-
V Fedorov, J Constantino, V Nikolski, N Trayanova, I. Efimov, Structural determinants of shock-induced electroporation in the ventricles, Biophysical Society Annual Meeting, Baltimore, March 2007.
- B. Rodríguez, B. Tice, R. Blake, J. Eason, D. Gavaghan, N. Trayanova.
Vulnerability to electric shocks in regional ischemia. Heart Rhythm,3:S226, 2006.
- M. Maleckar, R. Blake, N. Trayanova.
Fibrosis decreases activation time during defibrillation shocks.
Heart Rhythm,3:S187, 2006.
- M. Woods, M. Maleckar, V. Sidorov, M. Holcomb, D. Mashburn, N. Trayanova, J. Wikswo.
Negative virtual electrode polarization in the rabbit left ventricle delays activation during
diastolic field stimulation.
Heart Rhythm, 3:S181, 2006.
- T. Maharaj, B. Rodriguez, R. Blake, N. Trayanova, D. Gavaghan.
Role of transmural heterogeneities in vulnerability to electric shocks.
Heart Rhythm, 3:S225, 2006.
- D. Bourn, R. Gray, N. Trayanova.
Virtual electrode-induced propagated grade responses and arrhythmogenesis.
Heart Rhythm, 3:S262-S263, 2006.
- M. Yamazaki, H. Honjo, T. Ashihara, M. Harada, I. Sakuma, K. Nakazawa, M. Horie,
N. Trayanova, K. Kamiya, I. Kodama.
Regional cooling facilitates termination of spiral wave reentry through unpinning of
rotors in 2-dimensional rabbit ventricular myocardium.
Heart Rhythm, 3:S110, 2006.
- X. Jie, B. Rodríguez, R. Blake, J. De Groot, R. Coronel, N. Trayanova.
Reentry in surviving epicardium coupled to depolarized midmyocardial tissue: a simulation of
arrhythmogenesis during phase 1B.
Heart Rhythm, 3:S267-S268, 2006.
- V. Gurev, N. Trayanova.
Stretch-induced reentrant arrhythmias during acute regional ischemia.
Heart Rhythm,3:S267, 2006.
- T. Arafune, T. Ashihara, K. Nakazawa, N. Trayanova, M. Yamazaki, H. Honjo,
K. Kamiya, I. Kodama, I. Sakuma.
Analysis of shock induced virtual electrode polarization in various hypothermia and capture
mechanisms.
Heart Rhythm, S263, 2006.
- G. Plank, A. Prassel, E. Vigmond, R. Burton, J. Schneider, N. Trayanova, P. Kohl.
Development of a microanatomically accurate rabbit ventricular wedge model.
Heart Rhythm, 3:S111, 2006.
- J. Constantino, R. Blake, M. Marshall, N. Trayanova.
Decreasing LV postshock excitable gap lowers the upper linit of vulnerability.
Heart Rhythm, 3:S225-S226, 2006.
- S. Kuo, N. Niwa, T. Ashihara, V. Mikolski, V. Fedorov, I. Efimov, N. Trayanova.
Electroporation in initiation of spontaneous ectopic postshock activations.
Heart Rhythm, 3:S222, 2006.
- V. Gurev, R. Blake, N. Trayanova.
Myocardial stretch alters the pattern of post-shock acitivity.
Heart Rhythm, 3:S310-S311, 2006.
- B. Tice, B. Rodríguez, N. Trayanova. Arrthythmogenicity of transmural
heterogeneities in a realistic model of regional ischemia. Heart Rhythm,
2(5):S261, 2005.
- M. Bishop, B. Rodríguez, J. Eason, J. Whiteley, J. Noble, N. Trayanova, D. Gavaghan. Direct optical mapping signal synthesis over a
geometrically accurate ventricular model. Heart Rhythm, 2(5):S220, 2005.
- B. Rodríguez, L. Li, J. Eason, I. Efimov, N. Trayanova. Role of ventricular anatomy in vulnerability to electric shocks. Heart Rhythm, 2(5):S257,
2005.
- M. Maleckar, D. Bourn, B. Rodríguez, N. Trayanova. Mechanistic insight into the increase in the upper limit of vulnerability to electric shocks
following rapid pacing. Heart Rhythm, 2(5):S219, 2005.
- W. Li, P. Kohl, N. Trayanova, Myocardial ischemia lowers precordial thump efficacy: an inquiry into mechanisms using 3D simulations, 2(5):S219, 2005.
- E. Vigmond, V. Tsoi, S. Kuo, Y. Yin, N. Trayanova, P. Page, Using atrial electrograms to estimate vagal influence,
Heart Rhythm, 2(5):S179, 2005.
- T. Ashihara, N. Trayanova, T. Yao, T. Ozawa, M. Ito, M. Horia: Mechanisms underlying Andersen syndrome in a human ventricular model. Heart Rhythm, 2(5):S181-S182, 2005.
- T. Ashihara, N. Trayanova, K. Nakazawa, M. Yamazaki, H. Honjo, I. Sakuma, K. Kamiya, I. Kodama: Spiral wave control by regional cooling in a bidomain model. Heart Rhythm. 2(6):S220, 2005.
- H. Honjo, M. Yamazaki, T. Ashihara, I. Sakuma, K. Nakazawa, N. Trayanova, K. Kamiya, I. Kodama: Control of functional reentry by regional cooling in an epicardial layer of rabbit ventricular myocardium. Heart Rhythm. 2(6):S140, 2005.
- T. Ashihara, K. Nakazawa, M. Yamazaki, H. Honjo, I. Sakuma, K. Kamiya, I. Kodama, N. Trayanova: Cardiac tissue responses to electrical stimulation under regional cooling. Jpn J Physiol, 55:S88, 2005.
- B. Rodríguez, N. Trayanova, Cardiac vulnerability to electric shocks during phase 1A of acute global ischemia, The 31st International Congress on Electrocardiology (June 27-July 1, 2004) Kyoto, Japan
- B. Rodríguez, Trayanova N . Modeling cardiac defibrillation under normal and ischemic conditions, SIAM Conference on Life Sciences, Portland July 11-16, 2004
- B. Rodríguez, B. Tice, J. Eason, F. Aguel, N. Trayanova, Cardiac vulnerability to electric shocks during phase 1A of acute global ischemia, NASPE Heart Rhythm annual meeting, May 18-22, 2004, San Francisco
- P. Kohl, A. Garny, N. Trayanova. (How) do computer models help us understand arrhythmias?, J. Molecular and Cellular Electrophysiology, 36:740, 2004.
- BM Tice, B. Rodrguz, JC Eason, F Aguel, N Trayanova, Computational Study of the Regionally Ischemic Heart, Multiscale Modeling Workshop, UCSD, March 25-27, 2004.
- M. Maleckar, N. Trayanova. Paradoxical activation time during diastolic stimulation in the rabbit ventricles, Annals Biomed. Eng., 31 (BMES Annual Meeting abstracts), 2003.
- T. Ashihara, T. Yao, T. Namba, A. Kawase, T. Ikeda, M. Ito, M. Horie, K. Nakazawa, N. Trayanova. Temporal excitable gap during fibrillation is dependent on fiber orientation due to anode-break excitation. PACE, 26:1026, 2003.
- D. Bourn, N. Trayanova, R. Gray.Isoelectric Window as a Function of Coupling Interval, PACE, 26:1044, 2003.
- J. Eason, M. Hillebrenner, N. Trayanova. A relationship between DFT, arrhythmia complexity, and the isoelectric window.PACE, 26:1109, 2003.
- C. Haro, C. Larson, F. Aguel, N. Trayanova. Post-shock vortex filament dynamics in the rabbit ventricles. PACE, 26:997, 2003.
- S. Kuo, N. Trayanova. Action Potential Duration Heterogeneity in the Atrium and its Effect on Atrial Reentry, PACE, 26:985, 2003.
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- B. Rodriguez, C. Campbell, L. Li, J, Eason, I. Efimov, N. Trayanova. Effect of electrode polarity on shock-induced arrhythmogenesis,PACE, 26:978, 2003.
- E. Vigmond, V., S. Kuo, N. Trayanova. Role of Vagal Stimulation in Atrial FibrillationPACE, 26:1026, 2003.
- N. Trayanova. Electrical induction of arrhythmias, Proceedings of the SIAM annual meeting, 2003.
- N. Trayanova. Simulation of shock-induced electrical behavior in the heart, Proceedings of the SIAM Conference on Computational Science and Engineering, p.105, 2003.
- N. Trayanova, F. Aguel. Transmural shock-induced scroll-wave filaments following unsuccessful shocks in the rabbit heart, Circulation, 106:II-192, 2002.
- D. Bourn, N. Trayanova, R. Gray, Shock-Induced arrhythmogenesis and isoelectric window, PACE 25(partII):604, 2002.
- F. Aguel, C. Campbell, N. Trayanova, Defibrillation model of Langendorf perfused rabbit heart exhibits
no transmural reentry, PACE 25(partII):628, 2002.
- E. Kalu, N. Trayanova, Modeling
electric field stimulation of single cardiac cell: electrodiffusive model
approach, 21st Meeting of the Electrochemical
Society in Philadelphia, PA, May 2002.
- E. Vigmond, S. Kuo; N. Trayanova. Effects of APD restitution on atrial reentry, Bulletin of the American Physical Society, 47(partII):949, 2002
- F. Aguel, C. Campbell, N. Trayanova. Active bidomain simulation of defibrillation in whole rabbit ventricles with real fiber orientation,
Proceedings of the BMES meeting, Annals Biomed. Eng., 29 (Suppl.1):S48, 2001.
- J. Meunier, N. Trayanova, R. Gray. AC Defibrillation in an Anatomical Model of the Canine Heart., Proceedings of the BMES meeting, Annals Biomed. Eng., 29 (Suppl.1):S49,2001.
- F. Aguel, A. Lindblom, N. Trayanova. Vulnerability to far-field stimulation: Critical point hypothe??sis revisited, PACE 24(partII):670, 2001.
- N. Trayanova, M. Hillebrener, F. Aguel, C. Campbell, J. Eason.
Transmural post-shock arrhythmogenesis in
the canine heart, PACE 24 (part II):670, 2001.
- T. Baynham, N. Trayanova, R. Ideker, S. Knisley. Line stimulation across fibers produces arrhythmias via break excitation that depends on virtual electrodes, Proceedings of the AHA meeting, Circulation, 102:1674,2000
- N. Trayanova. Shock-induced Arrhythmogenesis: A Modeling Approach, World Congress 2000 (CD-ROM).
- E. Vigmond, N. Trayanova, P. Moore. An anatomically accurate model for the study of atrial reentry, World Congress 2000 (CD-ROM).
- J. Meunier, N. Trayanova, R. Gray. Sinusoidal Stimulation of Myocardial Tissue:
Effects on a Two-Dimensional Grid. World Congress 2000 (CD-ROM).
- E Vigmond, N. Trayanova. Isolated Cable Approach for Simulations of Cardiac Electrical Activity, SIAM Annual Meeting, p. 89, July 2000.
- F. Aguel, N. Trayanova, I. Efimov. External defibrillation model of anatomically accurate rabbit ventricles, in: PACE, vol.23, p.616, 21st Scientific Sessions of NASPE, 2000.
- A. Lindblom, N. Trayanova, B. Roth. The role of virtual electrodes in arrhythmogenesis,
18th Annual Houston Conference on Biomedical
Engineering Research, p. 120, Feb. 2000.
- C. Anderson, N. Trayanova, K. Skouibine. Termination of a spiral waves with monophasic and biphasic shocks: The role of shock timing,
18th Annual Houston Conference on Biomedical
Engineering Research, p. 121, Feb. 2000.
- N. Trayanova, F. Aguel. Virtual electrode polarization in the rabbit ventricles, 5th International Dead Sea Symposium on Cardiac Arrhythmias and Device Therapy, Europace 1:A7, 2000.
- F. Aguel, N. Trayanova, S. Knisley.?? Effect of
myocardial fibrous structure on shock-induced transmembrane potential,
17th Annual Houston Conference on Biomedical Engineering Research, Feb. 1999.
- J. Meunier, N. Trayanova, R. Gray. Sinewave stimulation of myocardial
tissue: effects on single cells.17th Annual Houston Conference on Biomedical
Engineering Research, Feb. 1999.
- N. Trayanova, F. Aguel, J. Eason, G. Siekas, M. Fishler, A. Street. Virtual electrodes induced throughout the heart by ICD defibrillation, PACE,22:A67, 1999.
- E. Entcheva, N. Trayanova, F. Claydon. Uniform electric field can induce
virtual electrodes through cardiac fiber curvature, PACE, 21:961, 1998.
- F. Aguel, N. Trayanova, S. Knisley. Shock extracellular fields and
their impact on transmembrane potentials in the myocardium. Annals Biomed
Eng. 26(suppl.1):S-22, 1998.
- N. Trayanova, F. Aguel, J. Eason, M. Fishler, G. Siekas, Impact of transvenous lead position on active-can ICD defibrillation, In: Deas maladies de coer et des vaisseaux, vol. 91, Cardiostim, 1998, 181.
- K. Skouibine, N. Trayanova, F. Aguel. Far-field stimulation of cardiac
tissue. Annals Biomed
Eng. 26(suppl.1):S-22, 1998.
- Trayanova N. F. Aguel, J.C. Eason, M. Fishler, G. Siekas. Myocardial fiber
architecture affects transvenous defibrillation thresholds in a human thorax
model, Annals Biomed. Eng., 25:S60, 1997.
- Trayanova N., J.C. Eason. Shock-induced transmembrane potential
distribution in the canine heart: Effects of electrode location and polarity
PACE 17:331, 1995.
- Trayanova N. Cardiac stimulation in the presence of a perfusing bath. Proc. of the World Congress on Medical Physics and Biomedical Engineering,
p.404, 1994.
- Trayanova N. Cardiac tissue in an electric fie??ld, Annals Biomed.
Eng., 22:28, 1994.
- Trayanova N. Subthreshold stimulation in classical and periodic models
for
cardiac tissue. Annals Biomed. Eng., 19:621, 1991.
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