TY - JOUR
T1 - Mechanisms of action behind the protective effects of proactive esophageal cooling during radiofrequency catheter ablation in the left atrium
AU - Omotoye, Samuel
AU - Singleton, Matthew J.
AU - Zagrodzky, Jason
AU - Clark, Bradley
AU - Sharma, Dinesh
AU - Metzl, Mark D.
AU - Gallagher, Mark M.
AU - Meininghaus, Dirk Grosse
AU - Leung, Lisa
AU - Garg, Jalaj
AU - Warrier, Nikhil
AU - Panico, Ambrose
AU - Tamirisa, Kamala
AU - Sanchez, Javier
AU - Mickelsen, Steven
AU - Sardana, Mayank
AU - Shah, Dipak
AU - Athill, Charles
AU - Hayat, Jamal
AU - Silva, Rogelio
AU - Clark, Audra T.
AU - Gray, Maria
AU - Levi, Benjamin
AU - Kulstad, Erik
AU - Girouard, Steven
AU - Zagrodzky, Will
AU - Montoya, Marcela Mercado
AU - Bustamante, Tatiana Gomez
AU - Berjano, Enrique
AU - González-Suárez, Ana
AU - Daniels, James
N1 - Publisher Copyright:
© 2024 Heart Rhythm Society
PY - 2024/6
Y1 - 2024/6
N2 - Proactive esophageal cooling for the purpose of reducing the likelihood of ablation-related esophageal injury resulting from radiofrequency (RF) cardiac ablation procedures is increasingly being used and has been Food and Drug Administration cleared as a protective strategy during left atrial RF ablation for the treatment of atrial fibrillation. In this review, we examine the evidence supporting the use of proactive esophageal cooling and the potential mechanisms of action that reduce the likelihood of atrioesophageal fistula (AEF) formation. Although the pathophysiology behind AEF formation after thermal injury from RF ablation is not well studied, a robust literature on fistula formation in other conditions (eg, Crohn disease, cancer, and trauma) exists and the relationship to AEF formation is investigated in this review. Likewise, we examine the abundant data in the surgical literature on burn and thermal injury progression as well as the acute and chronic mitigating effects of cooling. We discuss the relationship of these data and maladaptive healing mechanisms to the well-recognized postablation pathophysiological effects after RF ablation. Finally, we review additional important considerations such as patient selection, clinical workflow, and implementation strategies for proactive esophageal cooling.
AB - Proactive esophageal cooling for the purpose of reducing the likelihood of ablation-related esophageal injury resulting from radiofrequency (RF) cardiac ablation procedures is increasingly being used and has been Food and Drug Administration cleared as a protective strategy during left atrial RF ablation for the treatment of atrial fibrillation. In this review, we examine the evidence supporting the use of proactive esophageal cooling and the potential mechanisms of action that reduce the likelihood of atrioesophageal fistula (AEF) formation. Although the pathophysiology behind AEF formation after thermal injury from RF ablation is not well studied, a robust literature on fistula formation in other conditions (eg, Crohn disease, cancer, and trauma) exists and the relationship to AEF formation is investigated in this review. Likewise, we examine the abundant data in the surgical literature on burn and thermal injury progression as well as the acute and chronic mitigating effects of cooling. We discuss the relationship of these data and maladaptive healing mechanisms to the well-recognized postablation pathophysiological effects after RF ablation. Finally, we review additional important considerations such as patient selection, clinical workflow, and implementation strategies for proactive esophageal cooling.
KW - Atrial fibrillation
KW - Atrioesophageal fistula
KW - Esophageal cooling
KW - Pulmonary vein isolation
KW - Radiofrequency ablation
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U2 - 10.1016/j.hroo.2024.05.002
DO - 10.1016/j.hroo.2024.05.002
M3 - Review article
C2 - 38984358
AN - SCOPUS:85195453559
SN - 2666-5018
VL - 5
SP - 403
EP - 416
JO - Heart Rhythm O2
JF - Heart Rhythm O2
IS - 6
ER -