Abstract
Venoarterial extracorporeal membrane oxygenation (VA-ECMO) plays an important role in patients with massive pulmonary embolism (PE)-related cardiac arrest. A 47-year-old healthy Japanese woman was brought to the emergency department because of shock. The patient suddenly collapsed due to cardiac arrest in an ambulance. The patient was diagnosed with PE on transthoracic echocardiography during cardiopulmonary resuscitation (CPR). Emergency VA-ECMO cannulation was performed percutaneously. Although VA-ECMO support was initiated, the return cannula flow could not be pumped because of the high resistance. Circulation support with VA-ECMO was discontinued. Subsequently, pulmonary angiography under CPR revealed numerous thrombi in the bilateral pulmonary arteries, and aspiration thrombectomy and catheter fragmentation were performed. The patient achieved spontaneous recovery of circulation after successful catheter fragmentation. After the procedure to investigate the cause of VA-ECMO failure, whole-body computed tomography showed a large ovarian tumor and compression of the femoral artery and abdominal aorta. The patient died of multiple organ failure due to hypoxic encephalopathy. Undiagnosed gynecological tumors often cause fulminant PE and may also cause the failure of VA-ECMO due to vascular compression. Alternative cannulation sites and prior thrombolysis should be immediately considered. The complexity of PE management necessitates a well-trained PE response team. LEARNING OBJECTIVE: Large gynecological tumors may cause pulmonary embolism-related cardiac arrest and consequent failure of venoarterial extracorporeal membrane oxygenation using the femoral artery approach due to vascular compression by the tumor. An adequate strategy should be considered to achieve immediate recovery of spontaneous circulation and circulation support as simultaneous systematic thrombolysis and an alternative central cannulation approach to protect against hypoxic organ damage. The complexity of pulmonary embolism (PE) management necessitates a well-trained PE response team.