Your search keyword '"VIDMAR, DAVID"' showing total 5 results

1. Characterizing Electrogram Signal Fidelity and the Effects of Signal Contamination on Mapping Human Persistent Atrial Fibrillation.

Author

Vidmar, David, Alhusseini, Mahmood I., Narayan, Sanjiv M., and Rappel, Wouter-Jan

Subjects

ATRIAL fibrillation, ATRIAL arrhythmias, ELECTROPHYSIOLOGY, ABLATION (Aerothermodynamics), HEAT transfer

Abstract

Objective: Determining accurate intracardiac maps of atrial fibrillation (AF) in humans can be difficult, owing primarily to various sources of contamination in electrogram signals. The goal of this study is to develop a measure for signal fidelity and to develop methods to quantify robustness of observed rotational activity in phase maps subject to signal contamination. Methods: We identified rotational activity in phase maps of human persistent AF using the Hilbert transform of sinusoidally recomposed signals, where localized ablation at rotational sites terminated fibrillation. A novel measure of signal fidelity was developed to quantify signal quality. Contamination is then introduced to the underlying electrograms by removing signals at random, adding noise to computations of cycle length, and adding realistic far-field signals. Mean tip number N and tip density δ, defined as the proportion of time a region contains a tip, at the termination site are computed to compare the effects of contamination. Results: Domains of low signal fidelity correspond to the location of rotational cores. Removing signals and altering cycle length accounted for minor changes in tip density, while targeted removal of low fidelity electrograms can result in a significant increase in tip density and stability. Far-field contamination was found to obscure rotation at the termination site. Conclusion: Rotational activity in clinical AF can produce domains of low fidelity electrogram recordings at rotational cores. Observed rotational patterns in phase maps appear most sensitive to far-field activation. These results may inform novel methods to map AF in humans which can be tested directly in patients at electrophysiological study and ablation. [ABSTRACT FROM AUTHOR]

Published

2018

2. Two Independent Mapping Techniques Identify Rotational Activity Patterns at Sites of Local Termination During Persistent Atrial Fibrillation.

Author

ALHUSSEINI, MAHMOOD, VIDMAR, DAVID, MECKLER, GABRIELA L., KOWALEWSKI, CHRISTOPHER A., SHENASA, FATEMAH, WANG, PAUL J., NARAYAN, SANJIV M., and RAPPEL, WOUTER‐JAN

Subjects

ATRIAL fibrillation, CATHETER ablation, COMPARATIVE studies, HEART function tests

Abstract

Comparing Mapping Techniques at AF Termination Introduction The mechanisms for atrial fibrillation (AF) are unclear in part because diverse mapping techniques yield diverse maps, ranging from stable organized sources to highly disordered waves. We hypothesized that AF mechanisms may be clarified if mapping techniques were compared in the same patients, and referenced to a clinical endpoint. We compared two independent AF mapping techniques in patients in whom ablation terminated persistent AF before pulmonary vein isolation (PVI). Methods and Results We identified 12 patients with persistent AF (61.2 ± 10.8 years, four female) in whom mapping with 64 pole baskets and technique 1 (activation/phase mapping, FIRM) identified rotational activation patterns during at least 50% of the 4-second mapping interval and targeted ablation at these rotational sites terminated AF to sinus rhythm (n = 10) or atrial tachycardia. We analyzed the unipolar electrograms of these patients to determine phase maps of activation by an independent technique 2 (Kuklik, Schotten et al., IEEE Trans Biomed Eng 2015). Compared to technique 1, technique 2 revealed a source in 12 of 12 (100%) cases with spatial concordance in all cases (P <0.05) and similar rotational characteristics. Conclusion At sites where ablation terminated persistent AF, two independent mapping techniques identified stable rotational activation for multiple cycles that drove peripheral disorder. Future comparative studies referenced to a clinical endpoint may help reconcile if discrepancies between AF mapping studies reports represent techniques, patient populations or models of AF, and improve mapping to better guide ablation. [ABSTRACT FROM AUTHOR]

Published

2017

3. Phase synchrony reveals organization in human atrial fibrillation.

Author

Vidmar, David, Rappel, Wouter-Jan, and Narayan, Sanjiv M.

Subjects

ATRIAL fibrillation, MEDICAL simulation, ARRHYTHMIA, TACHYCARDIA, CARDIAC catheterization

Abstract

It remains unclear if human atrial fibrillation (AF) is spatially nonhierarchical or exhibits a hierarchy of organization sustained by sources. We utilize activation times obtained at discrete locations during AF to compute the phase synchrony between tissue regions, to examine underlying spatial dynamics throughout both atria. We construct a binary synchronization network and show that this network can accurately define regions of coherence in coarse-grained in silico data. Specifically, domains controlled by spiral waves exhibit regions of high phase synchrony. We then apply this analysis to clinical data from patients experiencing cardiac arrhythmias using multielectrode catheters to simultaneously record from a majority of both atria. We show that pharmaceutical intervention with ibutilide organizes activation by increasing the size of the synchronized domain in AF and quantify the increase in temporal organization when arrhythmia changes from fibrillation to tachycardia. Finally, in recordings from 24 patients in AF we show that the level of synchrony is spatially broad with some patients showing large spatially contiguous regions of synchronization, while in others synchrony is localized to small pockets. Using computer simulations, we show that this distribution is inconsistent with distributions obtained from simulations that mimic multiwavelet reentry but is consistent with mechanisms in which one or more spatially conserved spiral waves is surrounded by tissue in which activation is disorganized. [ABSTRACT FROM AUTHOR]

Published

2015

4. Abstract 15230: Comparing Multiple Mapping Methods at Sites of AF Termination: The COMPARE-AF Registry.

Author

Zaman, Junaid A, Baykaner, Tina, Meckler, Gabriela, Clopton, Paul, Alhusseini, Mahmood, Shenasa, Fatemah, Kowalewski, Christopher, Rogers, Albert, Vidmar, David, Krummen, David, Viswanathan, Mohan, Rappel, Wouter, Brachmann, Johannes, Peters, Nicholas, Miller, John, Wang, Paul, Sauer, William, Atienza, Felipe, and Narayan, Sanjiv

Published

2018

5. Abstract 12511: Localized Driver Regions That Control Larger Regions of the Atria May Be Critical to Sustaining Atrial Fibrillation: Analyses From Novel Vector Mapping.

Author

Leef, George, Shenasa, Fatemah, Sauer, William, Miller, John M, Vidmar, David, Swerdlow, Mark A, Tomboli, Mallika, Rogers, Albert J, Alhusseini, Mahmood I, Armenia, Erin, Baykaner, Tina, Brachmann, Johannes, Atienza, Felipe, Wang, Paul J, Rappel, Wouter-Jan, and Narayan, Sanjiv M

Published

2018