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Physiological cardiac pacing: Current statusCardiomyopathy induced by artificial cardiac pacing: myth or reality sustained by evidence?Biomechanics of cardiac electromechanical coupling and mechanoelectric feedback.Structural and electrophysiological dysfunctions due to increased endoplasmic reticulum stress in a long-term pacing model using human induced pluripotent stem cell-derived ventricular cardiomyocytes.Prominent differences in left ventricular performance and myocardial properties between right ventricular and left ventricular-based pacing modes in ratsChronic kidney disease and mortality in implantable cardioverter-defibrillator recipientsTiming and magnitude of systolic stretch affect myofilament activation and mechanical workFunctional capacity of patients with pacemaker due to isolated congenital atrioventricular blockThe right ventricular outflow tract: the road to septal pacing.Atrial Fibrillation and Heart Failure.Cardiac resynchronization: insight from experimental and computational models.Long-Term Impact of Right Ventricular Pacing on Left Ventricular Systolic Function in Pacemaker Recipients With Preserved Ejection Fraction: Results From a Large Single-Center Registry.Difference in percentage of ventricular pacing between two algorithms for minimizing ventricular pacing: results of the IDEAL RVP (Identify the Best Algorithm for Reducing Unnecessary Right Ventricular Pacing) study.Atrioventricular junction ablation and pacemaker implantation for heart failure associated with atrial fibrillation: potential issues and therapies in the setting of acute heart failure syndrome.Pacing-induced heart disease: understanding the pathophysiology and improving outcomes.Animal models of dyssynchrony.Mathematical modeling and simulation of ventricular activation sequences: implications for cardiac resynchronization therapy.Clinical implications of conduction abnormalities and arrhythmias after transcatheter aortic valve implantation.Transcatheter aortic valve implantation-induced left bundle branch block: causes and consequences.Radial left ventricular dyssynchrony by speckle tracking in apical versus non apical right ventricular pacing- evidence of dyssynchrony on medium term follow up.Role of abnormal repolarization in the mechanism of cardiac arrhythmia.A randomized comparison of fluoroscopic techniques for implanting pacemaker lead on the right ventricular outflow tract septumOutcomes following pacemaker implantation after transcatheter aortic valve implantation with CoreValve(®) devices: Results from the FRANCE 2 Registry.AV Interval Optimization - A Step Towards Physiological Pacing in Patients with Normal Left Ventricular Function.Pacing-induced alterations in left ventricular mechanical properties: effect of pacing sites.Assessment of ventricular pacing in the setting of an institutional improvement program: insights into physiological pacing.Choosing pacemakers appropriately.Right ventricular pacing improves right heart function in experimental pulmonary arterial hypertension: a study in the isolated heart.Low Intensity Epicardial Pacing During the Absolute Refractory Period Augments Left Ventricular Function Mediated by Local Catecholamine Release.Electrophysiological determinants of arrhythmic susceptibility upon endocardial and epicardial pacing in guinea-pig heart.Further deterioration of LV ejection fraction and mechanical synchrony during RV apical pacing in patients with heart failure and LBBB.The impact of the right ventricular lead position on response to cardiac resynchronization therapy.Management of Bradyarrhythmias in Heart Failure: A Tailored Approach.Hyperresponders to cardiac resynchronization therapy: timing is everything… but size still matters!Routine follow-up after pacemaker implantation: frequency, pacemaker programming and professionals in charge.Atrial tracking with a single ICD lead in the ventricle.Chronic effect of right ventricular pacing on left ventricular rotational synchrony in patients with complete atrioventricular block.The right ventricular outflow tract: a comparative study of septal, anterior wall, and free wall pacing.Why do we need to prevent right ventricular pacing?The Managed Ventricular pacing versus VVI 40 Pacing (MVP) Trial: clinical background, rationale, design, and implementation.
P2860
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P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
A new paradigm for physiologic ventricular pacing.
@ast
A new paradigm for physiologic ventricular pacing.
@en
type
label
A new paradigm for physiologic ventricular pacing.
@ast
A new paradigm for physiologic ventricular pacing.
@en
prefLabel
A new paradigm for physiologic ventricular pacing.
@ast
A new paradigm for physiologic ventricular pacing.
@en
P1476
A new paradigm for physiologic ventricular pacing.
@en
P2093
Frits W Prinzen
Michael O Sweeney
P304
P356
10.1016/J.JACC.2005.09.029
P407
P577
2006-01-01T00:00:00Z