In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome: The Role of Repolarization Heterogeneity

Luigi Pannone; Domenico Giovanni Della Rocca; Pasquale Vergara; Antonio Sorgente; Alvise Del Monte; Giampaolo Vetta; Maria Cespon Fernandez; Giacomo Talevi; Ivan Eltsov; Paul-Adrian Calburean; Ingrid Overeinder; Gezim Bala; Alexandre Almorad; Erwin Ströker; Gudrun Pappaert; Juan Sieira; Thomy de Ravel; Sonia Van Dooren; Ali Gharaviri; Mark La Meir; Pedro Brugada; Gian Battista Chierchia; Andrea Sarkozy; Carlo de Asmundis

doi:10.1161/CIRCEP.124.013290

In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome: The Role of Repolarization Heterogeneity

Luigi Pannone, Domenico Giovanni Della Rocca, Pasquale Vergara, Antonio Sorgente, Alvise Del Monte, Giampaolo Vetta, Maria Cespon Fernandez, Giacomo Talevi, Ivan Eltsov, Paul-Adrian Calburean, Ingrid Overeinder, Gezim Bala, Alexandre Almorad, Erwin Ströker, Gudrun Pappaert, Juan Sieira, Thomy de Ravel, Sonia Van Dooren, Ali Gharaviri, Mark La MeirPedro Brugada, Gian Battista Chierchia, Andrea Sarkozy, Carlo de Asmundis

Onderzoeksoutput: Article › peer review

Samenvatting

BACKGROUND: Brugada syndrome (BrS) is associated with ventricular fibrillation (VF). Different VF mechanisms have been described, and repolarization gradients were associated with VF in a BrS model. The aim of this study is to map VF in BrS with ECG imaging. Furthermore, spatial correlation between sinus rhythm maps and VF maps was evaluated.

METHODS: Inclusion criteria were (1) BrS diagnosis and (2) VF mapped with ECG imaging during right ventricle outflow tract ablation. VF mechanism was classified into (1) rotational, (2) focal, and (3) irregular. For comparison, 6 controls were enrolled. The following sinus rhythm maps were performed: activation, recovery time, and activation-recovery interval time. Spatial overlap between steep repolarization gradients (cliffs) at recovery time and activation-recovery interval time maps and initiating VF rotational activity was evaluated with photogrammetry.

RESULTS: A total of 28 VF maps in 21 patients with BrS were analyzed. In the first ≈7 seconds of VF, rotational, focal, and irregular mechanisms were found. In 19 patients with BrS (90.5%) and none of the controls, a right ventricle outflow tract repolarization cliff only was found. In all these patients, the singularity point of the first initiating rotational VF activity spatially overlapped with the right ventricle outflow tract cliff. Abolition of right ventricle outflow tract repolarization cliffs was confirmed in all but 2 patients (94.3%). In one patient with recurrence, VF was mapped on the anterior right ventricle over a cliff that was not targeted at the first ablation procedure.

CONCLUSIONS: In patients with BrS, repolarization heterogeneity has a critical role in VF. Repolarization cliffs might be a therapeutic target in VF ablation.

Originele taal-2	English
Artikelnummer	e013290
Pagina's (van-tot)	e013290
Aantal pagina's	9
Tijdschrift	Circulation: Arrhythmia and Electrophysiology
Volume	17
Nummer van het tijdschrift	12
DOI's	https://doi.org/10.1161/CIRCEP.124.013290
Status	Published - dec 2024

Bibliografische nota

Publisher Copyright:
© 2024 American Heart Association, Inc.

Toegang tot document

10.1161/CIRCEP.124.013290

Andere bestanden en links

Link naar publicatie in Scopus

Document onder embargo

Manuscript BrS ECGI VF CircAE_R2_clean
Accepted author manuscript, 338 KB
Licentie: Unspecified
Embargo eindigt: 1/07/25

Citeer dit

Pannone, L., Della Rocca, D. G., Vergara, P., Sorgente, A., Del Monte, A., Vetta, G., Cespon Fernandez, M., Talevi, G., Eltsov, I., Calburean, P-A., Overeinder, I., Bala, G., Almorad, A., Ströker, E., Pappaert, G., Sieira, J., de Ravel, T., Van Dooren, S., Gharaviri, A., ... de Asmundis, C. (2024). In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome: The Role of Repolarization Heterogeneity. Circulation: Arrhythmia and Electrophysiology, 17(12), e013290. [e013290]. https://doi.org/10.1161/CIRCEP.124.013290

Pannone, Luigi ; Della Rocca, Domenico Giovanni ; Vergara, Pasquale ; Sorgente, Antonio ; Del Monte, Alvise ; Vetta, Giampaolo ; Cespon Fernandez, Maria ; Talevi, Giacomo ; Eltsov, Ivan ; Calburean, Paul-Adrian ; Overeinder, Ingrid ; Bala, Gezim ; Almorad, Alexandre ; Ströker, Erwin ; Pappaert, Gudrun ; Sieira, Juan ; de Ravel, Thomy ; Van Dooren, Sonia ; Gharaviri, Ali ; La Meir, Mark ; Brugada, Pedro ; Chierchia, Gian Battista ; Sarkozy, Andrea ; de Asmundis, Carlo. / In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome : The Role of Repolarization Heterogeneity. In: Circulation: Arrhythmia and Electrophysiology. 2024 ; Vol. 17, Nr. 12. blz. e013290.

@article{34b12e200b5245bab22d8711aefe5247,

title = "In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome: The Role of Repolarization Heterogeneity",

abstract = "BACKGROUND: Brugada syndrome (BrS) is associated with ventricular fibrillation (VF). Different VF mechanisms have been described, and repolarization gradients were associated with VF in a BrS model. The aim of this study is to map VF in BrS with ECG imaging. Furthermore, spatial correlation between sinus rhythm maps and VF maps was evaluated.METHODS: Inclusion criteria were (1) BrS diagnosis and (2) VF mapped with ECG imaging during right ventricle outflow tract ablation. VF mechanism was classified into (1) rotational, (2) focal, and (3) irregular. For comparison, 6 controls were enrolled. The following sinus rhythm maps were performed: activation, recovery time, and activation-recovery interval time. Spatial overlap between steep repolarization gradients (cliffs) at recovery time and activation-recovery interval time maps and initiating VF rotational activity was evaluated with photogrammetry.RESULTS: A total of 28 VF maps in 21 patients with BrS were analyzed. In the first ≈7 seconds of VF, rotational, focal, and irregular mechanisms were found. In 19 patients with BrS (90.5%) and none of the controls, a right ventricle outflow tract repolarization cliff only was found. In all these patients, the singularity point of the first initiating rotational VF activity spatially overlapped with the right ventricle outflow tract cliff. Abolition of right ventricle outflow tract repolarization cliffs was confirmed in all but 2 patients (94.3%). In one patient with recurrence, VF was mapped on the anterior right ventricle over a cliff that was not targeted at the first ablation procedure.CONCLUSIONS: In patients with BrS, repolarization heterogeneity has a critical role in VF. Repolarization cliffs might be a therapeutic target in VF ablation.",

keywords = "Brugada syndrome, coronary angiography, death, sudden, cardiac, heart ventricles, ventricular fibrillation",

author = "Luigi Pannone and {Della Rocca}, {Domenico Giovanni} and Pasquale Vergara and Antonio Sorgente and {Del Monte}, Alvise and Giampaolo Vetta and {Cespon Fernandez}, Maria and Giacomo Talevi and Ivan Eltsov and Paul-Adrian Calburean and Ingrid Overeinder and Gezim Bala and Alexandre Almorad and Erwin Str{\"o}ker and Gudrun Pappaert and Juan Sieira and {de Ravel}, Thomy and {Van Dooren}, Sonia and Ali Gharaviri and {La Meir}, Mark and Pedro Brugada and Chierchia, {Gian Battista} and Andrea Sarkozy and {de Asmundis}, Carlo",

note = "Funding Information: Dr Sorgente received research grants from Daiichi Sankyo and Bayer; he received speaker fees from Menarini and Bayer. Dr La Meir is a consultant for AtriCure. Dr Chierchia received compensation for teaching purposes and proctoring from Medtronic, Abbott, Biotronik, and Boston Scientific. Dr Sarkozy is a consultant for Biosense Webster and Medtronic and received speaker fees from Biosense Webster, Biotronik, Pfizer, and Microport. Dr de Asmundis receives research grants on behalf of the center from Biotronik, Medtronic, Abbott, Microport, Boston Scientific, and AtriCure. Dr de Asmundis received compensation for teaching purposes and proctoring from Medtronic, Abbott, Biotronik, MicroPort, Boston Scientific, AtriCure, and Daiichi Sankyo. The other authors report no conflicts. Publisher Copyright: {\textcopyright} 2024 American Heart Association, Inc.",

year = "2024",

month = dec,

doi = "10.1161/CIRCEP.124.013290",

language = "English",

volume = "17",

pages = "e013290",

journal = "Circulation: Arrhythmia and Electrophysiology",

issn = "1941-3149",

publisher = "Lippincott Williams and Wilkins",

number = "12",

}

Pannone, L , Della Rocca, DG , Vergara, P , Sorgente, A , Del Monte, A , Vetta, G, Cespon Fernandez, M, Talevi, G , Eltsov, I, Calburean, P-A, Overeinder, I , Bala, G , Almorad, A , Ströker, E , Pappaert, G, Sieira, J, de Ravel, T, Van Dooren, S , Gharaviri, A , La Meir, M , Brugada, P , Chierchia, GB , Sarkozy, A & de Asmundis, C 2024, 'In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome: The Role of Repolarization Heterogeneity', Circulation: Arrhythmia and Electrophysiology, vol. 17, nr. 12, e013290, blz. e013290. https://doi.org/10.1161/CIRCEP.124.013290

In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome : The Role of Repolarization Heterogeneity. / Pannone, Luigi ; Della Rocca, Domenico Giovanni ; Vergara, Pasquale ; Sorgente, Antonio ; Del Monte, Alvise ; Vetta, Giampaolo; Cespon Fernandez, Maria; Talevi, Giacomo ; Eltsov, Ivan; Calburean, Paul-Adrian; Overeinder, Ingrid ; Bala, Gezim ; Almorad, Alexandre ; Ströker, Erwin ; Pappaert, Gudrun; Sieira, Juan; de Ravel, Thomy; Van Dooren, Sonia ; Gharaviri, Ali ; La Meir, Mark ; Brugada, Pedro ; Chierchia, Gian Battista ; Sarkozy, Andrea ; de Asmundis, Carlo.

In: Circulation: Arrhythmia and Electrophysiology, Vol. 17, Nr. 12, e013290, 12.2024, blz. e013290.

Onderzoeksoutput: Article › peer review

TY - JOUR

T1 - In Vivo Mapping of Human Ventricular Fibrillation in Brugada Syndrome

T2 - The Role of Repolarization Heterogeneity

AU - Pannone, Luigi

AU - Della Rocca, Domenico Giovanni

AU - Vergara, Pasquale

AU - Sorgente, Antonio

AU - Del Monte, Alvise

AU - Vetta, Giampaolo

AU - Cespon Fernandez, Maria

AU - Talevi, Giacomo

AU - Eltsov, Ivan

AU - Calburean, Paul-Adrian

AU - Overeinder, Ingrid

AU - Bala, Gezim

AU - Almorad, Alexandre

AU - Ströker, Erwin

AU - Pappaert, Gudrun

AU - Sieira, Juan

AU - de Ravel, Thomy

AU - Van Dooren, Sonia

AU - Gharaviri, Ali

AU - La Meir, Mark

AU - Brugada, Pedro

AU - Chierchia, Gian Battista

AU - Sarkozy, Andrea

AU - de Asmundis, Carlo

N1 - Funding Information: Dr Sorgente received research grants from Daiichi Sankyo and Bayer; he received speaker fees from Menarini and Bayer. Dr La Meir is a consultant for AtriCure. Dr Chierchia received compensation for teaching purposes and proctoring from Medtronic, Abbott, Biotronik, and Boston Scientific. Dr Sarkozy is a consultant for Biosense Webster and Medtronic and received speaker fees from Biosense Webster, Biotronik, Pfizer, and Microport. Dr de Asmundis receives research grants on behalf of the center from Biotronik, Medtronic, Abbott, Microport, Boston Scientific, and AtriCure. Dr de Asmundis received compensation for teaching purposes and proctoring from Medtronic, Abbott, Biotronik, MicroPort, Boston Scientific, AtriCure, and Daiichi Sankyo. The other authors report no conflicts. Publisher Copyright: © 2024 American Heart Association, Inc.

PY - 2024/12

Y1 - 2024/12

N2 - BACKGROUND: Brugada syndrome (BrS) is associated with ventricular fibrillation (VF). Different VF mechanisms have been described, and repolarization gradients were associated with VF in a BrS model. The aim of this study is to map VF in BrS with ECG imaging. Furthermore, spatial correlation between sinus rhythm maps and VF maps was evaluated.METHODS: Inclusion criteria were (1) BrS diagnosis and (2) VF mapped with ECG imaging during right ventricle outflow tract ablation. VF mechanism was classified into (1) rotational, (2) focal, and (3) irregular. For comparison, 6 controls were enrolled. The following sinus rhythm maps were performed: activation, recovery time, and activation-recovery interval time. Spatial overlap between steep repolarization gradients (cliffs) at recovery time and activation-recovery interval time maps and initiating VF rotational activity was evaluated with photogrammetry.RESULTS: A total of 28 VF maps in 21 patients with BrS were analyzed. In the first ≈7 seconds of VF, rotational, focal, and irregular mechanisms were found. In 19 patients with BrS (90.5%) and none of the controls, a right ventricle outflow tract repolarization cliff only was found. In all these patients, the singularity point of the first initiating rotational VF activity spatially overlapped with the right ventricle outflow tract cliff. Abolition of right ventricle outflow tract repolarization cliffs was confirmed in all but 2 patients (94.3%). In one patient with recurrence, VF was mapped on the anterior right ventricle over a cliff that was not targeted at the first ablation procedure.CONCLUSIONS: In patients with BrS, repolarization heterogeneity has a critical role in VF. Repolarization cliffs might be a therapeutic target in VF ablation.

AB - BACKGROUND: Brugada syndrome (BrS) is associated with ventricular fibrillation (VF). Different VF mechanisms have been described, and repolarization gradients were associated with VF in a BrS model. The aim of this study is to map VF in BrS with ECG imaging. Furthermore, spatial correlation between sinus rhythm maps and VF maps was evaluated.METHODS: Inclusion criteria were (1) BrS diagnosis and (2) VF mapped with ECG imaging during right ventricle outflow tract ablation. VF mechanism was classified into (1) rotational, (2) focal, and (3) irregular. For comparison, 6 controls were enrolled. The following sinus rhythm maps were performed: activation, recovery time, and activation-recovery interval time. Spatial overlap between steep repolarization gradients (cliffs) at recovery time and activation-recovery interval time maps and initiating VF rotational activity was evaluated with photogrammetry.RESULTS: A total of 28 VF maps in 21 patients with BrS were analyzed. In the first ≈7 seconds of VF, rotational, focal, and irregular mechanisms were found. In 19 patients with BrS (90.5%) and none of the controls, a right ventricle outflow tract repolarization cliff only was found. In all these patients, the singularity point of the first initiating rotational VF activity spatially overlapped with the right ventricle outflow tract cliff. Abolition of right ventricle outflow tract repolarization cliffs was confirmed in all but 2 patients (94.3%). In one patient with recurrence, VF was mapped on the anterior right ventricle over a cliff that was not targeted at the first ablation procedure.CONCLUSIONS: In patients with BrS, repolarization heterogeneity has a critical role in VF. Repolarization cliffs might be a therapeutic target in VF ablation.

KW - Brugada syndrome

KW - coronary angiography

KW - death, sudden, cardiac

KW - heart ventricles

KW - ventricular fibrillation

UR - http://www.scopus.com/inward/record.url?scp=85211595176&partnerID=8YFLogxK

U2 - 10.1161/CIRCEP.124.013290

DO - 10.1161/CIRCEP.124.013290

M3 - Article

C2 - 39624903

AN - SCOPUS:85211595176

VL - 17

SP - e013290

JO - Circulation: Arrhythmia and Electrophysiology

JF - Circulation: Arrhythmia and Electrophysiology

SN - 1941-3149

IS - 12

M1 - e013290

ER -