Evolution of activation patterns during long-duration ventricular fibrillation in pigs.
暂无分享,去创建一个
Jian Huang | Derek J Dosdall | Raymond E Ideker | Jack M Rogers | R. Ideker | D. Dosdall | K. Cheng | J. Rogers | Jian Huang | Kang-An Cheng | Li Li | Li Li
[1] The Mechanism and Nature of Ventricular Fibrillation , 1941 .
[2] A. Vleugels,et al. Ionic Currents during Hypoxia in Voltage‐Clamped Cat Ventricular Muscle , 1980, Circulation research.
[3] D J Roe,et al. Estimating effectiveness of cardiac arrest interventions: a logistic regression survival model. , 1997, Circulation.
[4] P. Hogeweg,et al. Spiral breakup in a modified FitzHugh-Nagumo model , 1993 .
[5] B. Hoffman,et al. Effects of ischemia and hypoxia on the specialized conducting system of the canine heart. , 1961, American heart journal.
[6] Marc Courtemanche,et al. Complex spiral wave dynamics in a spatially distributed ionic model of cardiac electrical activity. , 1996, Chaos.
[7] R. Ideker,et al. Evolution of the Organization of Epicardial Activation Patterns During Ventricular Fibrillation , 1998, Journal of cardiovascular electrophysiology.
[8] F. Witkowski,et al. Activation Patterns During Ventricular Fibrillation a , 1990, Annals of the New York Academy of Sciences.
[9] G. Billman,et al. Antiarrhythmic efficacy of selective blockade of the cardiac slowly activating delayed rectifier current, I(Ks), in canine models of malignant ischemic ventricular arrhythmia. , 1999, Circulation.
[10] Jonathan C. Newton,et al. Regional Differences in Ventricular Fibrillation in the Open-Chest Porcine Left Ventricle , 2002, Circulation research.
[11] Mechanism of ventricular defibrillation. The role of tissue geometry in the changes in transmembrane potential in patterned myocyte cultures. , 2000, Circulation.
[12] Z. Bosnjak,et al. The Effects of Isoflurane on the Cardiac Slowly Activating Delayed-Rectifier Potassium Channel in Guinea Pig Ventricular Myocytes , 2003, Anesthesia and analgesia.
[13] S. O. Aase,et al. Predicting Outcome of Defibrillation by Spectral Characterization and Nonparametric Classification of Ventricular Fibrillation in Patients With Out-of-Hospital Cardiac Arrest , 2000, Circulation.
[14] S Nattel,et al. Transient outward and delayed rectifier currents in canine atrium: properties and role of isolation methods. , 1996, The American journal of physiology.
[15] C. Antzelevitch,et al. Differences in the Electrophysiological Response of Canine Ventricular Epicardium and Endocardium to Ischemia Role of the Transient Outward Current , 1993, Circulation.
[16] O. Tovar,et al. Electrophysiological Deterioration During Long-Duration Ventricular Fibrillation , 2000, Circulation.
[17] A. Wechsler,et al. Neonatal myocardial oxygen consumption during ventricular fibrillation, hypothermia, and potassium arrest. , 1996, The Annals of thoracic surgery.
[18] R. Damiano,et al. Defibrillation success is associated with myocardial organization. Spatial coherence as a new method of quantifying the electrical organization of the heart. , 1996, Journal of electrocardiology.
[19] D. Haines,et al. Assessment of Global Atrial Fibrillation Organization to Optimize Timing of Atrial Defibrillation , 2001, Circulation.
[20] J. Tyson,et al. A cellular automation model of excitable media including curvature and dispersion. , 1990, Science.
[21] Wanchun Tang,et al. Predicting the success of defibrillation by electrocardiographic analysis. , 2002, Resuscitation.
[22] G. Gintant,et al. Heterogeneity within the ventricular wall. Electrophysiology and pharmacology of epicardial, endocardial, and M cells. , 1991, Circulation research.
[23] José Jalife. Mathematical approaches to cardiac arrhythmias. , 1990, Annals of the New York Academy of Sciences.
[24] R E Ideker,et al. An automated technique for identification and analysis of activation fronts in a two-dimensional electrogram array. , 1994, Computers and biomedical research, an international journal.
[25] Bruce J. West,et al. Some observations on the questions: is ventricular fibrillation chaos? , 1996 .
[26] F. Fenton,et al. Vortex dynamics in three-dimensional continuous myocardium with fiber rotation: Filament instability and fibrillation. , 1998, Chaos.
[27] R. W. Joyner,et al. Variations in the functional electrical coupling between the subendocardial Purkinje and ventricular layers of the canine left ventricle. , 1985, Circulation research.
[28] N. Bircher. Resuscitation research and consent: ethical and practical issues. , 2003, Critical care medicine.
[29] L. J. Leon,et al. Spatiotemporal evolution of ventricular fibrillation , 1998, Nature.
[30] P. Macklem,et al. Complex systems and the technology of variability analysis , 2004, Critical Care.
[31] P D Wolf,et al. Regional capture of fibrillating ventricular myocardium. Evidence of an excitable gap. , 1995, Circulation research.
[32] D. Sahn. Real-time two-dimensional Doppler echocardiographic flow mapping. , 1985, Circulation.
[33] J Jalife,et al. Distribution of excitation frequencies on the epicardial and endocardial surfaces of fibrillating ventricular wall of the sheep heart. , 2000, Circulation research.
[34] Lance B Becker,et al. Resuscitation after cardiac arrest: a 3-phase time-sensitive model. , 2002, JAMA.
[35] R. A. Gray,et al. Mechanisms of Cardiac Fibrillation , 1995, Science.
[36] P. Wolf,et al. Mechanism of Ventricular Vulnerability to Single Premature Stimuli in Open‐Chest Dogs , 1988, Circulation research.
[37] J. Ross,et al. Fiber Orientation in the Canine Left Ventricle during Diastole and Systole , 1969, Circulation research.
[38] S. Dillon,et al. On the mechanism of ventricular defibrillation. , 1997, Pacing and clinical electrophysiology : PACE.
[39] Position of the American Heart Association on research animal use. , 1985, Circulation.
[40] R. Ideker,et al. Recurrent wavefront morphologies: A method for quantifying the complexity of epicardial activation patterns , 1997, Annals of Biomedical Engineering.
[41] S. Nattel,et al. Characterization of a transient outward K+ current with inward rectification in canine ventricular myocytes. , 1998, American journal of physiology. Cell physiology.
[42] M. Copass,et al. Changing incidence of out-of-hospital ventricular fibrillation, 1980-2000. , 2002, JAMA.
[43] P. Welch. The use of fast Fourier transform for the estimation of power spectra: A method based on time averaging over short, modified periodograms , 1967 .
[44] D. Pollard. Strong Consistency of $K$-Means Clustering , 1981 .
[45] R. Ideker,et al. Improvement of Defibrillation Efficacy and Quantification of Activation Patterns During Ventricular Fibrillation in a Canine Heart Failure Model , 2001, Circulation.
[46] S. Pogwizd,et al. Induction of Delayed Afterdepolarizations and Triggered Activity in Canine Purkinje Fibers by Lysophosphoglycerides , 1986, Circulation research.
[47] A. Wilde,et al. Morphology of electrophysiologically identified junctions between Purkinje fibers and ventricular muscle in rabbit and pig hearts. , 1991, Circulation research.
[48] R. Ideker,et al. Efficient electrode spacing for examining spatial organization during ventricular fibrillation , 1993, IEEE Transactions on Biomedical Engineering.
[49] C. Lau,et al. Calcium-activated transient outward chloride current and phase 1 repolarization of swine ventricular action potential. , 2003, Cardiovascular research.
[50] L. Thornell,et al. The conduction system in the human heart at midgestation-immunohistochemical demonstration of the intermediate filament protein skeletin , 2004, Histochemistry.
[51] R. Ideker,et al. Quantification of activation patterns during ventricular fibrillation in open-chest porcine left ventricle and septum. , 2005, Heart rhythm.
[52] José Jalife,et al. Spiral waves in normal isolated ventricular muscle , 1991 .
[53] M J Janse,et al. Catecholamine release and potassium accumulation in the isolated globally ischemic rabbit heart. , 1988, Journal of molecular and cellular cardiology.
[54] P. Wolf,et al. Stimulus-induced critical point. Mechanism for electrical initiation of reentry in normal canine myocardium. , 1989, The Journal of clinical investigation.
[55] R. Holland,et al. The QRS complex during myocardial ischemia. An experimental analysis in the porcine heart. , 1976, The Journal of clinical investigation.
[56] C. Wiggers,et al. Studies of Ventricular Fibrillation Caused by Electric Shock: , 1930, Annals of noninvasive electrocardiology : the official journal of the International Society for Holter and Noninvasive Electrocardiology, Inc.
[57] Raymond E. Ideker,et al. A quantitative framework for analyzing epicardial activation patterns during ventricular fibrillation , 1997, Annals of Biomedical Engineering.
[58] R. Ideker,et al. A new method for quantifying the motion of epicardial activation wavefronts , 1995, Computers in Cardiology 1995.
[59] R E Ideker,et al. Incidence, evolution, and spatial distribution of functional reentry during ventricular fibrillation in pigs. , 1999, Circulation research.
[60] Patrick D. Wolf,et al. A 528 channel system for the acquisition and display of defibrillation and electrocardiographic potentials , 1993, Proceedings of Computers in Cardiology Conference.
[61] S Swiryn,et al. The coherence spectrum. A quantitative discriminator of fibrillatory and nonfibrillatory cardiac rhythms. , 1989, Circulation.
[62] Capelle,et al. Dispersion of refractoriness in canine ventricular myocardium. Effects of sympathetic stimulation. , 1991, Circulation research.
[63] Karma. Spiral breakup in model equations of action potential propagation in cardiac tissue. , 1993, Physical review letters.
[64] P. S. Chen,et al. The mechanism of termination of reentrant activity in ventricular fibrillation. , 1994, Circulation research.
[65] D P Zipes,et al. Different electrophysiological responses of canine endocardium and epicardium to combined hyperkalemia, hypoxia, and acidosis. , 1980, Circulation research.
[66] P. Wolf,et al. A Quantitative Measurement of Spatial Orderin Ventricular Fibrillation , 1993, Journal of cardiovascular electrophysiology.
[67] R. Ideker,et al. The Transition to Ventricular Fibrillation Induced by Reperfusion After Acute Ischemia in the Dog: A Period of Organized Epicardial Activation , 1981, Circulation.
[68] C. Callaway,et al. Scaling Structure of Electrocardiographic Waveform During Prolonged Ventricular Fibrillation in Swine , 2000, Pacing and clinical electrophysiology : PACE.
[69] James P. Keener,et al. Re-entry in three-dimensional Fitzhugh-Nagumo medium with rotational anisotropy , 1995 .
[70] W. M. Smith,et al. Development of an endocardial-epicardial gradient of activation rate during electrically induced, sustained ventricular fibrillation in dogs. , 1985, The American journal of cardiology.
[71] R. Myerburg,et al. Role of cardiac ATP-regulated potassium channels in differential responses of endocardial and epicardial cells to ischemia. , 1991, Circulation research.
[72] M. Fishbein,et al. Reentrant wave fronts in Wiggers' stage II ventricular fibrillation. Characteristics and mechanisms of termination and spontaneous regeneration. , 1996, Circulation research.
[73] John J. Tyson,et al. When Time Breaks Down: The Three‐Dimensional Dynamics of Electrochemical Waves and Cardiac Arrhythmias , 1988 .
[74] R. Geuze,et al. Effects of duration of ventricular fibrillation and heart massage on haemodynamic responses after defibrillation in dogs. , 1983, Cardiovascular research.