Vol 80, No 1 (2022)
Clinical vignette
Published online: 2021-08-06

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  • „ Clinical vignette

Can the first radiofrequency application for ablation of atrial tachycardia be successful in a patient after Fontan correction? With a little bit of luck… yes

Michał Orczykowski1, Piotr Zieliński2, Marcin Demkow3, Andrzej Hasiec1, Maciej Sterliński1, Piotr Hoffman2, Łukasz Szumowski1

11st Department of Arrhythmia, National Institute of Cardiology, Warszawa, Poland

2Department of Congenital Heart Diseases, National Institute of Cardiology, Warszawa, Poland

3Department of Coronary and Structural Heart Diseases, National Institute of Cardiology, Warszawa, Poland

Correspondence to:

Michał Orczykowski, MD, PhD,

1st Department of Arrhythmia, National Institute of Cardiology,

Alpejska 42, 04–628 Warszawa, Poland,

phone: +48 696 77 55 33,

e-mail: mikeorczyk@gmail.com

Copyright by the Author(s), 2022

DOI: 10.33963/KP.a2021.0140

Received: September 27, 2021

Accepted: October 18, 2021

Early publication date: October 19, 2021

A 42-year-old woman with a history of a single ventricle secondary to tricuspid valve atresia, who underwent a left Blalock-Taussig shunt at the age of 2, a Fontan atrio-pulmonary connection at the age of 10, radiofrequency ablation of atrial tachycardia (AT) at the age of 28, a conversion to a Glenn connection with a 22 mm collagen-coated woven polyester intra-atrial tunnel, partial removal of the interatrial septum, and surgical ablation with epicardial pacemaker implantation at the age of 36, was admitted to our institute due to an incessant AT and worsening symptoms of heart failure.

After careful evaluation of the clinical data, due to resistance to pharmacotherapy AT, we decided to perform radiofrequency catheter ablation. The procedure was performed under general anesthesia. We inserted 2 sheaths into the right femoral vein. From the intra-atrial tunnel, we recorded the AT, which had a cycle length of 350 ms.

Under transesophageal echocardiography guidance (Figure 1A) and with computed tomography visualization of the intra-atrial tunnel course (Figure 1B), we were able to puncture the intra-atrial tunnel (Figure 1C, D) and successfully dilate the hole in the punctured polyester material.

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We attempted to use an angioplasty balloon, but after the first contrast injection, it was discovered that the balloon leaked and during subsequent maneuvers, the guidewire was displaced. Successful insertion of the long sheath was achieved with the use of a typical, transseptal-like approach a needle and a long sheath.

We performed a brief 3-dimensional activation map of the right atrium (Figure 1E) with the use of the CARTO 3 system (Biosense Webster, Inc., Diamond Bar, CA, USA) and a reference located within the intra-atrial tunnel. We recorded the low voltage, fractionated potentials at the lower part of the atrium (Figure 1F), and with entrainment maneuvers, we confirmed the area as the part of arrhythmia activation. First radiofrequency energy delivery restored the sinus rhythm. We were able to eliminate all fragmented signals in the area and an aggressive programmed stimulation protocol failed to induce any arrhythmias.

Procedure and fluoroscopy times were 310 and 73 minutes, respectively, and radiation dose was 13683 cGy cm2 and mostly related to transtunnel puncture. The patient’s oxygen saturation (98%) was unchanged from her prior value before the transtunnel puncture. No complications after the procedure have been noted. The patient was discharged from the hospital with sinus rhythm and a significant clinical improvement. There were no recurrences of arrhythmia at her 6-month follow-up.

In children with univentricular hearts, the introduction of a Glenn shunt followed by the breakthrough correction described by Fontan and Baudet, and intracardiac and extracardiac total cavopulmonary connection techniques, have improved the outcomes and survival of affected patients. The last 2 techniques are associated with a lower risk of atrial arrhythmias [1]. However, cases in which an arrhythmia occurs can be a real challenge for electrophysiologists.

The implementation of the transtunnel (transbaffle) puncture technique (besides the remote navigation) provides an opportunity for successful ablation of the arrhythmia even in the presence of complex anatomy [2–5].

Article information

REFERENCES

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Polish Heart Journal (Kardiologia Polska)