P3629Rotational and Focal AF Sources Localize to Low Voltage Areas Displaying Slow Conduction in Sinus Rhythm

Abstract Funding Acknowledgements Type of funding sources: None. Background Ultra high-density (UHD) mapping allows accurate identification of local abnormal electrograms and low voltage within a small area range, allowing precise identification of reentry circuits. Areas with high isochronal density in a small area known as deceleration zones (DZ) are responsible for reentry. Purpose Identify the DZ and areas of low voltage in sinus rhythm (SR) and evaluate the feasibility of performing atrial flutter (AFL) ablation by targeting those zones. Methods We prospectively enrolled patients in SR referred for AFL ablation (either typical or atypical). An isochronal late activation mapping (ILAM) during SR with UHD catheter was performed, annotating latest deflection of local electrograms. DZ were defined as areas with >3 isochrones within 1cm radius, prioritizing zones with maximal density. Atrial flutter was then induced and ILAM during flutter was performed for comparison. Voltage mapping was also assessed (0.1-0.5mV). Ablation targeted DZ in SR that displayed the higher voltage. DZ in SR were compared to DZ in AFL. Number of radiofrequency (RF) applications needed to terminate AFL were assessed. After AFL termination, complete line of the slow conduction zone was completed, and pulmonary vein isolation (PVI) was done in case of left AFL. Categorical variables are presented in absolute and relative values and median and interquartile range were used for numerical variables, as well t-student test for correlation of numerical variables. Results We studied 6 AFL (4 atypical, 66.7%) in 5 patients, 2 male (40%), median age 70 (64- 72). UHD ILAM in SR with 2195 points (1212-2865) and 2197 points (1356-3102) in AFL (p = 0.62). The UHD ILAM identified a median of (QR) DZ in SR, that colocalized with AFL isthmus and DZ in AFL in 100%. DZ were not always located in low voltage areas. Aiming at the higher voltage in the DZ terminated the AFL in all cases, with a median RF time of 38 (25-58) seconds and AFL was no longer inducible. However, according to protocol, the complete line of slow conduction zone was done, with a median RF time of 1049.5 (274-1194) seconds (p = 0,009). Conclusions Isochronal mapping in sinus rhythm with UHD catheters can display the functional substrate for reentry in AFL, allowing a substrate guided ablation in case of non-inducible AFL. Targeting the areas of high isochronal density, is effective in terminating AFL, obviating the need for extensive ablation. Abstract Figure.

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Evidence for Slow Conduction Areas during Pacing in Patients with Sinus Rhythm, and their Relation to the Site of VT Origin.

Japanese Heart Journal ◽

10.1536/ihj.35.1 ◽

1994 ◽

Vol 35 (1) ◽

pp. 1-13 ◽

Cited By ~ 3

Author(s):

Masaomi CHINUSHI ◽

Yoshifusa AIZAWA ◽

Yoriko KUSANO ◽

Takashi WASHIZUKA ◽

Akira SHIBATA

Keyword(s):

Sinus Rhythm ◽

Slow Conduction

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Point ablation for macro-reentrant ventricular tachycardia associated with Ebstein’s anomaly and pulmonary atresia: a case report

Cardiology in the Young ◽

10.1017/s1047951120003820 ◽

2020 ◽

pp. 1-3

Author(s):

Keiko Toyohara ◽

Yasuko Tomizawa ◽

Morio Shoda

Keyword(s):

Ventricular Tachycardia ◽

Case Report ◽

Catheter Ablation ◽

Right Ventricle ◽

Low Voltage ◽

Pulmonary Atresia ◽

Ebstein’S Anomaly ◽

Ebstein's Anomaly ◽

Slow Conduction ◽

Hypoplastic Right Ventricle

Abstract We report a case with Ebstein’s anomaly and pulmonary atresia with sustained monomorphic ventricular tachycardia in a patient without a ventriculotomy history. In the low voltage area between the atrialised right ventricle and hypoplastic right ventricle, there was a ventricular tachycardia substrate and slow conduction. The tachycardia circuit was eliminated by a point catheter ablation at the area with diastolic fractionated potentials.

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Echocardiographic diagnosis of atrial cardiomyopathy allows outcome prediction following pulmonary vein isolation

Clinical Research in Cardiology ◽

10.1007/s00392-021-01850-x ◽

2021 ◽

Author(s):

Martin Eichenlaub ◽

Bjoern Mueller-Edenborn ◽

Jan Minners ◽

Martin Allgeier ◽

Heiko Lehrmann ◽

...

Keyword(s):

Sinus Rhythm ◽

Pulmonary Vein ◽

Pulmonary Vein Isolation ◽

Validation Cohort ◽

Low Voltage ◽

Predictive Values ◽

Contact Mapping ◽

Non Invasive ◽

Increased Risk ◽

Echocardiographic Parameters

Abstract Background Relevant atrial cardiomyopathy (ACM), defined as a left atrial (LA) low-voltage area ≥ 2 cm2 at 0.5 mV threshold on endocardial contact mapping, is associated with new-onset atrial fibrillation (AF), higher arrhythmia recurrence rates after pulmonary vein isolation (PVI), and an increased risk of stroke. The current study aimed to assess two non-invasive echocardiographic parameters, LA emptying fraction (EF) and LA longitudinal strain (LAS, during reservoir (LASr), conduit (LAScd) and contraction phase (LASct)) for the diagnosis of ACM and prediction of arrhythmia outcome after PVI. Methods We prospectively enrolled 60 consecutive, ablation-naive patients (age 66 ± 9 years, 80% males) with persistent AF. In 30 patients (derivation cohort), LA-EF and LAS cut-off values for the presence of relevant ACM (high-density endocardial contact mapping in sinus rhythm prior to PVI at 3000 ± 1249 sites) were established in sinus rhythm and tested in a validation cohort (n = 30). Arrhythmia recurrence within 12 months was documented using 72-h Holter electrocardiograms. Results An LA-EF of < 34% predicted ACM with an area under the curve (AUC) of 0.846 (sensitivity 69.2%, specificity 76.5%) similar to a LASr < 23.5% (AUC 0.878, sensitivity 92.3%, specificity 82.4%). In the validation cohort, these cut-offs established the correct diagnosis of ACM in 76% of patients (positive predictive values 87%/93% and negative predictive values 73%/75%, respectively). Arrhythmia recurrence in the entire cohort was significantly more frequent in patients with LA-EF < 34% and LASr < 23.5% (56% vs. 29% and 55% vs. 26%, both p < 0.05). Conclusion The echocardiographic parameters LA-EF and LAS allow accurate, non-invasive diagnosis of ACM and prediction of arrhythmia recurrence after PVI. Graphic abstract

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ATRIAL LOW VOLTAGE AREAS: A COMPARISON BETWEEN ATRIAL FIBRILLATION AND SINUS RHYTHM

10.22541/au.160430252.23780427/v1 ◽

2020 ◽

Author(s):

Ana Andres ◽

Carlos Roberto ◽

Francisco Javier Saiz ◽

Oscar Cano ◽

Laura Martínez-Mateu ◽

...

Keyword(s):

Atrial Fibrillation ◽

Sinus Rhythm ◽

Low Voltage

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Abstract 15692: Voltage Mapping in Atrial Fibrillation vs Sinus Rhythm: Results From the Mavs Study

Circulation ◽

10.1161/circ.142.suppl_3.15692 ◽

2020 ◽

Vol 142 (Suppl_3) ◽

Author(s):

Carola Gianni ◽

Jerri A Cunningham ◽

Sanghamitra Mohanty ◽

CHINTAN TRIVEDI ◽

Domenico G Della Rocca ◽

...

Keyword(s):

Atrial Fibrillation ◽

Sinus Rhythm ◽

Low Voltage ◽

Lateral Wall ◽

Posterior Wall ◽

Anterior Wall ◽

Inferior Wall ◽

Voltage Mapping ◽

First Time ◽

Mapping Catheter

Background: Left atrial (LA) scar can be identified with bipolar voltage mapping during sinus rhythm (SR). It is not clear whether the same voltage criteria can be applied during atrial fibrillation (AF). Objective: Aim of this study was to compare voltage maps performed in the same patient both in AF and SR. Methods: Voltage mapping was performed using a 10-pole circular mapping catheter in patients with non-paroxysmal AF undergoing first time RF ablation. For descriptive purposes, the LA was divided in 6 regions: septum, posterior wall (PW), inferior wall (IW), lateral wall, anterior wall, and roof. The threshold for low voltage was <0.5 mV (with a color range setting 0.2-0.5 mV). Mild “scar” was defined as an area low voltage 5-20%, moderate 20-35% and severe as >35%. Results: 16 patients (62% persistent AF, 38% longstanding persistent AF) were included in the study. The map density was comparable during AF and SR (mean points per map 551 vs 547, paired t test P = NS). 2 patients displayed normal voltage during both AF and SR. 14 patients showed areas of low voltage during AF, which were still present during SR in 8. All patients with mild “scarring” during AF (n = 4), showed normal voltage during SR. Of the 7 patients with moderate “scarring”, 2 patients showed normal voltage during SR, while in the remaining 5 “scarring” was only mild during SR. 3 patients showed extensive “scarring” during AF, which was only moderate during SR. During AF, areas of low voltage were more commonly observed in the PW (12/14) followed by the IW (6/14) and antero-septum (4/14); while in SR, in the antero-septum (4/8), PW (3/8) and IW (3/8). Interestingly, in all patients both the PW/IW and (less dramatically) the antero-septum showed more “scarring” during AF as compared to SR. Conclusion: Areas of low voltage are more severe and diffuse during AF when compared to SR. When areas of low voltage are detected during AF, they are more commonly seen in the PW, IW and antero-septal areas.

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Action of Mephentermine on Arrhythmias Due to Pulsus Alternans, Rapidly Discharging Single Atrial Foci and Prolonged P-R Intervals

American Journal of Physiology-Legacy Content ◽

10.1152/ajplegacy.1957.191.3.481 ◽

1957 ◽

Vol 191 (3) ◽

pp. 481-486 ◽

Cited By ~ 6

Author(s):

M. J. Oppenheimer ◽

P. R. Lynch ◽

G. Ascanio

Keyword(s):

Sinus Rhythm ◽

Refractory Period ◽

Conduction Time ◽

Digitalis Intoxication ◽

Methyl Group ◽

Slow Conduction ◽

Normal Series ◽

Pulsus Alternans ◽

Conduction Velocities ◽

Regular Rhythm

Slow conduction velocities play a role in pulsus alternans and digitalis intoxication and possibly in the arrhythmia due to a rapidly discharging atrial aconitine focus. In the ventricle mephentermine increases conduction velocity, shortens refractory period and A-V conduction time. The present study investigates the usefulness of mephentermine in these conditions. Pulsus alternans was reverted to a normal series of mechanical contractions by mephentermine. The same agent provided periods of regular rhythm during the presence of an atrial aconitine focus; in two cases a permanent sinus rhythm was established. The prolonged P-R interval due to intoxication with acetyl strophanthidin was restored to normal by mephentermine. The action of mephentermine is specific since compounds with addition or subtraction of one methyl group or the hydroxy-mephentermine were ineffective against a circus flutter.

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P383Epicardial voltage fingerprinting of sinus rhythm in patients with mitral valve disease

EP Europace ◽

10.1093/europace/euaa162.188 ◽

2020 ◽

Vol 22 (Supplement_1) ◽

Author(s):

M S Van Schie ◽

R Starreveld ◽

M C Roos-Serote ◽

A J J C Bogers ◽

N M S De Groot

Keyword(s):

Atrial Fibrillation ◽

Mitral Valve ◽

Sinus Rhythm ◽

Mitral Valve Disease ◽

Low Voltage ◽

Electrical Signal ◽

Valve Disease ◽

Related Factors ◽

Peak Voltage ◽

Conduction Disorders

Abstract Funding Acknowledgements CVON-AFFIP [grant number 914728], NWO-Vidi [grant number 91717339], Biosense Webster USA [ICD 783454] and Medical Delta Background Voltage mapping is increasingly used for identifying the substrate of cardiac arrhythmias like atrial fibrillation (AF). Low bipolar voltage areas are regarded as indicators of structurally remodeled tissue. However, non-substrate related factors such as wavefront activation direction also influence voltages of bipolar EGMs. Unipolar electrograms (U-EGMs), on the other hand, are independent of the electrode orientation and atrial wavefront direction. It is for these reasons that U-EGMs are increasingly used in electrophysiological studies and newly developed mapping systems guiding ablation procedures. Objective The goal of this study is to examine U-EGM voltages at a high resolution scales during sinus rhythm (SR) in patients with mitral valve disease (MVD). Methods Intra-operative epicardial mapping (interelectrode distance 2mm) of the right and left atrium (RA, LA), Bachmann’s Bundle (BB) and pulmonary vein area (PVA) was performed during SR in 67 patients (27 male, 67 ± 11 years) with or without a history of paroxysmal atrial fibrillation (PAF). U-EGMs were analyzed according to their potential type and peak-to-peak voltage. Low voltage was defined as the proportion of potentials with an amplitude below 1.0 mV. Results In all patients, there was a considerable variation in voltage distribution between all atrial regions and clear inter-individual differences were found. In patients without AF, there were no statistical differences in median potential voltages between the various atrial regions (P = 0.869). In the PAF group, however, unipolar voltages of BB potentials were lower compared to RA potentials (3.30 [2.25–4.57] mV vs. 4.64 [3.85–6.08] mV, P = 0.006) and LA potentials (3.30 [2.25–4.57] mV vs. 4.86 [3.72–5.86] mV, P = 0.009). In addition, unipolar voltages at BB were lower in the patients with PAF compared to those without AF (no AF: 4.94 [3.56–5.98] mV, PAF: 3.30 [2.25–4.57] mV, P = 0.006). A larger number of low voltage potentials were recorded at BB in the PAF group (no AF: 2.13 [0.52–7.68] %, PAF: 12.86 [3.18–23.59] %, P = 0.001). In addition, a higher number of fractionated potentials was found in patients with PAF at the PVA (12.81 [9.19–18.03] % vs. 20.94 [13.54–27.37] %, P < 0.001) and LA (11.47 [7.30–18.30] % vs. 17.80 [12.93–21.34] %, P = 0.045). Lower voltages were found in potentials with a progressively higher degree of fractionation (R=-0.76, P < 0.001). Conclusions Even in SR, patients with MVD and AF episodes are characterized by decreased potential voltages at BB and a higher degree of low voltage potentials. Both considerable intra- and inter-individual variation in potential voltages were found in our study population, which underlines the interest of an individualized electrical signal profile which can be used to characterize complex conduction disorders. Abstract Figure. Epicardial voltage maps

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