The Annals of thoracic surgery
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Case Reports
Severe Tricuspid Regurgitation After Percutaneous Removal of a Swan-Ganz Catheter Caught by Suture.
Swan-Ganz catheter entrapment in the heart, vena cava, or pulmonary artery is rare but may lead to life-threatening events. We report a case of severe tricuspid regurgitation resulting from papillary muscle rupture during percutaneous removal of a Swan-Ganz catheter (SCG) caught by a surgical suture. We performed urgent tricuspid valve repair by suturing the ruptured papillary muscle. This report highlights preventive measures to avoid suture-related entrapment and raises a word of caution regarding percutaneous removal of accidentally entrapped SCGs.
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Hypothermia and Selective Antegrade Cerebral Perfusion Is Safe for Arch Repair in Type A Dissection.
Unilateral selective antegrade cerebral perfusion with moderate hypothermic circulatory arrest has been shown to be a safe and effective method of cerebral protection during surgery for acute type A dissection. This study evaluates the impact of this cerebral protection strategy on clinical outcomes after extended aortic arch reconstruction in patients undergoing emergent repair of acute type A dissection. ⋯ Unilateral selective antegrade cerebral perfusion with moderate hypothermic circulatory arrest remains a safe strategy for cerebral protection during emergent surgical repair of acute type A dissection and provides equivalent outcomes for both limited and extensive aortic arch reconstruction. Based on these data, unilateral selective antegrade cerebral perfusion and moderate hypothermic circulatory arrest may represent an optimal strategy for cerebral protection in this acute setting.
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Differential hypoxia exists in peripheral venoarterial (VA) extracorporeal membrane oxygenation (ECMO) patients with compromised lungs, causing hypoxic damage to heart or brain. We proposed an Avalon Elite (Maquet, Rastatt, Germany) double lumen cannula-based hybrid ECMO to add a venovenous (VV) blood flow into the pulmonary circulation onto the existing VA ECMO circuit to increase oxygen saturation in the left ventricle and ascending aorta, mitigating heart/brain hypoxia. ⋯ The Avalon Elite double-lumen cannula-based hybrid ECMO circuit is a simple circuit that provides efficient performance and flexible VA/VV blood distribution. In this hybrid ECMO circuit, incremental VV blood flow (10% to 50%) progressively increased left ventricular blood oxygen level, ensuring adequate heart and brain oxygen supply.