publications by Craig S. Henriquez.


Papers Published

  1. Li, G; Henriquez, CS; Fröhlich, F, Rhythmic modulation of thalamic oscillations depends on intrinsic cellular dynamics., Journal of Neural Engineering, vol. 16 no. 1 (February, 2019), pp. 016013 [doi]  [abs].
  2. Gokhale, TA; Asfour, H; Verma, S; Bursac, N; Henriquez, CS, Microheterogeneity-induced conduction slowing and wavefront collisions govern macroscopic conduction behavior: A computational and experimental study., Plos Computational Biology, vol. 14 no. 7 (July, 2018), pp. e1006276 [doi]  [abs].
  3. Zhang, X; Foderaro, G; Henriquez, C; Ferrari, S, A Scalable Weight-Free Learning Algorithm for Regulatory Control of Cell Activity in Spiking Neuronal Networks., International Journal of Neural Systems, vol. 28 no. 2 (March, 2018), pp. 1750015 [doi]  [abs].
  4. Rossi, S; Gaeta, S; Griffith, BE; Henriquez, CS, Muscle Thickness and Curvature Influence Atrial Conduction Velocities., Frontiers in Physiology, vol. 9 (2018), pp. 1344 [doi]  [abs].
  5. Barth, BB; Henriquez, CS; Grill, WM; Shen, X, Electrical stimulation of gut motility guided by an in silico model., Journal of Neural Engineering, vol. 14 no. 6 (December, 2017), pp. 066010 [doi]  [abs].
  6. Li, G; Henriquez, CS; Fröhlich, F, Unified thalamic model generates multiple distinct oscillations with state-dependent entrainment by stimulation., Plos Computational Biology, vol. 13 no. 10 (October, 2017), pp. e1005797 [doi]  [abs].
  7. Gokhale, TA; Medvescek, E; Henriquez, CS, Modeling dynamics in diseased cardiac tissue: Impact of model choice., Chaos (Woodbury, N.Y.), vol. 27 no. 9 (September, 2017), pp. 093909 [doi]  [abs].
  8. Gokhale, TA; Kim, JM; Kirkton, RD; Bursac, N; Henriquez, CS, Modeling an Excitable Biosynthetic Tissue with Inherent Variability for Paired Computational-Experimental Studies., Plos Computational Biology, vol. 13 no. 1 (January, 2017), pp. e1005342 [doi]  [abs].
  9. Gokhale, TA; Medvescek, E; Henriquez, CS, Continuous models fail to capture details of reentry in fibrotic myocardium, Computing in Cardiology, vol. 43 (March, 2016), pp. 1-4  [abs].
  10. Ying, W; Henriquez, CS, Adaptive Mesh Refinement and Adaptive Time Integration for Electrical Wave Propagation on the Purkinje System., Biomed Research International, vol. 2015 (January, 2015), pp. 137482 [doi]  [abs].
  11. Henriquez, CS, A brief history of tissue models for cardiac electrophysiology., Ieee Transactions on Bio Medical Engineering, vol. 61 no. 5 (May, 2014), pp. 1457-1465 [doi]  [abs].
  12. Hubbard, ML; Henriquez, CS, A microstructural model of reentry arising from focal breakthrough at sites of source-load mismatch in a central region of slow conduction., American Journal of Physiology Heart and Circulatory Physiology, vol. 306 no. 9 (May, 2014), pp. H1341-H1352 [doi]  [abs].
  13. Hubbard, ML; Xu, J; Henriquez, CS, The effect of random cell decoupling on electrogram morphology near the percolation threshold in microstructural models of cardiac tissue, Computing in Cardiology, vol. 41 no. January (January, 2014), pp. 65-68  [abs].
  14. Hubbard, ML; Henriquez, CS, Effect of gap junction uncoupling on spatial dispersion of action potential duration at sites of abrupt tissue expansion, Computing in Cardiology, vol. 40 (December, 2013), pp. 699-702  [abs].
  15. Pourtaheri, N; Truong, T-K; Henriquez, CS, Electromagnetohydrodynamic modeling of Lorentz effect imaging., J Magn Reson, vol. 236 (November, 2013), pp. 57-65 [24056273], [doi]  [abs].
  16. Zhang, X; Xu, Z; Henriquez, C; Ferrari, S, Spike-based indirect training of a spiking neural network-controlled virtual insect, Proceedings of the Ieee Conference on Decision and Control (January, 2013), pp. 6798-6805, IEEE [doi]  [abs].
  17. Hubbard, ML; Henriquez, CS, Microscopic variations in interstitial and intracellular structure modulate the distribution of conduction delays and block in cardiac tissue with source-load mismatch., Europace, vol. 14 Suppl 5 (November, 2012), pp. v3-v9 [23104912], [doi]  [abs].
  18. Virag, N; Henriquez, CS; Kappenberger, L, TRM Forum on Computer Simulation and Experimental Assessment of Cardiac Function., Europace, vol. 14 Suppl 5 no. SUPPL. 5 (November, 2012), pp. v1-v2 [doi] .
  19. Maheswaranathan, N; Ferrari, S; Vandongen, AMJ; Henriquez, CS, Emergent bursting and synchrony in computer simulations of neuronal cultures., Frontiers in Computational Neuroscience, vol. 6 (2012), pp. 15 [22514531], [doi]  [abs].
  20. Foderaro, G; Henriquez, C; Ferrari, S, Indirect training of a spiking neural network for flight control via spike-timing-dependent synaptic plasticity, Proceedings of the Ieee Conference on Decision and Control (December, 2010), pp. 911-917, IEEE [doi]  [abs].
  21. Kim, JM; Bursac, N; Henriquez, CS, A computer model of engineered cardiac monolayers., Biophysical Journal, vol. 98 no. 9 (May, 2010), pp. 1762-1771 [20441739], [doi]  [abs].
  22. Hubbard, ML; Henriquez, CS, Increased interstitial loading reduces the effect of microstructural variations in cardiac tissue., American Journal of Physiology Heart and Circulatory Physiology, vol. 298 no. 4 (April, 2010), pp. H1209-H1218 [20097772], [doi]  [abs].
  23. Stinstra, J; MacLeod, R; Henriquez, C, Incorporating histology into a 3D microscopic computer model of myocardium to study propagation at a cellular level., Annals of Biomedical Engineering, vol. 38 no. 4 (April, 2010), pp. 1399-1414 [doi]  [abs].
  24. Tranquillo, JV; Badie, N; Henriquez, CS; Bursac, N, Collision-based spiral acceleration in cardiac media: roles of wavefront curvature and excitable gap., Biophysical Journal, vol. 98 no. 7 (April, 2010), pp. 1119-1128 [20371311], [doi]  [abs].
  25. Henriquez, CS; Ying, W, The bidomain model of cardiac tissue: From microscale to macroscale (December, 2009), pp. 401-421, Springer US [doi]  [abs].
  26. Hubbard, ML; Henriquez, CS, Increasing the effective interstitial resistivity promotes the escape of premature beats, Computers in Cardiology, vol. 36 (December, 2009), pp. 661-664  [abs].
  27. Stinstra, JG; Henriquez, CS; MacLeod, RS, Comparison of microscopic and bidomain models of anisotropic conduction, Computers in Cardiology, vol. 36 (December, 2009), pp. 657-660  [abs].
  28. Pourtaheri, N; Ying, W; Kim, JM; Henriquez, CS, Thresholds for transverse stimulation: fiber bundles in a uniform field., Ieee Transactions on Neural Systems and Rehabilitation Engineering : a Publication of the Ieee Engineering in Medicine and Biology Society, vol. 17 no. 5 (October, 2009), pp. 478-486 [19887308], [doi]  [abs].
  29. Li, Z; O'Doherty, JE; Hanson, TL; Lebedev, MA; Henriquez, CS; Nicolelis, MAL, Unscented Kalman filter for brain-machine interfaces., Plos One, vol. 4 no. 7 (July, 2009), pp. e6243 [19603074], [doi]  [abs].
  30. Jacquemet, V; Henriquez, CS, Genesis of complex fractionated atrial electrograms in zones of slow conduction: a computer model of microfibrosis., Heart Rhythm, vol. 6 no. 6 (June, 2009), pp. 803-810 [19467508], [doi]  [abs].
  31. Kayagil, TA; Bai, O; Henriquez, CS; Lin, P; Furlani, SJ; Vorbach, S; Hallett, M, A binary method for simple and accurate two-dimensional cursor control from EEG with minimal subject training., Journal of Neuroengineering and Rehabilitation, vol. 6 no. 1 (May, 2009), pp. 14 [doi]  [abs].
  32. Jacquemet, V; Henriquez, CS, Modulation of conduction velocity by nonmyocytes in the low coupling regime., Ieee Transactions on Bio Medical Engineering, vol. 56 no. 3 (March, 2009), pp. 893-896 [19389687], [doi]  [abs].
  33. Jacquemet, V; Robinson, B; Henriquez, CS, Electrogram fractionation caused by microfibrosis: Insights from a microstructure model, Computers in Cardiology, vol. 35 (December, 2008), pp. 1105-1108, IEEE [doi]  [abs].
  34. Ying, W; Rose, DJ; Henriquez, CS, Efficient fully implicit time integration methods for modeling cardiac dynamics., Ieee Transactions on Bio Medical Engineering, vol. 55 no. 12 (December, 2008), pp. 2701-2711 [doi]  [abs].
  35. Ferrari, S; Mehta, B; Di Muro, G; VanDongen, AMJ; Henriquez, C, Biologically realizable reward-modulated hebbian training for spiking neural networks, Proceedings of the International Joint Conference on Neural Networks (November, 2008), pp. 1780-1786, IEEE [doi]  [abs].
  36. Roberts, SF; Stinstra, JG; Henriquez, CS, Effect of nonuniform interstitial space properties on impulse propagation: a discrete multidomain model., Biophysical Journal, vol. 95 no. 8 (October, 2008), pp. 3724-3737 [18641070], [doi]  [abs].
  37. Jacquemet, V; Henriquez, CS, Loading effect of fibroblast-myocyte coupling on resting potential, impulse propagation, and repolarization: insights from a microstructure model., American Journal of Physiology Heart and Circulatory Physiology, vol. 294 no. 5 (May, 2008), pp. H2040-H2052 [18310514], [doi]  [abs].
  38. Jacquemet, V; Kappenberger, L; Henriquez, CS, Modeling atrial arrhythmias: impact on clinical diagnosis and therapies., Ieee Reviews in Biomedical Engineering, vol. 1 (January, 2008), pp. 94-114 [22274901], [doi]  [abs].
  39. Stinstra, JG; Poelzing, S; MacLeod, RS; Henriquez, CS, A model for estimating the anisotropy of the conduction velocity in cardiac tissue based on the tissue morphology, Computers in Cardiology, vol. 34 (December, 2007), pp. 129-132, IEEE [doi]  [abs].
  40. Jacquemet, V; Henriquez, CS, An efficient technique for determining the steady-state membrane potential profile in tissues with multiple cell types, Computers in Cardiology, vol. 34 (December, 2007), pp. 113-116, IEEE [doi]  [abs].
  41. Ying, W; Henriquez, CS, A Kernel-free Boundary Integral Method for Elliptic Boundary Value Problems., Journal of Computational Physics, vol. 227 no. 2 (December, 2007), pp. 1046-1074 [23519600], [doi]  [abs].
  42. Jacquemet, V; Henriquez, CS, Modelling cardiac fibroblasts: interactions with myocytes and their impact on impulse propagation., Europace, vol. 9 Suppl 6 (November, 2007), pp. vi29-vi37 [17959690], [doi]  [abs].
  43. Hubbard, ML; Ying, W; Henriquez, CS, Effect of gap junction distribution on impulse propagation in a monolayer of myocytes: a model study., Europace, vol. 9 Suppl 6 (November, 2007), pp. vi20-vi28 [17959689], [doi]  [abs].
  44. Won, DS; Tiesinga, PH; Henriquez, CS; Wolf, PD, An analytical comparison of the information in sorted and non-sorted cosine-tuned spike activity., Journal of Neural Engineering, vol. 4 no. 3 (September, 2007), pp. 322-335 [17873434], [doi]  [abs].
  45. Overdyk, FJ; Carter, R; Maddox, RR; Callura, J; Herrin, AE; Henriquez, C, Continuous oximetry/capnometry monitoring reveals frequent desaturation and bradypnea during patient-controlled analgesia., Anesthesia and Analgesia, vol. 105 no. 2 (August, 2007), pp. 412-418 [doi]  [abs].
  46. Zacksenhouse, M; Lebedev, MA; Carmena, JM; O'Doherty, JE; Henriquez, C; Nicolelis, MAL, Cortical modulations increase in early sessions with brain-machine interface., Plos One, vol. 2 no. 7 (July, 2007), pp. e619 [doi]  [abs].
  47. W. J. Ying and C. S. Henriquez, Hybrid finite element method for describing the electrical response of biological cells to applied fields, Ieee Transactions On Biomedical Engineering, vol. 54 no. 4 (April, 2007), pp. 611 -- 620  [abs].
  48. Ying, W; Henriquez, CS, Hybrid finite element method for describing the electrical response of biological cells to applied fields., Ieee Transactions on Bio Medical Engineering, vol. 54 no. 4 (April, 2007), pp. 611-620 [17405368], [doi]  [abs].
  49. Ying, W; Pourtaheri, N; Henriquez, CS, Field stimulation of cells in suspension: use of a hybrid finite element method., Conference Proceedings : ... Annual International Conference of the Ieee Engineering in Medicine and Biology Society. Ieee Engineering in Medicine and Biology Society. Annual Conference, vol. 1 (December, 2006), pp. 2276-2279  [abs].
  50. Sadleir, R; Henriquez, C, Estimation of cardiac bidomain parameters from extracellular measurement: two dimensional study., Annals of Biomedical Engineering, vol. 34 no. 8 (August, 2006), pp. 1289-1303 [doi]  [abs].
  51. Stinstra, J; Roberts, S; Pormann, J; Macleod, R; Henriquez, C, A Model of 3D Propagation in Discrete Cardiac Tissue., Computers in Cardiology, vol. 33 (January, 2006), pp. 41-44  [abs].
  52. Ying, W; Pourtaheri, N; Henriquez, CS, Field stimulation of cells in suspension: use of a hybrid finite element method., Conference Proceedings : ... Annual International Conference of the Ieee Engineering in Medicine and Biology Society. Ieee Engineering in Medicine and Biology Society. Annual Conference, vol. 1 (January, 2006), pp. 2276-2279 [17946508], [doi]  [abs].
  53. Ying, W; Pourtaheri, N; Henriquez, CS, Field stimulation of cells in suspension: use of a hybrid finite element method., Conference Proceedings : ... Annual International Conference of the Ieee Engineering in Medicine and Biology Society. Ieee Engineering in Medicine and Biology Society. Annual Conference, vol. 1 (2006), pp. 2276-2279  [abs].
  54. Carmena, JM; Lebedev, MA; Henriquez, CS; Nicolelis, MAL, Stable ensemble performance with single-neuron variability during reaching movements in primates., Journal of Neuroscience, vol. 25 no. 46 (November, 2005), pp. 10712-10716 [16291944], [doi]  [abs].
  55. Goodman, AM; Oliver, RA; Henriquez, CS; Wolf, PD, A membrane model of electrically remodelled atrial myocardium derived from in vivo measurements., Europace, vol. 7 Suppl 2 (September, 2005), pp. 135-145 [16102511], [doi]  [abs].
  56. Tranquillo, JV; Hlavacek, J; Henriquez, CS, An integrative model of mouse cardiac electrophysiology from cell to torso., Europace, vol. 7 Suppl 2 (September, 2005), pp. 56-70 [16102504], [doi]  [abs].
  57. Jacquemet, V; Henriquez, CS, Finite volume stiffness matrix for solving anisotropic cardiac propagation in 2-D and 3-D unstructured meshes., Ieee Transactions on Bio Medical Engineering, vol. 52 no. 8 (August, 2005), pp. 1490-1492 [TBME.2005.851459], [doi]  [abs].
  58. Sampson, KJ; Henriquez, CS, Electrotonic influences on action potential duration dispersion in small hearts: a simulation study., American Journal of Physiology Heart and Circulatory Physiology, vol. 289 no. 1 (July, 2005), pp. H350-H360 [15734889], [doi]  [abs].
  59. Eaton, KP; Henriquez, CS, Confounded spikes generated by synchrony within neural tissue models, Neurocomputing, vol. 65-66 no. SPEC. ISS. (June, 2005), pp. 851-857, Elsevier BV [082], [doi]  [abs].
  60. Lebedev, MA; Carmena, JM; O'Doherty, JE; Zacksenhouse, M; Henriquez, CS; Principe, JC; Nicolelis, MAL, Cortical ensemble adaptation to represent velocity of an artificial actuator controlled by a brain-machine interface., Journal of Neuroscience, vol. 25 no. 19 (May, 2005), pp. 4681-4693 [15888644], [doi]  [abs].
  61. Oliver, RA; Henriquez, CS; Krassowska, W, Bistability and correlation with arrhythmogenesis in a model of the right atrium., Annals of Biomedical Engineering, vol. 33 no. 5 (May, 2005), pp. 577-589 [15981859], [doi]  [abs].
  62. Tranquillo, JV; Burwell, DO; Henriquez, CS, Analytical model of extracellular potentials in a tissue slab with a finite bath., Ieee Transactions on Bio Medical Engineering, vol. 52 no. 2 (February, 2005), pp. 334-338 [15709672], [doi]  [abs].
  63. Tranquillo, JV; Franz, MR; Knollmann, BC; Henriquez, AP; Taylor, DA; Henriquez, CS, Genesis of the monophasic action potential: role of interstitial resistance and boundary gradients., American Journal of Physiology Heart and Circulatory Physiology, vol. 286 no. 4 (April, 2004), pp. H1370-H1381 [14656706], [doi]  [abs].
  64. Shao, H; Sampson, KJ; Pormann, JB; Rose, DJ; Henriquez, CS, A resistor interpretation of general anisotropic cardiac tissue., Mathematical Biosciences, vol. 187 no. 2 (February, 2004), pp. 155-174 [14739082], [doi]  [abs].
  65. Henriquez, CS; Tranquillo, JV; Weinstein, D; Hsu, EW; Johnson, CR, Three-dimensional Propagation in Mathematic Models: Integrative Model of the Mouse Heart (January, 2004), pp. 273-281, Elsevier [doi] .
  66. Carmena, JM; Lebedev, MA; Crist, RE; O'Doherty, JE; Santucci, DM; Dimitrov, DF; Patil, PG; Henriquez, CS; Nicolelis, MAL, Learning to control a brain-machine interface for reaching and grasping by primates., Plos Biology, vol. 1 no. 2 (November, 2003), pp. E42 [14624244], [doi]  [abs].
  67. Kappenberger, L; Virag, N; Henriquez, C, Proceedings of the Third International Workshop on Computer Simulation and Experimental Assessment of Cardiac Electrical Function: Foreword, Journal of Cardiovascular Electrophysiology, vol. 14 no. 10 SUPPL. (October, 2003), pp. S117 .
  68. Jacquemet, V; Virag, N; Ihara, Z; Dang, L; Blanc, O; Zozor, S; Vesin, J-M; Kappenberger, L; Henriquez, C, Study of unipolar electrogram morphology in a computer model of atrial fibrillation., Journal of Cardiovascular Electrophysiology, vol. 14 no. 10 Suppl (October, 2003), pp. S172-S179 [doi]  [abs].
  69. Cherry, EM; Greenside, HS; Henriquez, CS, Efficient simulation of three-dimensional anisotropic cardiac tissue using an adaptive mesh refinement method., Chaos (Woodbury, N.Y.), vol. 13 no. 3 (September, 2003), pp. 853-865 [1.1594685], [doi]  [abs].
  70. Zozor, S; Blanc, O; Jacquemet, V; Virag, N; Vesin, J-M; Pruvot, E; Kappenberger, L; Henriquez, C, A numerical scheme for modeling wavefront propagation on a monolayer of arbitrary geometry., Ieee Transactions on Bio Medical Engineering, vol. 50 no. 4 (April, 2003), pp. 412-420 [doi]  [abs].
  71. Hugh, GS; Henriquez, CS, Application of local learning and biological activation functions to networks of neurons for motor control, International Ieee/Embs Conference on Neural Engineering, Ner, vol. 2003-January (January, 2003), pp. 233-236, IEEE [Gateway.cgi], [doi]  [abs].
  72. Tranquillo, JV; Franz, MR; Knollmann, BC; Henriquez, CS, Monophasic action potentials in murine heart: A model study, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 2 (December, 2002), pp. 1415-1416 [IEMBS.2002.1106457]  [abs].
  73. Knollmann, BC; Tranquillo, J; Sirenko, SG; Henriquez, C; Franz, MR, Microelectrode study of the genesis of the monophasic action potential by contact electrode technique., Journal of Cardiovascular Electrophysiology, vol. 13 no. 12 (December, 2002), pp. 1246-1252 [doi]  [abs].
  74. Pormann, JB; Board, JA; Rose, DJ; Henriquez, CS, Large-scale modeling of cardiac electrophysiology, Computers in Cardiology, vol. 29 (December, 2002), pp. 259-262, IEEE [CIC.2002.1166757], [doi]  [abs].
  75. Sampson, KJ; Henriquez, CS, Interplay of ionic and structural heterogeneity on functional action potential duration gradients: Implications for arrhythmogenesis., Chaos (Woodbury, N.Y.), vol. 12 no. 3 (September, 2002), pp. 819-828 [12779610], [doi]  [abs].
  76. Hugh, GS; Laubach, M; Nicolelis, MAL; Henriquez, CS, A simulator for the analysis of neuronal ensemble activity: Application to reaching tasks, Neurocomputing, vol. 44-46 (July, 2002), pp. 847-854, Elsevier BV [doi]  [abs].
  77. Muzikant, AL; Hsu, EW; Wolf, PD; Henriquez, CS, Region specific modeling of cardiac muscle: comparison of simulated and experimental potentials., Annals of Biomedical Engineering, vol. 30 no. 7 (July, 2002), pp. 867-883 [12398418], [doi]  [abs].
  78. Virag, N; Jacquemet, V; Henriquez, CS; Zozor, S; Blanc, O; Vesin, JM; Pruvot, E; Kappenberger, L, Study of atrial arrhythmias in a computer model based on magnetic resonance images of human atria, Chaos (Woodbury, N.Y.), vol. 12 no. 3 (January, 2002), pp. 754-763, AIP Publishing [1.1483935], [doi]  [abs].
  79. Penland, RC; Harrild, DM; Henriquez, CS, Modeling impulse propagation and extracellular potential distributions in anisotropic cardiac tissue using a finite volume element discretization, Computing and Visualization in Science, vol. 4 no. 4 (January, 2002), pp. 215-226, Springer Nature [s00791-002-0078-4], [doi]  [abs].
  80. Jacquemet, V; Zozor, S; Virag, N; Blanc, O; Vesin, JM; Henriquez, CS; Pruvot, E; Kappenberger, L, Simulated atrial fibrillation in a computer model of human atria, International Conference on Digital Signal Processing, Dsp, vol. 1 (January, 2002), pp. 393-398, IEEE [ICDSP.2002.1189668], [doi]  [abs].
  81. Hugh, G.S. and Laubach, M. and Nicolelis, M.A.L. and Henriquez, C.S., A simulator for the analysis of neuronal ensemble activity: Application to reaching tasks, Neurocomputing, vol. 44-46 (2002), pp. 847 - 854 [S0925-2312(02)00482-4]  [abs].
  82. Sampson, KJ; Henriquez, CS, Simulation and prediction of functional block in the presence of structural and ionic heterogeneity, American Journal of Physiology Heart and Circulatory Physiology, vol. 281 no. 6 50-6 (December, 2001), pp. H2597-H2603  [abs].
  83. Henriquez, AP; Vogel, R; Muller-Borer, BJ; Henriquez, CS; Weingart, R; Cascio, WE, Influence of dynamic gap junction resistance on impulse propagation in ventricular myocardium: a computer simulation study., Biophysical Journal, vol. 81 no. 4 (October, 2001), pp. 2112-2121 [doi]  [abs].
  84. Hsu, EW; Henriquez, CS, Myocardial fiber orientation mapping using reduced encoding diffusion tensor imaging., Journal of Cardiovascular Magnetic Resonance : Official Journal of the Society for Cardiovascular Magnetic Resonance, vol. 3 no. 4 (January, 2001), pp. 339-347 [11777226], [doi]  [abs].
  85. Sachse, FB; Henriquez, C; Seemann, G; Riedel, C; Werner, CD; Penland, RC; Davis, B; Hsu, E, Modeling of fiber orientation in the ventricular myocardium with MR diffusion imaging, Computers in Cardiology (January, 2001), pp. 617-620, IEEE [doi]  [abs].
  86. Davis, B; Penland, C; Henriquez, C; Hsu, E, Three-dimensional, reduced encoding MRI assessment of myocardial fiber architecture, Annals of Biomedical Engineering, vol. 28 no. SUPPL. 1 (December, 2000), pp. S-37  [abs].
  87. Pormann, JB; Board, JA; Rose, DJ; Henriquez, CS, Automated membrane model creation, Computers in Cardiology (December, 2000), pp. 235-238, IEEE [CIC.2000.898500], [doi]  [abs].
  88. Pormann, J; Board, J; Henriquez, C, Modular simulation of cardiac dynamics on distributed memory parallel computers, Annals of Biomedical Engineering, vol. 28 no. SUPPL. 1 (December, 2000), pp. S-30  [abs].
  89. Harrild, D; Henriquez, C, A computer model of normal conduction in the human atria., Circulation Research, vol. 87 no. 7 (September, 2000), pp. E25-E36 [doi]  [abs].
  90. Harrild, DM; Penland, RC; Henriquez, CS, A flexible method for simulating cardiac conduction in three-dimensional complex geometries., Journal of Electrocardiology, vol. 33 no. 3 (July, 2000), pp. 241-251 [10954377], [doi]  [abs].
  91. Cherry, EM; Greenside, HS; Henriquez, CS, A space-time adaptive method for simulating complex cardiac dynamics., Physical Review Letters, vol. 84 no. 6 (February, 2000), pp. 1343-1346 [11017514], [doi]  [abs].
  92. Rose, DJ; Shao, H; Henriquez, CS, Discretization of anisotropic convection-diffusion equations, convective M-matrices and their iterative solution, Vlsi Design, vol. 10 no. 4 (January, 2000), pp. 485-529, Hindawi Limited [doi]  [abs].
  93. Penland, RC; Sampson, KJ; Henriquez, CS, Premature beats undergo transmural conduction slowing due to intrinsic APD dispersion, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 2 (December, 1999), pp. 1189 [IEMBS.1999.804355]  [abs].
  94. Hsu, EW; Muzikant, AL; Matulevicius, SA; Penland, RC; Henriquez, CS, Magnetic resonance myocardial fiber-orientation mapping with direct histological correlation, American Journal of Physiology Heart and Circulatory Physiology, vol. 43 no. 5 (May, 1998), pp. H1627-H1634  [abs].
  95. Hsu, EW; Muzikant, AL; Matulevicius, SA; Penland, RC; Henriquez, CS, Magnetic resonance myocardial fiber-orientation mapping with direct histological correlation, American Journal of Physiology Heart and Circulatory Physiology, vol. 274 no. 5 43-5 (May, 1998), pp. H1627-H1634  [abs].
  96. Muzikant, AL; Henriquez, CS, Bipolar stimulation of a three-dimensional bidomain incorporating rotational anisotropy., Ieee Transactions on Bio Medical Engineering, vol. 45 no. 4 (April, 1998), pp. 449-462 [9556962], [doi]  [abs].
  97. Muzikant, AL; Henriquez, CS, Validation of three-dimensional conduction models using experimental mapping: are we getting closer?, Progress in Biophysics and Molecular Biology, vol. 69 no. 2-3 (January, 1998), pp. 205-223 [9785939], [doi]  [abs].
  98. Pendekanti, R; Henriquez, CS; Hoffmann, DA, Electrochemical model of the transient resistance of a bubble layer, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 1 (December, 1997), pp. 136-139 [IEMBS.1997.754484]  [abs].
  99. Goldberg, RL; Jurgens, MJ; Mills, DM; Henriquez, CS; Vaughan, D; Smith, SW, Modeling of piezoelectric multilayer ceramics using finite element analysis, Ieee Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 44 no. 6 (December, 1997), pp. 1204-1214, Institute of Electrical and Electronics Engineers (IEEE) [58.656622], [doi]  [abs].
  100. Pendekanti, R; Henriquez, C; Tomassoni, G; Miner, W; Fain, E; Hoffmann, D; Wolf, P, Surface coverage effects on defibrillation impedance for transvenous electrodes., Annals of Biomedical Engineering, vol. 25 no. 4 (July, 1997), pp. 739-746 [doi]  [abs].
  101. Muzikant, AL; Henriquez, CS, Paced activation mapping reveals organization of myocardial fibers: a simulation study., Journal of Cardiovascular Electrophysiology, vol. 8 no. 3 (March, 1997), pp. 281-294 [9083878], [doi]  [abs].
  102. Harrild, DM; Henriquez, CS, A finite volume model of cardiac propagation., Annals of Biomedical Engineering, vol. 25 no. 2 (March, 1997), pp. 315-334 [9084837], [doi]  [abs].
  103. Muzikant, A.L. and Weitzel, E.K. and Henriquez, C.S., Estimating fiber directions from local activation mapping: a model study, 1995 IEEE Engineering in Medicine and Biology 17th Annual Conference and 21 Canadian Medical and Biological Engineering Conference (Cat. No.95CH35746), vol. vol.1 (1997), pp. 81 - 2 [IEMBS.1995.575010]  [abs].
  104. Trayanova, N. and Eason, J. and Henriquez, C.S., Electrode polarity effects on the shock-induced transmembrane potential distribution in the canine heart, 1995 IEEE Engineering in Medicine and Biology 17th Annual Conference and 21 Canadian Medical and Biological Engineering Conference (Cat. No.95CH35746), vol. vol.1 (1997), pp. 317 - 18 [IEMBS.1995.575128]  [abs].
  105. Papazoglou, A.A. and Henriquez, C.S., Dynamic adjustments in DiFrancesco-Noble membrane kinetics during 2D reentrant propagation, Proceedings of the 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. `Bridging Disciplines for Biomedicine' (Cat. No.96CH36036), vol. vol.3 (1997), pp. 1248 - 9 [IEMBS.1996.652795]  [abs].
  106. Muzikant, A.L. and Henriquez, C.S., Field stimulation of a three-dimensional bidomain block incorporating rotational anisotropy, Proceedings of the 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. `Bridging Disciplines for Biomedicine' (Cat. No.96CH36036), vol. vol.3 (1997), pp. 1291 - 2 [IEMBS.1996.652817]  [abs].
  107. Muzikant, AL; Henriquez, CS, Field stimulation of a three-dimensional bidomain block incorporating rotational anisotropy, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 3 (December, 1996), pp. 1291-1292  [abs].
  108. Papazoglou, AA; Henriquez, CS, Dynamic adjustments in DiFrancesco-Noble Membrane kinetics during 2D reentrant propagation, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 3 (December, 1996), pp. 1248-1249  [abs].
  109. Henriquez, CS; Papazoglou, AA, Using computer models to understand the roles of tissue structure and membrane dynamics in arrhythmogenesis, Proceedings of the Ieee, vol. 84 no. 3 (December, 1996), pp. 334-354, Institute of Electrical and Electronics Engineers (IEEE) [5.486738], [doi]  [abs].
  110. Henriquez, CS; Muzikant, AL; Smoak, CK, Anisotropy, fiber curvature, and bath loading effects on activation in thin and thick cardiac tissue preparations: simulations in a three-dimensional bidomain model., Journal of Cardiovascular Electrophysiology, vol. 7 no. 5 (May, 1996), pp. 424-444 [8722588], [doi]  [abs].
  111. Pendekanti, R; Henriquez, CS, Spatial potential and current distributions along transvenous defibrillation electrodes: variation of electrode characteristics., Annals of Biomedical Engineering, vol. 24 no. 1 (January, 1996), pp. 156-167 [8669713], [doi]  [abs].
  112. Muzikant, AL; Weitzel, EK; Henriquez, CS, Estimating fiber directions from local activation mapping: a model study, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 17 no. 1 (December, 1995), pp. 81-82  [abs].
  113. Pendekanti, R; Henriquez, C; Wolf, P; Drew, H, Effect of point of connection on the surface current profile over transvenous defibrillation electrodes, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 17 no. 1 (December, 1995), pp. 311-312  [abs].
  114. Jain, MK; Wolf, PD; Henriquez, C, Chilled-tip electrode radio frequency ablation of the endocardium: a finite element study, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 17 no. 1 (December, 1995), pp. 273-274  [abs].
  115. Zimering, R; Henriquez, C; Harrild, D, Recovery of cardiac transmembrane potential from extracellular potential in two-dimensional anisotropic tissue, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 17 no. 1 (December, 1995), pp. 75-76  [abs].
  116. Trayanova, N; Eason, J; Henriquez, CS, Electrode polarity effects on the shock-induced transmembrane potential distribution in the canine heart, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 17 no. 1 (December, 1995), pp. 317-318  [abs].
  117. Pendekanti, R; Henriquez, C; Wolf, PD; Hoffmann, D; Yang, W, Combined experimental and modeling approach for designing transvenous defibrillation leads, Ieee/ Engineering in Medicine and Biology Society Annual Conference (December, 1995), pp. 3.57-3.58  [abs].
  118. Eason, J; Henriquez, C; Wolf, P, Importance of anisotropy in potential gradient calculations, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 16 no. pt 1 (December, 1994), pp. 67-68  [abs].
  119. Pendekanti, R; Henriquez, C; Wolf, P, Importance of representing surface geometry and electrode resistance of transvenous electrodes in defibrillation models, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 16 no. pt 1 (December, 1994), pp. 29-30  [abs].
  120. Hooke, N; Henriquez, CS; Lanzkron, P; Rose, D, Linear algebraic transformations of the bidomain equations: implications for numerical methods., Mathematical Biosciences, vol. 120 no. 2 (April, 1994), pp. 127-145 [8204981], [doi]  [abs].
  121. Henriquez, CS; Papazoglou, AA, Conduction in a 3D bidomain representation of cardiac tissue with unequal anisotropy, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 15 no. pt 2 (December, 1993), pp. 748-749  [abs].
  122. Henriquez, CS, Simulating the electrical behavior of cardiac tissue using the bidomain model., Critical Reviews in Biomedical Engineering, vol. 21 no. 1 (January, 1993), pp. 1-77 [8365198]  [abs].
  123. Pollard, AE; Hooke, N; Henriquez, CS, Cardiac propagation simulation., Critical Reviews in Biomedical Engineering, vol. 20 no. 3-4 (January, 1992), pp. 171-210  [abs].
  124. Pollard, AE; Trayanova, N; Henriquez, CS, A comparison of iterative methods for the determination of the interstitial potential distribution with the bidomain model, Conference Proceedings : ... Annual International Conference of the Ieee Engineering in Medicine and Biology Society. Ieee Engineering in Medicine and Biology Society. Annual Conference, vol. 2 (January, 1992), pp. 602-603 [doi]  [abs].
  125. Henriquez, CS; Hooke, NF, Effect of interstitial anisotropy and the extracellular volume conductor on action potential morphology in a thin layer of cardiac tissue, Conference Proceedings : ... Annual International Conference of the Ieee Engineering in Medicine and Biology Society. Ieee Engineering in Medicine and Biology Society. Annual Conference, vol. 2 (January, 1992), pp. 600-601 [doi]  [abs].
  126. Trayanova, N; Pilkington, T; Henriquez, C, A periodic bidomain model for cardiac tissue, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 13 no. pt 2 (December, 1991), pp. 502-503  [abs].
  127. Henriquez, CS, Effect of the anisotropy ratio on directional differences in conduction behavior in a planar slab model of cardiac tissue, Annals of Biomedical Engineering, vol. 19 no. 5 (December, 1991), pp. 621-622  [abs].
  128. Trayanova, N; Henriquez, CS, Examination of the choice of models for computing the extracellular potential of a single fibre in a restricted volume conductor., Medical & Biological Engineering & Computing, vol. 29 no. 6 (November, 1991), pp. 580-584 [1813752], [doi]  [abs].
  129. Trayanova, N; Henriquez, CS, Modification of a cylindrical bidomain model for cardiac tissue., Mathematical Biosciences, vol. 104 no. 1 (April, 1991), pp. 59-72 [1804456], [doi]  [abs].
  130. Henriquez, CS; Trayanova, N, A planar slab propagation model for cardiac tissue, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings no. pt 2 (December, 1990), pp. 617  [abs].
  131. Henriquez, CS; Plonsey, R, Simulation of propagation along a cylindrical bundle of cardiac tissue--I: Mathematical formulation., Ieee Transactions on Bio Medical Engineering, vol. 37 no. 9 (September, 1990), pp. 850-860 [2227972], [doi]  [abs].
  132. Henriquez, CS; Plonsey, R, Simulation of propagation along a cylindrical bundle of cardiac tissue--II: Results of simulation., Ieee Transactions on Bio Medical Engineering, vol. 37 no. 9 (September, 1990), pp. 861-875 [2227973], [doi]  [abs].
  133. Henriquez, CS; Trayanova, N; Plonsey, R, A planar slab bidomain model for cardiac tissue., Annals of Biomedical Engineering, vol. 18 no. 4 (January, 1990), pp. 367-376 [2221506], [doi]  [abs].
  134. Miller, CE; Henriquez, CS, Finite element analysis of bioelectric phenomena., Critical Reviews in Biomedical Engineering, vol. 18 no. 3 (January, 1990), pp. 207-233  [abs].
  135. Trayanova, N; Henriquez, CS; Plonsey, R, Extracellular potentials and currents of a single active fiber in a restricted volume conductor., Annals of Biomedical Engineering, vol. 18 no. 3 (January, 1990), pp. 219-238 [2372160], [doi]  [abs].
  136. Trayanova, NA; Henriquez, CS; Plonsey, R, Limitations of approximate solutions for computing the extracellular potential of single fibers and bundle equivalents., Ieee Transactions on Bio Medical Engineering, vol. 37 no. 1 (January, 1990), pp. 22-35 [2154399], [doi]  [abs].
  137. Henriquez, CS; Plonsey, R, Bidomain model for simulating propagation in multicellular cardiac tissue, Annual International Conference of the Ieee Engineering in Medicine and Biology Proceedings, vol. 11 pt 4 (December, 1989), pp. 1266, IEEE [doi]  [abs].
  138. Plonsey, R; Henriquez, CS, Modifications of the cardiac double-layer source arising from interstitial potentials., Journal of Electrocardiology, vol. 22 Suppl (January, 1989), pp. 48-53 [2614314], [doi] .
  139. Henriquez, C.S. and Plonsey, R., A biodomain model for simulating propagation in multicellular cardiac tissue, Images of the Twenty-First Century. Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society (Cat. No.89CH2770-6) (1989), pp. 1266 vol.4 - [IEMBS.1989.96186]  [abs].
  140. Henriquez, CS; Trayanova, N; Plonsey, R, Source distribution in multicellular preparations, Ieee/Engineering in Medicine and Biology Society Annual Conference, vol. 10 no. pt2 (November, 1988), pp. 948-949, IEEE [IEMBS.1988.95272], [doi]  [abs].
  141. Miller, CE; Henriquez, CS, Three-dimensional finite element solution for biopotentials: erythrocyte in an applied field., Ieee Transactions on Bio Medical Engineering, vol. 35 no. 9 (September, 1988), pp. 712-718 [7272], [doi]  [abs].
  142. Henriquez, CS; Trayanova, N; Plonsey, R, Potential and current distributions in a cylindrical bundle of cardiac tissue., Biophysical Journal, vol. 53 no. 6 (June, 1988), pp. 907-918 [3395660], [doi]  [abs].
  143. Plonsey, R; Henriquez, C; Trayanova, N, Extracellular (volume conductor) effect on adjoining cardiac muscle electrophysiology., Medical & Biological Engineering & Computing, vol. 26 no. 2 (March, 1988), pp. 126-129 [3226166], [doi] .
  144. Henriquez, CS; Plonsey, R, Effect of resistive discontinuities on waveshape and velocity in a single cardiac fibre., Medical & Biological Engineering & Computing, vol. 25 no. 4 (July, 1987), pp. 428-438 [3450994], [doi]  [abs].
  145. Henriquez, CS; Plonsey, R, EFFECT OF JUNCTIONAL DISCONTINUITIES ON CARDIAC PROPAGATION., Ieee/Engineering in Medicine and Biology Society Annual Conference (December, 1986), pp. 244-246  [abs].
  146. Henriquez, C.S. and Plonsey, R., The effect of junctional discontinuities on cardiac propagation, Proceedings of the Eighth Annual Conference of the IEEE/Engineering in Medicine and Biology Society (Cat. No. 86CH2368-9) (1986), pp. 244 - 7  [abs].