scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.JACC.2008.08.037 |
P8608 | Fatcat ID | release_nwuls4grkzezvbwfpmoxy7ewau |
P932 | PMC publication ID | 2613952 |
P698 | PubMed publication ID | 19022157 |
P5875 | ResearchGate publication ID | 23486190 |
P50 | author | Natalia Trayanova | Q55081211 |
P2093 | author name string | Sanjiv M Narayan | |
Jason D Bayer | |||
Gautam Lalani | |||
P2860 | cites work | Endocardial detection of repolarization alternans | Q30959830 |
Spectral analysis of periodic fluctuations in electrocardiographic repolarization | Q31916012 | ||
Interpretation and classification of microvolt T wave alternans tests | Q34657147 | ||
Ionic current basis of electrocardiographic waveforms: a model study | Q35742067 | ||
Modifying L-type calcium current kinetics: consequences for cardiac excitation and arrhythmia dynamics | Q36303246 | ||
T-wave alternans and the susceptibility to ventricular arrhythmias | Q36368212 | ||
Emerging paradigms of the epidemiology and demographics of sudden cardiac arrest | Q36380496 | ||
From pulsus to pulseless: the saga of cardiac alternans | Q36489923 | ||
Regulation of Ca2+ and electrical alternans in cardiac myocytes: role of CAMKII and repolarizing currents | Q36508617 | ||
Mechanisms and potential therapeutic targets for ventricular arrhythmias associated with impaired cardiac calcium cycling | Q37025197 | ||
Spontaneous sustained ventricular tachycardia in the Electrophysiologic Study Versus Electrocardiographic Monitoring (ESVEM) Trial | Q39371198 | ||
Calcium handling proteins in the failing human heart | Q41514125 | ||
Two types of ventricular fibrillation in isolated rabbit hearts: importance of excitability and action potential duration restitution | Q44160810 | ||
Steep restitution of ventricular action potential duration and conduction slowing in human Brugada syndrome | Q44473963 | ||
High amplitude T-wave alternans precedes spontaneous ventricular tachycardia or fibrillation in ICD electrograms | Q44502359 | ||
Relation of T-wave alternans to regional left ventricular dysfunction and eccentric hypertrophy secondary to coronary heart disease | Q45078182 | ||
Alternans of atrial action potentials during atrial flutter as a precursor to atrial fibrillation | Q46149518 | ||
T-wave alternans, restitution of human action potential duration, and outcome | Q46187746 | ||
Heterogeneous connexin43 expression produces electrophysiological heterogeneities across ventricular wall | Q47286400 | ||
ATX-II effects on the apparent location of M cells in a computational model of a human left ventricular wedge. | Q51941987 | ||
Alternans of intracellular calcium: Mechanism and significance | Q60182021 | ||
In vitro validation of a new cardiac catheter technique for recording monophasic action potentials | Q68957587 | ||
Relation between myocardial function and expression of sarcoplasmic reticulum Ca(2+)-ATPase in failing and nonfailing human myocardium | Q72133115 | ||
Mechanical alternans and the force-frequency relationship in failing rat hearts | Q72262239 | ||
Mechanism linking T-wave alternans to the genesis of cardiac fibrillation | Q74605738 | ||
Determinant of microvolt-level T-wave alternans in patients with dilated cardiomyopathy | Q78106160 | ||
Endocardial and epicardial repolarization alternans in human cardiomyopathy: evidence for spatiotemporal heterogeneity and correlation with body surface T-wave alternans | Q79615285 | ||
Determination of human ventricular repolarization by noncontact mapping: validation with monophasic action potential recordings | Q80537955 | ||
Altered dynamics of action potential restitution and alternans in humans with structural heart disease | Q81203192 | ||
Biventricular pacing attenuates T-wave alternans and T-wave amplitude compared to other pacing modes | Q81347658 | ||
Alternans and spiral breakup in a human ventricular tissue model | Q82973183 | ||
P433 | issue | 22 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | heart failure | Q181754 |
P304 | page(s) | 1782-1792 | |
P577 | publication date | 2008-11-01 | |
P1433 | published in | Journal of the American College of Cardiology | Q2984355 |
P1476 | title | Action potential dynamics explain arrhythmic vulnerability in human heart failure: a clinical and modeling study implicating abnormal calcium handling | |
P478 | volume | 52 |
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Q44117438 | Alternans of action potential duration and amplitude in rabbits with left ventricular dysfunction following myocardial infarction |
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Q36077555 | Atrial conduction slows immediately before the onset of human atrial fibrillation: a bi-atrial contact mapping study of transitions to atrial fibrillation |
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Q37174582 | Computational approaches to understand cardiac electrophysiology and arrhythmias |
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Q58561255 | Computational models in cardiology |
Q39174250 | Correlation between T-Wave Alternans and Cardiac Volume Status via Intrathoracic Impedance Measurements |
Q35810111 | Crescendo in depolarization and repolarization heterogeneity heralds development of ventricular tachycardia in hospitalized patients with decompensated heart failure |
Q34679604 | Disrupted calcium release as a mechanism for atrial alternans associated with human atrial fibrillation |
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Q38654118 | How computer simulations of the human heart can improve anti-arrhythmia therapy |
Q51806604 | Impact of ionic current variability on human ventricular cellular electrophysiology. |
Q36149918 | Kinetics of atrial repolarization alternans in a free-behaving ovine model |
Q26782130 | Lessons learned from multi-scale modeling of the failing heart |
Q38435228 | Mechanical alternans is associated with mortality in acute hospitalized heart failure: prospective mechanical alternans study (MAS). |
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Q30827550 | Mechanisms of arrhythmogenesis related to calcium-driven alternans in a model of human atrial fibrillation. |
Q92846493 | Mechanistic investigation of Ca2+ alternans in human heart failure and its modulation by fibroblasts |
Q36849806 | Mechanistically based mapping of human cardiac fibrillation |
Q85203039 | Microscopic systolic pressure alternans in human cardiomyopathy: Noninvasive evaluation of a novel risk marker and correlation with microvolt T-wave alternans |
Q34646942 | Microvolt T wave alternans in adults with congenital heart diseases characterized by right ventricle pathology or single ventricle physiology: a case control study |
Q33952439 | Microvolt T-wave alternans physiological basis, methods of measurement, and clinical utility--consensus guideline by International Society for Holter and Noninvasive Electrocardiology |
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Q54231735 | Prevention of adenosine A2A receptor activation diminishes beat-to-beat alternation in human atrial myocytes. |
Q34021051 | Rate-dependent action potential alternans in human heart failure implicates abnormal intracellular calcium handling |
Q36730722 | Rate-dependent force, intracellular calcium, and action potential voltage alternans are modulated by sarcomere length and heart failure induced-remodeling of thin filament regulation in human heart failure: A myocyte modeling study. |
Q57581595 | Real-time optical manipulation of cardiac conduction in intact hearts |
Q55456296 | Reduced T wave alternans in heart failure responders to cardiac resynchronization therapy: Evidence of electrical remodeling. |
Q50043942 | Repolarization Reserve and Action Potential Dynamics in Failing Myocytes |
Q35103212 | Repolarization alternans reveals vulnerability to human atrial fibrillation |
Q35762284 | Role of substrate and triggers in the genesis of cardiac alternans, from the myocyte to the whole heart: implications for therapy |
Q35413550 | Rotor stability separates sustained ventricular fibrillation from self-terminating episodes in humans |
Q38663663 | Rotors exhibit greater surface ECG variation during ventricular fibrillation than focal sources due to wavebreak, secondary rotors, and meander |
Q37177305 | Sudden cardiac arrest in patients with preserved left ventricular systolic function: a clinical dilemma |
Q30433543 | Sudden cardiac death prediction and prevention: report from a National Heart, Lung, and Blood Institute and Heart Rhythm Society Workshop |
Q37679996 | Sympathetic activity-associated periodic repolarization dynamics predict mortality following myocardial infarction |
Q37148999 | T-wave alternans as an arrhythmic risk stratifier: state of the art |
Q26822583 | The role of action potential alternans in the initiation of atrial fibrillation in humans: a review and future directions |
Q55524228 | The roles of mid-myocardial and epicardial cells in T-wave alternans development: a simulation study. |
Q44095153 | Three-dimensional mechanisms of increased vulnerability to electric shocks in myocardial infarction: altered virtual electrode polarizations and conduction delay in the peri-infarct zone. |
Q37774390 | Usefulness of T-wave alternans in sudden death risk stratification and guiding medical therapy. |
Q38819031 | Ventricular fibrillation: triggers, mechanisms and therapies |
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