Marbán E (2007).  Gene transfer of connexin43 mutants attenuates coupling in cardiomyocytes: Novel basis for modulation of cardiac conduction by gene therapy.  Circulation Research.  100(11).
  • Zhang Y, Sekar RB, Roselle Abraham M, Tung L (2007).  Fluorescence microscopic mapping of electrical wave propagation in an in-vitro model of skeletal myoblast cell transplantation.  Optics InfoBase Conference Papers.
  • Lim ZY, Maskara B, Aguel F, Emokpae R, Tung L (2006).  Spiral wave attachment to millimeter-sized obstacles.  Circulation.  114(20).
  • Tung L, Zhang Y (2006).  Optical imaging of arrhythmias in tissue culture.  Journal of Electrocardiology.  39(4 SUPPL.).
  • Sathaye A, Bursac N, Sheehy S, Tung L (2006).  Electrical pacing counteracts intrinsic shortening of action potential duration of neonatal rat ventricular cells in culture.  Journal of Molecular and Cellular Cardiology.  41(4).
  • Chang MG, Tung L, Sekar RB, Chang CY, Cysyk J, Dong P, Marbán E, Abraham MR (2006).  Proarrhythmic potential of mesenchymal stem cell transplantation revealed in an in vitro coculture model.  Circulation.  113(15).
  • Bian W, Tung L (2006).  Structure-related initiation of reentry by rapid pacing in monolayers of cardiac cells.  Circulation Research.  98(4).
  • Bursac N, Tung L (2006).  Acceleration of functional reentry by rapid pacing in anisotropic cardiac monolayers: Formation of multi-wave functional reentries.  Cardiovascular Research.  69(2).
  • Abraham MR, Henrikson CA, Tung L, Chang MG, Aon M, Xue T, Li RA, O'Rourke B, Marbán E (2005).  Antiarrhythmic engineering of skeletal myoblasts for cardiac transplantation.  Circulation Research.  97(2).
  • Kong CR, Bursac N, Tung L (2005).  Mechanoelectrical excitation by fluid jets in monolayers of cultured cardiac myocytes.  Journal of Applied Physiology.  98(6).
  • Sharma V, Susil RC, Tung L (2005).  Paradoxical loss of excitation with high intensity pulses during electric field stimulation of single cardiac cells.  Biophysical Journal.  88(4).
  • Sharma V, Tung L (2004).  Ionic currents involved in shock-induced nonlinear changes in transmembrane potential responses of single cardiac cells.  Pflugers Archiv European Journal of Physiology.  449(3).
  • Bursac N, Aguel F, Tung L (2004).  Multiarm spirals in a two-dimensional cardiac substrate.  Proceedings of the National Academy of Sciences of the United States of America.  101(43).
  • Entcheva E, Kostov Y, Tchernev E, Tung L (2004).  Fluorescence Imaging of Electrical Activity in Cardiac Cells Using An All-Solid-State System.  IEEE Transactions on Biomedical Engineering.  51(2).
  • Iravanian S, Nabutovsky Y, Kong CR, Saha S, Bursac N, Tung L (2003).  Functional reentry in cultured monolayers of neonatal rat cardiac cells.  American Journal of Physiology - Heart and Circulatory Physiology.  285(1 54-1).
  • Riemer TL, Tung L (2003).  Stretch-induced excitation and action potential changes of single cardiac cells.  Progress in Biophysics and Molecular Biology.  82(1-3).
  • Bursac N, Parker KK, Iravanian S, Tung L (2002).  Cardiomyocyte cultures with controlled macroscopic anisotropy: a model for functional electrophysiological studies of cardiac muscle..  Circulation research.  91(12).
  • Lebar AM, Troiano GC, Tung L, Miklavcic D (2002).  Inter-pulse interval between rectangular voltage pulses affects electroporation threshold of artificial lipid bilayers.  IEEE Transactions on Nanobioscience.  1(3).
  • Entcheva E, Alseikhan BA, Ianuzzi A, Yue DT, Tung L (2002).  Engineering analysis of cardiac electrical activity in response to calmodulin mutations.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  2.
  • Iravanian S, Tung L (2002).  A novel algorithm for cardiac biosignal filtering based on filtered residue method.  IEEE Transactions on Biomedical Engineering.  49(11).
  • Sharma V, Lu SN, Tung L (2002).  Decomposition of field-induced transmembrane potential responses of single cardiac cells.  IEEE Transactions on Biomedical Engineering.  49(9).
  • Sharma V, Tung L (2002).  Spatial heterogeneity of transmembrane potential responses of single guinea-pig cardiac cells during electric field stimulation.  Journal of Physiology.  542(2).
  • Sharma V, Tung L (2002).  Effects of uniform electric fields on intracellular calcium transients in single cardiac cells.  American Journal of Physiology - Heart and Circulatory Physiology.  282(1 51-1).
  • Sharma V, Tung L (2001).  Theoretical and experimental study of sawtooth effect in isolated cardiac cell-pairs.  Journal of Cardiovascular Electrophysiology.  12(10).
  • Tung L, Kléber AG (2000).  Virtual sources associated with linear and curved strands of cardiac cells.  American Journal of Physiology - Heart and Circulatory Physiology.  279(4 48-4).
  • Entcheva E, Colecraft HM, Yue D, Winslow R, Tung L (2000).  Genetic augmentation of Ca2+ channels in cell monolayers: comparing optical recordings and computer simulations of modulated action potentials.  Annals of Biomedical Engineering.  28(SUPPL. 1).
  • Sharma V, Tung L (2000).  Paradoxical window of impaired excitability in isolated cardiac cells stimulated with elevated electric fields.  Annals of Biomedical Engineering.  28(SUPPL. 1).
  • Sharma V, Tung L (2000).  Analysis of field-induced transmembrane potential responses of single cardiac cells in terms of active and passive components.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  3.
  • Riemer TL, Tung L (2000).  Focal extracellular potential: A means to monitor electrical activity in single cardiac myocytes.  American Journal of Physiology - Heart and Circulatory Physiology.  278(4 47-4).
  • Entcheva E, Lu SN, Troppman RH, Sharma V, Tung L (2000).  Contact fluorescence imaging of reentry in monolayers of cultured neonatal rat ventricular myocytes.  Journal of Cardiovascular Electrophysiology.  11(6).
  • Lu SN, Entcheva E, Sharma V, Tung L (1999).  Optical mapping of anatomical reentry in monolayers of cultured neonatal rat cardiac myocytes.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  1.
  • Sharma V, Tung L (1999).  Theoretical and experimental study of intercellular junction-induced sawtooth effect in cardiac cell-pairs.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  1.
  • Fasciano RW, Tung L (1999).  Factors governing mechanical stimulation in frog hearts.  American Journal of Physiology - Heart and Circulatory Physiology.  277(6 46-6).
  • Cheng DKL, Tung L, Sobie EA (1999).  Nonuniform responses of transmembrane potential during electric field stimulation of single cardiac cells.  American Journal of Physiology - Heart and Circulatory Physiology.  277(1 46-1).
  • Susil RC, Sobie EA, Tung L (1999).  Separation between virtual sources modifies the response of cardiac tissue to field stimulation.  Journal of Cardiovascular Electrophysiology.  10(5).
  • Tung L, Troiano GC, Sharma V, Raphael RM, Stebe KJ (1999).  Changes in electroporation thresholds of lipid membranes by surfactants and peptides.  Annals of the New York Academy of Sciences.  888.
  • Wu CC, Fasciano RW, Calkins H, Tung L (1999).  Sequential change in action potential of rabbit epicardium during and following radiofrequency ablation.  Journal of Cardiovascular Electrophysiology.  10(9).
  • Sharma V, Tung L (1999).  Transmembrane responses of single guinea pig ventricular cell to uniform electric field stimulus.  Journal of Cardiovascular Electrophysiology.  10(9).
  • Troiano GC, Stebe KJ, Raphael RM, Tung L (1999).  The effects of gramicidin on electroporation of lipid bilayers.  Biophysical Journal.  76(6).
  • Harrison RL, Byrne BJ, Tung L (1998).  Electroporation-mediated gene transfer in cardiac tissue.  FEBS Letters.  435(1).
  • Riemer TL, Sobie EA, Tung L (1998).  Stretch-induced changes in arrhythmogenesis and excitability in experimentally based heart cell models.  American Journal of Physiology - Heart and Circulatory Physiology.  275(2 44-2).
  • Sobie EA, Tung L (1998).  Postshock potential gradients and dispersion of repolarization in cells stimulated with monophasic and biphasic waveforms.  Journal of Cardiovascular Electrophysiology.  9(7).
  • Troiano GC, Tung L, Sharma V, Stebe KJ (1998).  The reduction in electroporation voltages by the addition of a surfactant to planar lipid bilayers.  Biophysical Journal.  75(2).
  • Susil RC, Sobie EA, Tung L (1997).  Virtual source separation modifies cardiac tissue response to field stimulation.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  1.
  • Neunlist M, Tung L (1997).  Dose-dependent reduction of cardiac transmembrane potential by high-intensity electrical shocks.  American Journal of Physiology - Heart and Circulatory Physiology.  42(6).
  • Neunlist M, Tung L (1997).  Dose-dependent reduction of cardiac transmembrane potential by high- intensity electrical shocks.  American Journal of Physiology - Heart and Circulatory Physiology.  273(6 42-6).
  • Sobie EA, Susil RC, Tung L (1997).  A generalized activating function for predicting virtual electrodes in cardiac tissue.  Biophysical Journal.  73(3).
  • Tung L (1996).  Detrimental effects of electrical fields on cardiac muscle.  Proceedings of the IEEE.  84(3).
  • Fishler MG, Sobie EA, Tung L, Thakor NV (1996).  Modeling the interaction between propagating cardiac waves and monophasic and biphasic field stimuli: The importance of the induced spatial excitatory response.  Journal of Cardiovascular Electrophysiology.  7(12).
  • Fishler MG, Sobie EA, Thakor NV, Tung L (1996).  Mechanisms of cardiac cell excitation with premature monophasic and biphasic field stimuli: A model study.  Biophysical Journal.  70(3).
  • Sharma V, Stebe K, Murphy JC, Tung L (1996).  Poloxamer 188 decreases susceptibility of artificial lipid membranes to electroporation.  Biophysical Journal.  71(6).
  • Tung L, O'Neill RJ (1995).  Comparison of electroporation thresholds of cardiac cell membranes by rectangular and exponential pulses.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  17(1).
  • Sobie EA, Fishler MG, Tung L (1995).  Biphasic shocks induce more uniform repolarization than monophasic shocks in a cardiac cellular field excitation model.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  17(1).
  • Tung L (1995).  Electroporation of cardiac cells..  Methods in molecular biology (Clifton, N.J.).  48.
  • Tung L, Zou S (1995).  Influence of stretch on excitation threshold of single frog ventricular cells.  Experimental Physiology.  80(2).
  • Fishler MG, Sobie EA, Tung L, Thakor NV (1995).  Cardiac responses to premature monophasic and biphasic field stimuli: Results from cell and tissue modeling studies.  Journal of Electrocardiology.  28.
  • Neunlist M, Tung L (1995).  Spatial distribution of cardiac transmembrane potentials around an extracellular electrode: Dependence on fiber orientation.  Biophysical Journal.  68(6).
  • Tung L, Neunlist M, Sobie EA (1994).  Near-field and far-field stimulation of cardiac muscle.  Proceedings of SPIE - The International Society for Optical Engineering.  2132.
  • Sobie EA, Tung L (1994).  Simulations of the transmembrane potential distribution around an extracellular electrode in an active 2-D sheet of cardiac tissue.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  16(pt 1).
  • Neunlist M, Tung L (1994).  Optical recordings of cardiac transmembrane potential around an extracellular electrode in electrically anisotropic, bullfrog atrium.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  16(pt 1).
  • Sharma V, Tung L, Murphy JC (1994).  Interrelationship among breakdown voltage, latency time and membrane conductance during electroporation of artificial lipid membranes.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  16(pt 2).
  • TUNG L, TOVAR O, NEUNLIST M, JAIN SK, O'NEILL RJ (1994).  Effects of Strong Electrical Shock on Cardiac Muscle Tissue.  Annals of the New York Academy of Sciences.  720(1).
  • NEUNLIST M, TUNG L (1994).  Optical Recordings of Ventricular Excitability of Frog Heart by an Extracellular Stimulating Point Electrode.  Pacing and Clinical Electrophysiology.  17(10).
  • Parikh SS, Zou SZ, Tung L (1993).  Contraction and relaxation of isolated cardiac myocytes of the frog under varying mechanical loads.  Circulation Research.  72(2).
  • Tovar O, Tung L (1992).  Electroporation and recovery of cardiac cell membrane with rectangular voltage pulses.  American Journal of Physiology - Heart and Circulatory Physiology.  263(4 32-4).
  • Neunlist M, Zou Sz, Tung L (1992).  Design and use of an "optrode" for optical recordings of cardiac action potentials.  Pflügers Archiv European Journal of Physiology.  420(5-6).
  • Tung L, Borderies JR (1992).  Analysis of electric field stimulation of single cardiac muscle cells.  Biophysical Journal.  63(2).
  • Tung L, Neunlist M, Zou Sz (1991).  Optical recordings of action potential of frog ventricle during cathodal and anodal stimulation.  Proceedings of the Annual Conference on Engineering in Medicine and Biology.  13(pt 2).
  • Tung L (1991).  Electrical injury to heart muscle: The role of electroporation.  Proceedings of the Annual Conference on Engineering in Medicine and Biology.  13(pt 2).
  • TOVAR O, TUNG L (1991).  Electroporation of Cardiac Cell Membranes with Monophasic or Biphasic Rectangular Pulses.  Pacing and Clinical Electrophysiology.  14(11).
  • Tung L, Sliz N, Mulligan MR (1991).  Influence of electrical axis of stimulation on excitation of cardiac muscle cells.  Circulation Research.  69(3).
  • O'Neill RJ, Tung L (1991).  Cell-attached patch clamp study of the electropermeabilization of amphibian cardiac cells.  Biophysical Journal.  59(5).
  • Tung L, Parikh SS (1991).  Cardiac mechanics at the cellular level.  Journal of Biomechanical Engineering.  113(4).
  • Luo CH, Tung L (1991).  Null-Balance Transducer for Isometric Force Measurements and Length Control of Single Heart Cells.  IEEE Transactions on Biomedical Engineering.  38(12).
  • Tung L (1989).  Use of a force-fiber technique for micromechanical measurements of the active force and stiffness of single heart cells.  Bioengineering, Proceedings of the Northeast Conference.
  • O'Neill RJ, Tung L (1989).  Dynamic breakdown of heart cell membranes exposed to ramp increases in transmembrane potential.  Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings.  11 pt 6.
  • Mulligan MR, O'Neill RJ, Zei PC, Tung L (1988).  Graded effects of pulsed electric fields on contractility of single heart cells.  IEEE/Engineering in Medicine and Biology Society Annual Conference.  10(pt2).
  • Fogelson LJ, Tung L, Thakor NV (1988).  Electrophysiologic depression in myocardium by defibrillation-level shocks.  IEEE/Engineering in Medicine and Biology Society Annual Conference.  10(pt2).
  • Tung L, Morad M (1988).  Contractile force of single heart cells compared with muscle strips of frog ventricle.  American Journal of Physiology - Heart and Circulatory Physiology.  255(1).
  • Tung L (1987).  STATISTICAL MODELS RELATING THE ACTIVE CONTRACTILE FORCE OF SINGLE HEART CELLS TO FORCE IN STRIPS OF FROG HEART MUSCLE..  American Society of Mechanical Engineers, Applied Mechanics Division, AMD.  84.
  • Tung L (1986).  An ultrasensitive transducer for measurement of isometric contractile force from single heart cells.  Pflügers Archiv European Journal of Physiology.  407(1).
  • Tung L, Morad M (1985).  A comparative electrophysiological study of enzymatically isolated single cells and strips of frog ventricle.  Pflügers Archiv European Journal of Physiology.  405(3).
  • Tung L, Morad M (1983).  Voltage-and frequency-dependent block of diltiazem on the slow inward current and generation of tension in frog ventricular muscle.  Pflügers Archiv European Journal of Physiology.  398(3).
  • Morad M, Tung L (1982).  Ionic events responsible for the cardiac resting and action potential.  The American Journal of Cardiology.  49(3).
  • Morad M, Tung L, Greenspan AM (1982).  Effect of diltiazem on calcium transport and development of tension in heart muscle.  The American Journal of Cardiology.  49(3).
  • Tung L, Morad M (1981).  Membrane conductance changes during the time course of the slow inward current in frog ventricle.  Biophysical Journal.  33(2 II).
  • Yanagisawa T, Tung L, Morad M (1981).  Can transport of calcium and development of tension occur in sodium depleted frog ventricular muscle?.  Biophysical Journal.  33(2 II).
Book Chapters
  • Tung L (2009).  The generalized activating function.  Cardiac Bioelectric Therapy: Mechanisms and Practical Implications.
  • Tung L, Bursac N, Aguel F (2004).  Rotors and Spiral Waves in Two Dimensions.  Cardiac Electrophysiology: Fourth Edition.
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