Ventricular intramural and epicardial potential distributions during ventricular activation and repolarization in the intact dog.
about
Cellular basis for the T wave of the electrocardiogramRoles of electric field and fiber structure in cardiac electric stimulation.The controversial M cell.Comparison of unipolar and bipolar ventricular paced evoked responses.Models of cardiac electromechanics based on individual hearts imaging data: image-based electromechanical models of the heartIncreased cardiac electrical instability concomitant with pacing induced repolarisation abnormalities.Application of L1-norm regularization to epicardial potential solution of the inverse electrocardiography problemInterstitial potentials and their change with depth into cardiac tissue.Spatial characterization of electrogram morphology from transmural recordings in the intact normal heartMechanoelectrical feedback: independent role of preload and contractility in modulation of canine ventricular excitabilityMethodology for image-based reconstruction of ventricular geometry for patient-specific modeling of cardiac electrophysiology.Noninvasive electrocardiographic imaging (ECGI): comparison to intraoperative mapping in patients.Heart-surface reconstruction and ECG electrodes localization using fluoroscopy, epipolar geometry and stereovision: application to noninvasive imaging of cardiac electrical activity.Image-based estimation of ventricular fiber orientations for personalized modeling of cardiac electrophysiology.Transmural dispersion of myofiber mechanics: implications for electrical heterogeneity in vivo.Diagnosis of myocardial infarction and ischemia in the setting of bundle branch block and cardiac pacing.The sock electrode array: a tool for determining global epicardial activation during unstable arrhythmias.Origin of the electrocardiographic U wave: effects of M cells and dynamic gap junction coupling.QT interval dispersion and its clinical utility.QT dispersion in sinus beats and ventricular extrasystoles in normal heartsImage-based estimation of ventricular fiber orientations for patient-specific simulations.Epicardial mapping: how to measure local activation?Is there a significant transmural gradient in repolarization time in the intact heart? Cellular basis of the T wave: a century of controversy.Electrophysiological interaction through the interstitial space between adjacent unmyelinated parallel fibers.ST segment depression: the possible role of global repolarization dynamics.Sequence of epicardial repolarisation and configuration of the T wave.Epicardial mapping: ventricular epicardial activation is unaffected by heart position.Effects of the pacing site, procainamide, and lead configuration on the relationship between the upper limit of vulnerability and the defibrillation threshold.Interpolating unipolar epicardial potentials from electrodes separated by increasing distances.Coherent averaging improves the evaluation of left ventricular dyssynchrony by conductance catheter.Computer Model for Study of Cardiac Repolarization
P2860
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P2860
Ventricular intramural and epicardial potential distributions during ventricular activation and repolarization in the intact dog.
description
1975 nî lūn-bûn
@nan
1975年の論文
@ja
1975年学术文章
@wuu
1975年学术文章
@zh
1975年学术文章
@zh-cn
1975年学术文章
@zh-hans
1975年学术文章
@zh-my
1975年学术文章
@zh-sg
1975年學術文章
@yue
1975年學術文章
@zh-hant
name
Ventricular intramural and epi ...... olarization in the intact dog.
@en
Ventricular intramural and epi ...... olarization in the intact dog.
@nl
type
label
Ventricular intramural and epi ...... olarization in the intact dog.
@en
Ventricular intramural and epi ...... olarization in the intact dog.
@nl
prefLabel
Ventricular intramural and epi ...... olarization in the intact dog.
@en
Ventricular intramural and epi ...... olarization in the intact dog.
@nl
P356
P1433
P1476
Ventricular intramural and epi ...... olarization in the intact dog.
@en
P2093
P304
P356
10.1161/01.RES.37.2.243
P577
1975-08-01T00:00:00Z