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ide a feasible option in elderly and patients with elevated perioperative risk. However, the discussed PER collective showed more postoperative short-term complications with regard to 30-day all-cause mortality and cerebrovascular events, whereas the NEO showed higher rates of PVL.

 Third-generation transcatheter heart valves (THV) are predominantly implanted through a percutaneous, transfemoral access. To reduce vascular complications, we selectively performed surgical vascular access (cutdown) in patients with particular calcified or small femoral arteries. We aim to review our experience with this approach.

 All patients who underwent transfemoral transcatheter aortic valve replacement (TAVR) with a third-generation THV at our institution between March 2014 and April 2019 were included in the study. All available computerized tomography studies were reassessed for access vessel diameter and visual graduation of calcifications. Vascular complications are reported according to Valve Academic Research Consortium-2 criteria.

 A total of 944 patients were included. Among them, 879 patients underwent a percutaneous access and 65 patients underwent surgical cutdown. Also, 459 Evolut R/PRO and 420 Sapien 3/ultra were implanted percutaneously and 40 Evolut R/PRO and 25 Sapien 3 were implanted with a surgical cutdown. Patients with surgical cutdown were older (80.0 ± 7.5 vs. 83.8 ± 7.5 years,

 < 0.001), had smaller femoral arteries (8.0 ± 1.6 vs. 7.6 ± 1.6 mm,

 = 0.034) and more severe vessel calcifications (17.5 vs. 1.0%,

 < 0.001). Procedure time was similar for cutdown and percutaneous access (64.0 vs. 64.5 minutes,

 = 0.879). With percutaneous access, 80 major vascular complications (10%) occurred, whereas with surgical cutdown, no major vascular complications occurred (

 < 0.005). No wound infection occurred after surgical cutdown. The mean length of stay was 8 days in both groups.

 Surgical cutdown for vascular access avoids vascular complications in patients with small or severely calcified femoral arteries.

 Surgical cutdown for vascular access avoids vascular complications in patients with small or severely calcified femoral arteries.This Yale Aortic Institute lecture provides "tips and pitfalls" regarding echocardiographic assessment of the aorta.

 In blunt trauma patients, injury of the thoracic aorta is the second most common cause of death after head injury. In recent years, thoracic endovascular aortic repair (TEVAR) has largely replaced open repair as the primary treatment modality, and delayed repair of stable aortic injuries has been shown to improve mortality. In light of these major advancements, we present a 10-year institutional experience from a tertiary cardiovascular surgery center.

 Records of patients who underwent endovascular or open repair of the ascending, arch or descending thoracic aorta between January 2009 and December 2018 were retrospectively analyzed. Patients without blunt traumatic etiology were excluded. Perioperative data were retrospectively collected from patient charts. Long-term follow-up was performed via data from follow-up visits and phone calls.

 A total of 1,667 patients underwent 1,740 thoracic aortic procedures (172 TEVAR and 1,568 open repair). There were 13 patients (12 males) with a diagnosis of blunt thoracic aortic injury. Mean patient age was 43.6 years (range, 16-80 years). Ten (77%) patients underwent TEVAR, two (15.4%) underwent open repair, and one (7.7%) was treated nonoperatively. Procedure-related stroke was observed in one (7.7%) case. Procedure-related paraplegia did not occur in any patients. Left subclavian artery origin was covered in seven patients. None developed arm ischemia. IMT1B mouse Hospital survivors were followed-up for an average of 60.2 months (range, 4-115 months) without any late mortality, endoleak, stent migration, arm ischemia, or reintervention.

 Blunt thoracic aortic injury is a rare but highly fatal condition. TEVAR offers good early and midterm results. Left subclavian artery coverage can be performed without major complications.

 Blunt thoracic aortic injury is a rare but highly fatal condition. TEVAR offers good early and midterm results. Left subclavian artery coverage can be performed without major complications.The article presents an unusual cause of sepsis happening several weeks after heart transplant (infected iliofemoral junction false aneurysm) requiring iliofemoral reconstruction with arterial homograft by both retroperitoneal and inguinal approaches combined with Sartorius myoplasty.We describe a patient with contained aortic rupture due to perforation from a protruding lumbar osteophyte, who was treated by open surgery. This case underlines that less common aortic pathologies are possible, which require a high suspicion index to be diagnosed.We report the case of a 12-year-old girl with balanced double aortic arch with coarctation of the aorta presenting with symptoms of respiratory and swallowing difficulty. On investigation, the patient had a double aortic arch with coarctation and clinically nonsignificant disease in the infrarenal aorta. Division of the nondominant aortic arch was done through a left thoracotomy, along with resection of the coarctation segment and placement of an interposition Dacron tube graft.Giant aortoiliac aneurysm is a rare nosological entity. Owing to the increased diameter, the risk of rupture is extremely high and, similarly, the repair is extremely challenging. In this article, open surgical repair of a ruptured giant aortoiliac aneurysm in a 72-year-old male is described. A bifurcated Dacron graft was used with left internal iliac artery revascularization, while the contralateral internal iliac artery was ligated. The patient had an uneventful recovery.A 68-year-old man who had undergone descending thoracic aortic replacement was referred to our hospital with a thoracoabdominal aortic aneurysm. During the original surgery, the Adamkiewicz artery was directly reconstructed. However, multidetector row computed tomography showed occlusion of the reconstructed artery at its orifice, with supply by a collateral vessel from the left lateral thoracic artery. With careful incision to avoid damage to the collateral vessel, no postoperative neurological deficit was observed.