Origin of Electrical Activation Within the Right Atrial and Left Ventricular Walls:

Kroll, Maja; Kriebel, Thomas; Windhagen‐Mahnert, Britta; Franzbach, Birgit; Jux, Christian; Zutz, Martina; Tebbenjohanns, Jürgen; Paul, Thomas

doi:10.1046/j.1460-9592.2003.00304.x

Cited by 6 publications

(2 citation statements)

References 32 publications

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“…An initial R wave of the unipolar endocardial electrogram is resulted if the electrical wavefront from a myocardial and an epicardial focus travels in part toward the recording location. In contract to this, in theory an endocardial origin of activation results in a pure QS pattern at the location as all electrical forces are heading away from that location [104]. Therefore, according to this finding it may be stated that the noncontact mapping allows for identification of the origin of focal activation which would be useful in choosing the appropriate mode of energy delivery [105].…”

Section: Discussion and Conclusion Of Time-domain Analysismentioning

confidence: 94%

Signal Analysis For Cardiac Electrical Activation Studies

Shokrollahi¹

2021

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The aim of this study is to determine if some of the characteristics of reconstructed unipolar electrograms from the noncontact mapping system can be used to detect epicardial and to differentiate it from endocardial electrical activation in a canine heart. This would help the electrophysiologist know where exactly the origin of ventricular tachycardia or the critical point in tissue is located. Following this, arrhythmia can be successfully treated by ablating that part of the tissue of the heart. Virtual electrograms were recorded while pacing the right ventricle of an open-chest dog at multiple endocardial and epicardial sites using the commercially available noncontact mapping system (EnSite Array™ Catheter 3000). The endocardial and epicardial paced virtual electrograms from the juxtaposing sites allow for analyzing systematically the differences in their morphologies. Maximal dV / dt, area under the depolarization curve and latency extracted from unipolar electrograms demonstrated significant difference between epicardial and endocardial pacing sites with a p-value of less than 0.01 in all three cases. The above features were fed to a linear discriminant analysis based classifier and high classification accuracy was achieved. Therefore, reliable criteria can be proposed to allow for discrimination of an endocardial versus epicardial origin of electrical activation. And also the endocardial and epicardial paced virtual electrograms from the juxtaposing sites allows for an estimate of the transfer function of the myocardium in different positions of the right ventricles of a canine heart. The transfer function estimation will aid in better mathematical modeling of myocardium and could be a sensitive measure of myocardial homogeneity and arrhythmic foci localization.Another study was done on a human heart. This study was to evaluate the ability of virtual electrograms to predict abnormal bipolar electrograms. We tested the hypothesis of maxdV/dt, filtering and optimized DSM threshold. This allows better identification of abnormal myocardial substrate traditionally defined by contact bipolar mapping in human RVOT.

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Section: Discussion and Conclusion Of Time-domain Analysismentioning

confidence: 94%

Signal Analysis For Cardiac Electrical Activation Studies

Shokrollahi¹

2021

Preprint

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“…Critical to this is the excellent temporal resolution inherent to non-contact EAM systems whereby EGMs can be updated at a rate of 1200 electrograms per second. In an animal model, virtual unipolar EGMs from non-contact mapping were able to differentiate between endocardial and subendocardial pacing origins thus providing information on the intramural depth of impulse origin [37]. Unipolar EGMs originating from a sub-endocardial source (i.e.…”

Section: Non-contact Electroanatomical Mappingmentioning

confidence: 99%