Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment

BACKGROUND: Atrial fibrillation (AF) driver mechanisms are obscured to clinical multielectrode mapping approaches that provide partial, surface‐only visualization of unstable 3‐dimensional atrial conduction. We hypothesized that transient modulation of refractoriness by pharmacologic challenge durin...

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Autores principales: Hansen, Brian J., Zhao, Jichao, Helfrich, Katelynn M., Li, Ning, Iancau, Alexander, Zolotarev, Alexander M., Zakharkin, Stanislav O., Kalyanasundaram, Anuradha, Subr, Megan, Dastagir, Nawshin, Sharma, Roshan, Artiga, Esthela J., Salgia, Nicholas, Houmsse, Mustafa M., Kahaly, Omar, Janssen, Paul M. L., Mohler, Peter J., Mokadam, Nahush A., Whitson, Bryan A., Afzal, Muhammad R., Simonetti, Orlando P., Hummel, John D., Fedorov, Vadim V.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7792422/
https://www.ncbi.nlm.nih.gov/pubmed/33006292
http://dx.doi.org/10.1161/JAHA.120.017789
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author Hansen, Brian J.
Zhao, Jichao
Helfrich, Katelynn M.
Li, Ning
Iancau, Alexander
Zolotarev, Alexander M.
Zakharkin, Stanislav O.
Kalyanasundaram, Anuradha
Subr, Megan
Dastagir, Nawshin
Sharma, Roshan
Artiga, Esthela J.
Salgia, Nicholas
Houmsse, Mustafa M.
Kahaly, Omar
Janssen, Paul M. L.
Mohler, Peter J.
Mokadam, Nahush A.
Whitson, Bryan A.
Afzal, Muhammad R.
Simonetti, Orlando P.
Hummel, John D.
Fedorov, Vadim V.
author_facet Hansen, Brian J.
Zhao, Jichao
Helfrich, Katelynn M.
Li, Ning
Iancau, Alexander
Zolotarev, Alexander M.
Zakharkin, Stanislav O.
Kalyanasundaram, Anuradha
Subr, Megan
Dastagir, Nawshin
Sharma, Roshan
Artiga, Esthela J.
Salgia, Nicholas
Houmsse, Mustafa M.
Kahaly, Omar
Janssen, Paul M. L.
Mohler, Peter J.
Mokadam, Nahush A.
Whitson, Bryan A.
Afzal, Muhammad R.
Simonetti, Orlando P.
Hummel, John D.
Fedorov, Vadim V.
author_sort Hansen, Brian J.
collection PubMed
description BACKGROUND: Atrial fibrillation (AF) driver mechanisms are obscured to clinical multielectrode mapping approaches that provide partial, surface‐only visualization of unstable 3‐dimensional atrial conduction. We hypothesized that transient modulation of refractoriness by pharmacologic challenge during multielectrode mapping improves visualization of hidden paths of reentrant AF drivers for targeted ablation. METHODS AND RESULTS: Pharmacologic challenge with adenosine was tested in ex vivo human hearts with a history of AF and cardiac diseases by multielectrode and high‐resolution subsurface near‐infrared optical mapping, integrated with 3‐dimensional structural imaging and heart‐specific computational simulations. Adenosine challenge was also studied on acutely terminated AF drivers in 10 patients with persistent AF. Ex vivo, adenosine stabilized reentrant driver paths within arrhythmogenic fibrotic hubs and improved visualization of reentrant paths, previously seen as focal or unstable breakthrough activation pattern, for targeted AF ablation. Computational simulations suggested that shortening of atrial refractoriness by adenosine may (1) improve driver stability by annihilating spatially unstable functional blocks and tightening reentrant circuits around fibrotic substrates, thus unmasking the common reentrant path; and (2) destabilize already stable reentrant drivers along fibrotic substrates by accelerating competing fibrillatory wavelets or secondary drivers. In patients with persistent AF, adenosine challenge unmasked hidden common reentry paths (9/15 AF drivers, 41±26% to 68±25% visualization), but worsened visualization of previously visible reentry paths (6/15, 74±14% to 34±12%). AF driver ablation led to acute termination of AF. CONCLUSIONS: Our ex vivo to in vivo human translational study suggests that transiently altering atrial refractoriness can stabilize reentrant paths and unmask arrhythmogenic hubs to guide targeted AF driver ablation treatment.
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spelling pubmed-77924222021-01-15 Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment Hansen, Brian J. Zhao, Jichao Helfrich, Katelynn M. Li, Ning Iancau, Alexander Zolotarev, Alexander M. Zakharkin, Stanislav O. Kalyanasundaram, Anuradha Subr, Megan Dastagir, Nawshin Sharma, Roshan Artiga, Esthela J. Salgia, Nicholas Houmsse, Mustafa M. Kahaly, Omar Janssen, Paul M. L. Mohler, Peter J. Mokadam, Nahush A. Whitson, Bryan A. Afzal, Muhammad R. Simonetti, Orlando P. Hummel, John D. Fedorov, Vadim V. J Am Heart Assoc Original Research BACKGROUND: Atrial fibrillation (AF) driver mechanisms are obscured to clinical multielectrode mapping approaches that provide partial, surface‐only visualization of unstable 3‐dimensional atrial conduction. We hypothesized that transient modulation of refractoriness by pharmacologic challenge during multielectrode mapping improves visualization of hidden paths of reentrant AF drivers for targeted ablation. METHODS AND RESULTS: Pharmacologic challenge with adenosine was tested in ex vivo human hearts with a history of AF and cardiac diseases by multielectrode and high‐resolution subsurface near‐infrared optical mapping, integrated with 3‐dimensional structural imaging and heart‐specific computational simulations. Adenosine challenge was also studied on acutely terminated AF drivers in 10 patients with persistent AF. Ex vivo, adenosine stabilized reentrant driver paths within arrhythmogenic fibrotic hubs and improved visualization of reentrant paths, previously seen as focal or unstable breakthrough activation pattern, for targeted AF ablation. Computational simulations suggested that shortening of atrial refractoriness by adenosine may (1) improve driver stability by annihilating spatially unstable functional blocks and tightening reentrant circuits around fibrotic substrates, thus unmasking the common reentrant path; and (2) destabilize already stable reentrant drivers along fibrotic substrates by accelerating competing fibrillatory wavelets or secondary drivers. In patients with persistent AF, adenosine challenge unmasked hidden common reentry paths (9/15 AF drivers, 41±26% to 68±25% visualization), but worsened visualization of previously visible reentry paths (6/15, 74±14% to 34±12%). AF driver ablation led to acute termination of AF. CONCLUSIONS: Our ex vivo to in vivo human translational study suggests that transiently altering atrial refractoriness can stabilize reentrant paths and unmask arrhythmogenic hubs to guide targeted AF driver ablation treatment. John Wiley and Sons Inc. 2020-10-02 /pmc/articles/PMC7792422/ /pubmed/33006292 http://dx.doi.org/10.1161/JAHA.120.017789 Text en © 2020 The Authors. Published on behalf of the American Heart Association, Inc., by Wiley. This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle Original Research
Hansen, Brian J.
Zhao, Jichao
Helfrich, Katelynn M.
Li, Ning
Iancau, Alexander
Zolotarev, Alexander M.
Zakharkin, Stanislav O.
Kalyanasundaram, Anuradha
Subr, Megan
Dastagir, Nawshin
Sharma, Roshan
Artiga, Esthela J.
Salgia, Nicholas
Houmsse, Mustafa M.
Kahaly, Omar
Janssen, Paul M. L.
Mohler, Peter J.
Mokadam, Nahush A.
Whitson, Bryan A.
Afzal, Muhammad R.
Simonetti, Orlando P.
Hummel, John D.
Fedorov, Vadim V.
Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment
title Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment
title_full Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment
title_fullStr Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment
title_full_unstemmed Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment
title_short Unmasking Arrhythmogenic Hubs of Reentry Driving Persistent Atrial Fibrillation for Patient‐Specific Treatment
title_sort unmasking arrhythmogenic hubs of reentry driving persistent atrial fibrillation for patient‐specific treatment
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7792422/
https://www.ncbi.nlm.nih.gov/pubmed/33006292
http://dx.doi.org/10.1161/JAHA.120.017789
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