Ventricular Intramural and Epicardial Potential Distributions during Ventricular Activation and Repolarization in the Intact Dog

@article{Spach1975VentricularIA,
  title={Ventricular Intramural and Epicardial Potential Distributions during Ventricular Activation and Repolarization in the Intact Dog},
  author={M. S. Spach and Roger C. Barr},
  journal={Circulation Research},
  year={1975},
  volume={37},
  pages={243–257}
}
Ventricular intramural and epicardial potential distributions were measured during normal excitation and repolarization in intact dogs. Potential distributions were chosen because they can be unambiguously measured, are useful in understanding the shapes of wave forms at many specific sites, and provide a direct measure of repolarization. Unipolar wave forms were recorded from intramural and epicardial electrodes and converted into potential distributions. Well-known shapes of wave forms… 
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ST-T wave body surface distributions were as useful as the QRS patterns for localizing the ventricular ectopic foci presented and should be possible to achieve as precise an understanding of ST-T waves on the basis of epicardial potential distributions as has thus far been achieved for QRS on the based of isochrones.
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Ventricular repolarization sequences on the epicardium and endocardium. Monophasic action potential mapping in healthy pigs.
Ventricular action potentials, ventricular extracellular potentials, and the ECG of guinea pig.
Action potentials were recorded from different regions of the guinea pig ventricle to characterize regional differences in waveform configuration, and to acquire insight into the generation of the
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The results demonstrate that quantitative relationships between the detailed events of cardiac and body surface electrical activity can be established theoretically and confirmed by realistic experimental measurements.
Global Dynamic Coupling of Activation and Repolarization in the Human Ventricle
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An inverse coupling of activation and repolarization during steady state and premature stimulation may preserve electric stability in the normal ventricle.
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References

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