Case reports
Endovascular treatment of PA pseudoaneurysm caused by Swan-Ganz catheter

Introduction



Application of a Swan-Ganz catheter in the pulmonary artery may lead to mechanical complications, including artery perforation and life-threatening lung pseudoaneurysm formation [1]. The following case report describes this problem and its endovascular treatment with a single coil.



Case report



A 55-year-old deaf patient was admitted for surgical treatment of his severe bicuspid aortic valve stenosis. Surgical intervention was performed on the 18th of September 2012. A mechanical aortic bicuspid valve (SJM Regent® Valve, diameter of 25 mm) was implanted. After surgery, the patient reported fever and hemoptysis. Antibiotic therapy and a temporary discontinuation of oral anticoagulation was prescribed, which reduced inflammatory parameters and stopped the hemoptysis.

On the 25th of September 2012, control chest radiography (Figure 1) showed atelectasis or inflammation of rear base segments of the right lung. Additionally, the presence of small quantities of fluid in both pleural cavities was revealed.

On the 2nd of October 2012 chest radiography was performed again (Figure 2). Unlike in the previous study, at the place of previously described parenchymal densities, a circular shadow with a diameter of 26 mm was observed. Finally, computed tomography revealed a pseudoaneurysm of the right inferior lobe supplied by a subsegmental artery (Figure 3).

The patient was classified for transcatheter embolization of the pseudoaneurysm feeding artery. The procedure was performed on the 15th of October 2012 from a femoral venous approach. The subsegmental pulmonary artery branch was cannulated with a Cournand type 6 Fr catheter (Figure 4). Selective hand contrast injection showed the ruptured artery actively bleeding into the pseudoaneurysm. A single 4 loop, 3 mm diameter coil

(M Reye® Flipper® PDA Closure Detachable Coil, IMWCE-3-PDA-4, William Cook Europe) was implanted just above the artery rupture point and below the last bifurcation. The angiogram 5 min after the implantation showed complete closure of the feeding artery (Figure 5). Further hospitalization was uneventful.

On the 19th of October 2012, control postoperative chest radiography showed the vascular coil in position (Figure 6). The oval shadow size was reduced and exhibited consolidation. Other details of the radiography remained unchanged.



Discussion



The placement of a Swan-Ganz catheter into a pulmonary artery can cause different complications (2–17%) [2], such as: arrhythmias, pneumothorax, heart block, lung infarction, perforation of the balloon, thrombosis, air embolism, knotting of the catheter, valvular damage, or infection [3–5].

Rupture of the pulmonary artery due to Swan-Ganz catheter application is one of the infrequent side effects (0.016–0.2%) [1]. At the same time, it belongs to the most serious and the most dynamic group of complications [6–12], causing high mortality (in approximately 50% of cases) [10, 13]. The right lung is affected in 90% of reports, usually the right lower lobe [14].

The symptoms can vary from slight cough (low hemoptysis) even to massive hemorrhage. In each of these conditions, a pseudoaneurysm in the lung tissues can be formed. There are cases in which pulmonary artery perforation is asymptomatic and is revealed only accidentally during the autopsy [15]. Multislice computed tomography can localize directly the affected vessel as well as the particular place of pseudoaneurysm formation. Furthermore, it is considered to be more accurate than pulmonary angiography (diagnostic gold standard) [9, 10].

In 1994, a review article published in the “Journal of Car-

diothoracic and Vascular Anesthesia” contained 92 cases of perforation of the pulmonary artery caused by a pulmonary catheter. Among these cases, 28 led to formation of a pseudoaneurysm. Fourteen patients survived (11 were treated with embolization, 3 surgically), 13 patients died (7 because of early rupture of the formed pseudoaneurysm, 6 because of other health complications), and 1 patient was not reported. Moreover, it was proven that a pseudoaneurysm can be formed immediately, as well as during 7 months after the injury [16, 17].

Mechanical complications of Swan-Ganz catheter application can be treated surgically (reconstruction of pulmonary artery, lobectomy, lung resection) [12] or endovascularly (embolization) [3, 18, 19]. Endovascular therapy is a safe, quick and low cost alternative to surgical techniques [20]. Despite this fact, it is important to emphasize that even though pulmonectomy increases mortality, sometimes in severe cases it is the only way of treatment [21]. Means of interventional cardiology comprise methods such as transcatheter detachable balloon technique [22, 23], or insertion of a specific coil (therapeutic gold standard) [6, 10, 13, 23, 24]. Moreover, use of an Amplatzer® Vascular Plug has recently been described [14]. One of the patterns consists even of a local thrombin injection using the distal port of the Swan-Ganz catheter. This method might be accompanied by balloon inflation, which can act as a temporary tamponade preventing formation and enlargement of the pseudoaneurysm [25]. Considering other methods, there is a case report which reveals that extracorporeal membrane oxygenation (ECMO) can reduce bleeding from the ruptured pulmonary artery caused by the Swan-Ganz catheter. Extracorporeal membrane oxygenation was applied in order to improve blood oxygenation and severe hypoxemia and, in consequence, to achieve clinical stability more rapidly [24]. What is more, others concluded that in the absence of particular risk factors (such as pulmonary hypertension and use of systemic anticoagulants) the treatment of pulmonary artery rupture can consist only of supportive care [1].



Conclusions



Even though iatrogenic perforation of the pulmonary artery caused by a Swan-Ganz catheter is infrequent, it is still a life-threatening condition that should be recognized and cured immediately. Among all treatment patterns, means of endovascular cardiology are relatively quick, accurate and highly effective. They act as an alternative to very traumatizing surgical treatment. Moreover, interventional cardiology permanently develops by searching for innovations, modern techniques and new implantable devices, as well as for new applications for already well-known equipment.



References



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