Left atrial appendage closure in a patient with hemophilia C. An option or the only antithrombotic treatment for patients with a rare bleeding disorder?

Paweł Binko; Andrzej Madejczyk; Wojciech Brzozowski; Radosław Zarczuk; Karolina Lewczuk; Piotr Waciński

doi:10.33963/KP.a2023.0117

Polish Heart Journal (Kardiologia Polska)
Vol 81, No 7-8 (2023) #95569 Left atrial appendage closure in a patient with hemophilia C. An option or the only antithrombotic treatment for patients with a rare bleeding disorder?

Vol 81, No 7-8 (2023)

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Published online: 2023-05-16

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Clinical vignette

Left atrial appendage closure in a patient with hemophilia C. An option or the only antithrombotic treatment for patients with a rare bleeding disorder?

Paweł Binko1Andrzej Madejczyk1Wojciech Brzozowski2Radosław Zarczuk1Karolina Lewczuk2Piotr Waciński1

1Department of Interventional Cardiology, SPSK 4 University Hospital, Lublin, Poland

2Department of Cardiology, SPSK 4 University Hospital, Lublin, Poland

Correspondence to:

Paweł Binko, MD,

Department of Interventional Cardiology,

Medical University of Lublin, Jaczewskiego 8, 20–954 Lublin, Poland,

phone: +48 81 724 41 55

e-mail: pawelbinko.md@gmail.com

Copyright by the Author(s), 2023

DOI: 10.33963/KP.a2023.0117

Received: February 3, 2023

Accepted: May 11, 2023

Early publication date: May 16, 2023

Atrial fibrillation (AF) prevalence in the adult population is estimated between 2% and 4%. AF increases the risk of stroke approximately 5-fold. To prevent stroke, we use anticoagulant therapy, which is recommended in patients with a CHA2DS2-VASc score of ≥2 in men or ≥3 in women and should be considered in patients with a CHA2DS2-VASc score of 1 in men or 2 in women. In patients with contraindications to chronic anticoagulant therapy, an alternative is percutaneous left atrial appendage closure (LAAC) [1, 2].

We present a description of the left atrial appendage closure procedure in a patient with contraindications for long-term anticoagulant treatment due to congenital hemophilia C.

A 72-year-old man with hemophilia C (a hereditary bleeding disorder characterized by factor XI deficiency) and permanent atrial fibrillation (AF), without any kind of antithrombotic therapy, was referred to our center by his cardiologist. His medical history included hypertension, ventricular arrhythmia, prostate cancer treated by prostatectomy 6 years earlier, and post-traumatic subdural hematoma 16 years earlier.

The CHA2DS2-VASc score was estimated at 2, and his HAS-BLED score was 3. After evaluation, his case was presented at the Heart Team consultation, and the patient was qualified for LAAC.

Transesophageal echocardiography (TEE) revealed a thrombus of 0.8 cm diameter (Figure 1A) in the left atrial appendage (LAA). Laboratory tests showed an increase in activated partial thromboplastin time (APTT) at 82.9 sec with a normal international normalized ratio (INR) — 1.4. The LAAC procedure was postponed. The patient was consulted by a hematologist, who disqualified him from any kind of antithrombotic treatment. The patient was discharged from the hospital, and the next evaluation was scheduled after 2 months to check the presence of the thrombus.

Figure 1. A. Thrombus of diameter 0.8 cm in the LAA. B. Spontaneous contrast in the LAA, which has gelatinous consistency on the bottom and is on the verge of clotting. C. Spontaneous contrast in the LAA. D. A 35 mm Watchman FLX device in the LAA, before release, intraprocedural 2D TEE. E. A 35 mm Watchman FLX device in the LAA after release, intraprocedural 2D TEE. F. A 35 mm Watchman FLX device in the LAA after release, intraprocedural 3D TEE

Abbreviations: 3D, 3-dimensional; 2D, two-dimensional; LAA, left atrial appendage; TEE, transesophageal echocardiography

After 2 months, TEE was performed, which showed a presence of spontaneous contrast in the left atrial appendage, which on the bottom had gelatinous consistency and was on the verge of clotting (Figure 1B). The APTT was also increased this time, and the INR level was normal. Factor XI level was evaluated at 1.4%. It was decided to perform the procedure shortly without contrast injection for device positioning in the left appendage (navigating with TEE only).

After 7 days, we admitted the patient again. This time during TEE, no thrombus was found in LAA (Figure 1C). Only a presence of spontaneous contrast was noticed, which was not a contraindication to the LAAC procedure. It was decided to perform the procedure. Due to heritage factor XI deficiency, the patient had a consultation with a hematologist who recommended 6 units of fresh frozen plasma (FFP) within 12 hours before the planned procedure. After transfusion, factor XI level was 23.6% and APTT was 37.1 seconds, and 2 more units of FFP were transfused in the operating room just before the procedure. After that preparation, the patient underwent successful percutaneous left atrial appendage closure using a 35mm Watchman FLX device (Figure 1D–F). The procedure went without complications. In the postoperative period, further 2 units of FFP were transfused. On the first day after LAAC, the level of factor XI was 28.9%, and APTT was 26.3 seconds. No hemorrhagic complications during further hospitalization occurred. On the 4th day after LAAC, TEE confirmed the correct position of the closure device. The same day, the patient was discharged from the hospital in stable condition.

To our knowledge, it is the first reported case of percutaneous left atrial appendage closure in a patient with hemophilia C. We found only 17 described cases of LAAC in patients with hemophilia (15 hemophilia A, 2 hemophilia B), none in Poland [3–5]. In our opinion, after appropriate preparation, LAAC is a safe strategy in patients with hemophilia C and AF.

Article information

Conflict of interest: None declared.

Funding: None.

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