Multifaceted surgical approach of combined thoracoretroperitoneal incision and midline abdominal incision for a secondary aortoenteric fistula.

BACKGROUND: We report a one-stage surgery to the case of secondary aortoenteric fistula (sAEF) after prosthetic reconstruction of abdominal aortic aneurysm, by multifaceted approach. CASE PRESENTATION: A 63-year-old male was admitted to our unit under diagnosed of sAEF after prosthetic reconstruction of abdominal aortic aneurysm, and a pseudoaneurysm of thoracoabdominal aorta due to infection. The patient underwent emergency operation. Firstly, we placed the patient in a modified right lateral decubitus position and performed thoracoabdominal aortic replacement with retroperitoneal approach by thoracoretroperitoneal incision which combined thoracotomy and pararectal incision, and secondly, we changed to a supine position and performed closure of the duodenal fistula and omental flap transposition by midline abdominal incision. The patient was doing well without complications. CONCLUSIONS: A one-stage, multifaceted surgical approach covering both prosthetic reconstruction of thoracoabdominal aorta and closure of sAEF with omentopexy is reasonable and useful strategy.

Total arch replacement with frozen elephant trunk technique for Kommerell's diverticulum with a right-sided aortic arch and aberrant left subclavian artery.

BACKGROUND: Kommerell's diverticulum with a right-sided aortic arch and aberrant left subclavian artery is uncommon. We perforemed a single-stage procedure with the frozen elephant trunk technique. CASE PRESENTATION: A 62-year-old man underwent aortic dissection a year ago, and computerized tomographic angiography performed at that time revealed a right aortic arch, Kommerell's diverticulum (42 mm), and an aberrant left subclavian artery. We performed one-stage repair through median sternotomy. The cervical branches were exposed during the operation, and a deep hypothermic circulatory arrest with antegrade cerebral perfusion was established. The aorta was transected distally to the origin of the left carotid artery. We inserted a stent graft into the aorta, followed by peripheral anastomosis using a premade 5-branch Dacron graft. The right subclavian artery and the aorta were reconstructed, and the remaining cervical branches were reconstructed after the cross-clamp had been released. CONCLUSIONS: Total arch replacement through median sternotomy was performed for the right aortic arch, Kommerell's diverticulum, and aberrant left subclavian artery. The frozen elephant trunk technique is allowed to perform a one-stage operation safely.

Coronary arteritis: a case series.

BACKGROUND: The present article describes two cases of patients with coronary arteritis (CA) whose identification of CA diagnosis (late vs. early) resulted in different clinical courses and outcomes. CASE SUMMARY: Case 1 is a 53-year-old woman with multiple coronary risk factors who was admitted with acute coronary syndrome (ACS) and significant stenosis in the left main trunk (LMT). Although clues suggested arteritis (LMT lesion without any other stenosis, occlusion of left internal thoracic artery, etc.), the diagnosis of CA (coronary involvement of unclassified arteritis) was delayed and revascularization, including coronary artery bypass grafting (CABG) and percutaneous coronary intervention (PCI), was performed under uncontrolled inflammatory status. As a result, Case 1 experienced repeated ACS episodes due to graft failure and in-stent restenosis, and repeatedly underwent PCI. Case 2 is a 76-year-old woman with no significant coronary risk factors who was admitted with ACS. This patient was successfully diagnosed with coronary involvement of Takayasu arteritis before revascularization. Coronary artery bypass grafting was performed after stabilizing inflammation with prednisolone, and the patient remains angina-free beyond 1-year post-CABG. In both cases, intravascular imaging clearly identified the localization and degree of inflammation related to CA by demonstrating specific findings (ambiguous typical three-layer structure of arterial wall and extended low-echoic areas within adventitia). DISCUSSION: Accurate and early diagnosis with meticulous diagnostic and therapeutic strategies appear to be important for favourable clinical outcomes in the medical treatment of patients with coronary involvement of arteritis. Intravascular imaging has the potential to contribute to optimizing clinical management of CA.

Tracheo-innominate artery fistula with continuous bleeding successfully treated through the suprasternal approach: a case report.

BACKGROUND: Tracheo-innominate artery fistula (TIF) is a rare but fatal complication occurring after tracheotomy. Brachiocephalic trunk transection, one of the surgical treatments for TIF, is mostly associated with a full or partial median sternotomy. We describe a case of TIF with continuous bleeding, which was successfully treated with brachiocephalic trunk transection through a collar incision without the need for median sternotomy. CASE PRESENTATION: Case 1. An 18-year-old man was referred to our hospital with bleeding from a tracheal stoma, which had ceased prior to admission. TIF was suspected after examination. Innominate artery transection was performed through a collar incision. TIF was not revealed when we cut the innominate artery anterior wall open; therefore, we opted for preventive surgical intervention. The post-operative course was uneventful, and the patient was asymptomatic at the 3-year follow-up. Case 2. A 14-year-old male patient was admitted to our hospital with bleeding from a tracheal stoma, and TIF was suspected after examination. There was persistent bleeding when the cuff of the tracheotomy tube was deflated. Brachiocephalic trunk transection was performed through a collar incision using balloon occlusion. The post-operative course was uneventful, and rebleeding has not occurred 2 years later. CONCLUSIONS: Brachiocephalic trunk transection without any median sternotomy may offer the benefits of post-operative infection prevention. In patients with suspected continuous bleeding, using a balloon catheter may be a safe and effective method of treatment.

Treatment of coronary malperfusion in type A acute aortic dissection.

Coronary malperfusion is one of the most dreadful complications of acute aortic dissection because it causes catastrophic acute myocardial infarction in patients who are already severely ill. Our strategy was as follows. After the administration of heparin, emergency percutaneous coronary intervention (PCI) was urgently performed at the same time as starting to prepare the operating room. A stent was then placed to cover the full length of dissected coronary artery. Patients whose cardiac function improved after successful coronary artery reperfusion were transferred to the operating room to undergo central repair surgery. If the cardiac function did not recover even after coronary reperfusion, and the patient required extracorporeal membrane oxygenation, we considered the best supportive care without performing central repair surgery. In patients with left coronary malperfusion, we believe that preoperative PCI must be performed immediately. Preoperative PCI might delay central repair surgery and potentially increase the risk of catastrophic cardiac tamponade. However, the benefit of PCI in preserving cardiac function exceeds the risk of cardiac tamponade. The indications of PCI before central repair in patients with right coronary malperfusion should be considered after assessing each patient's condition, including the presence or absence of cardiac tamponade and right ventricular infarction, left ventricular function, the immediate availability of cardiologists or cardiac surgeons, and the speed of preparing the operating room.

The AB Portable Driver Generates Higher Drive-Line Pressures Possibly Leading to Accelerated Hemolysis.

The AB5000 Circulatory Support System is paracorporeal pulsatile ventricular assist device. The AB Portable Driver is a portable console for this system. We experienced two cases with accelerated hemolysis while receiving support by the AB Portable Driver. The purpose of this study was to clarify the mechanical differences associated with the hemolysis between the AB5000 console and the AB Portable Driver. The mock circulatory system modeled by an AB5000 ventricle and a blood sampling bag of vinyl chloride was run with an AB5000 console or AB Portable Driver. The peak drive-line pressure, the mean arterial cannula pressure and the pumping rate of the VAD were recorded. The AB5000 console generated a peak drive-line pressure of 280-300 mm Hg in LVAD mode and 210-220 mm Hg in RVAD mode, approximately 100 mm Hg lower than officially documented. In contrast, the AB Portable Driver generated pressures of 310-330 mm Hg in LVAD mode and 230-250 mm Hg in RVAD mode, 65-95 mm Hg higher than officially documented. The AB Portable Driver console generates higher drive-line pressures than the AB5000 console, possibly explaining the accelerated hemolysis.

Intermittent distal perfusion shortens hypothermic circulatory arrest time in aortic arch replacement surgery.

The procedure and efficacy of the intermittent distal perfusion during hypothermic circulatory arrest in total arch replacement was described. During hypothermic circulatory arrest, elephant trunk was fixed inside the descending aorta. Then, the AP Grid Catheter was inserted through the elephant trunk, and blood perfusion at a flow rate of 500 ml/min for 5 min was installed. After the perfusion, distal anastomosis was completed. Clinical results of 23 patients (Group I) with this technique were compared with these of 21 patients without the procedure (Group II). Continuous hypothermic circulatory arrest time was significantly shorter (32.7 vs. 72.7 min; p < 0.05) and postoperative serum creatinine level was significantly lower (1.29 vs. 1.68; p < 0.05) in Group I than Group II. The incidence of abdominal complication was also fewer in Group I. Intermittent distal perfusion shortens hypothermic circulatory arrest time and is protective for the lower body including kidneys.