Delayed open conversions after endovascular abdominal aortic aneurysm repair.

Secondary interventions after endovascular aneurysm repair (EVAR) remain a concern. Most are simple catheter-based procedures, but in some instances, open conversions (OCs) are required and carry a worse outcome. We reviewed our experience to characterize these OCs. A retrospective review was conducted of all patients who underwent an OC after a previous EVAR for an aneurysm-related indication from 2001 to 2010. Clinical outcomes are reported. Data were reviewed for 44 patients (77% men) with a mean age of 74 years (range, 55-90 years). The average time from EVAR to the first OC was 45 months (range, 2-190 months). In six patients (14%), the initial EVAR was at another institution. The endografts used were Ancure in 16, Excluder in 13, AneuRx in eight, Zenith in three, Lifepath in one, Renu in one, and undetermined in two. Twenty-two patients had previously undergone a total of 32 endovascular reinterventions before their index OC. Indications for OC were aneurysm expansion in 28 (64%), rupture in 12 (27%), and infection in four (9%). The endograft was preserved in situ in 10 patients (23%). Explantation was partial in 18 (41%) or complete in 16 (36%). Endograft preservation was used for type II endoleak in all but one patient by selective ligation of the culprit arteries (lumbar in four, inferior mesenteric artery in five, and middle sacral in one). Proximal neck banding was performed in one type Ia endoleak. Overall morbidity was 55%, and mortality was 18%. No deaths occurred in a subgroup of patients who underwent endograft preservation with selective ligation of culprit vessels for type II endoleak. Intraoperative complications included bowel injury in two, bleeding in two, splenectomy in one, and ureteral injury in one. At a mean follow-up of 20 months, two patients underwent additional procedures after the index OC: one after endograft preservation and one after partial explantation. None of the patients who underwent elective OC with endograft preservation required subsequent endograft explantation. Most OCs after EVAR are associated with significant morbidity and mortality, except when electively treating an isolated type II endoleak with ligation of branches and preservation of the endograft.

Chaar CI ，Eid R ，Park T ，Rhee RY ，Abu-Hamad G ，Tzeng E ，Makaroun MS ，Cho JS ... -  《-》

Late open conversion and explantation of abdominal aortic stent grafts.

To evaluate indications for, operative strategy during, and outcomes following late open surgical conversion following endovascular aneurysm repair (EVAR). Between 2002 and 2009, patients undergoing open abdominal aortic aneurysm repair at a university hospital were entered prospectively into a database which was examined to identify patients undergoing open conversion >30 days after EVAR. Over 7 years, 21 patients required late open conversion of EVAR. The average patient age was 75 years (range, 59-88), and there were 16 male (76%) patients. The mean interval to conversion was 33.4 months (range, 2-73). Eight patients (38%) presented with proximal type I endoleak; 4 patients (19%) presented with type II endoleak and aneurysm expansion; 5 patients (24%) presented with graft migration and aneurysm expansion; and 5 patients (24%) presented with de novo visceral aneurysms. Rupture (1) and infection (1) were also observed. There were five (24%) emergent cases. Most patients (12/21, 57%) had more than one reason for conversion. There were no perioperative deaths; three patients (14%) had major complications. Grafts requiring conversion were AneuRx (6; Medtronic AVE, Santa Rosa, Calif), Zenith (6; Cook Inc, Bloomington, Ind), Talent (3; Medtronic), Excluder (2; W. L. Gore, Flagstaff, Ariz), Anaconda (1; TERUMO Corp, Ann Arbor, Mich), Ancure (1; Guidant, Menlo Park, Calif), Quantum LP (1; Cordis Corp, Miami Lakes, Fla), and Powerlink (1; Endologix, Irvine, Calif). The surgical approach was retroperitoneal in 16 (76%) and transperitoneal in four (19%) patients. Initial proximal aortic control was supraceliac (9/21), suprarenal (7/21), or infrarenal (5/21), with stepwise distal clamping to reduce ischemic time. Complete endograft removal was performed in 17/21 patients; in 4/21 the distal anastomosis was performed to the endograft after proximal segment explantation. Reconstruction was completed with tube (19/21) or aortoiliac (2/21) grafts; in one case, homograft was used. Mean intraoperative blood loss was 1.9 L (range, 0.4-6.5 L), mean intensive care unit (ICU) stay was 3 days (range, 2-6), and the mean hospital stay was 10 days (range, 4-39). While technically challenging, delayed open conversion of EVAR can be accomplished with low morbidity and mortality in both the elective and emergent settings. These results reinforce the justification for long-term surveillance of endografts following EVAR.

Brinster CJ ，Fairman RM ，Woo EY ，Wang GJ ，Carpenter JP ，Jackson BM ... -  《-》

Late open conversion after failed endovascular aortic aneurysm repair.

Endovascular aortic aneurysm repair (EVAR) is widely used for the treatment of abdominal aortic aneurysms. Complications secondary to EVAR are also treated with endovascular techniques. When this is not applicable, open surgical repair is mandatory. This study aims to present our experience in open surgical repair after failed EVAR. Within the period from 2004 through 2013, 18 patients (17 men; mean age, 73.9 years) were operated on because of EVAR failure due to persistent type II endoleak (n = 10), type I or III endoleak (n = 3), mixed-type endoleaks (n = 2), stent graft thrombosis (n = 2), and aortoenteric fistulae (n = 1). Stent grafts used for EVAR were Zenith (n = 8), Talent (n = 4), Excluder (n = 4), and Anaconda (n = 2). Mean time interval between EVAR and open conversion was 36 months (range, 2-120 months). Fifteen (83.3%) operations were elective, and three (16.7%) were urgent due to aneurysm rupture (n = 2) and aortoenteric fistula (n = 1). Six (33.3%) patients with type II endoleak were treated with simple ligation of the culprit vessels, without aortic clamping and stent graft explantation. In six (33.3%) patients, the stent graft was partially removed except from the segment attached to the proximal neck, while in five (27.8%) patients, complete removal of the stent graft was necessary. Finally, in one patient, with type III endoleak, a hybrid endovascular and open repair was performed. Clamping of the aorta was necessary in 12 (66.7%) patients (infrarenal, n = 10 or suprarenal, n = 2). Overall operative mortality was 5.6%. Postoperative complications included one abdominal wall defect requiring surgical revision and paroxysmal atrial fibrillation both in the same patient, and one case of pulmonary infection, requiring prolonged intubation and intensive care unit stay for 6 days. Late open conversion after failed EVAR remains challenging. Avoidance of aortic cross-clamping and if possible, partial or total preservation of the stent graft may improve outcomes in terms of operative mortality and morbidity. Elective operations seem to be associated with better outcomes, prompting thus for close follow-up of EVAR patients and early decision for conversion if other options are doubtful.

Klonaris C ，Lioudaki S ，Katsargyris A ，Psathas E ，Kouvelos G ，Doulaptsis M ，Verikokos C ，Kouraklis G ... -  《-》

Outcome of elective endovascular abdominal aortic aneurysm repair in nonagenarians.

Compared with open repair of abdominal aortic aneurysms (AAA), endovascular repair (EVAR) is associated with decreased perioperative morbidity and mortality in a standard patient population. This study sought to determine if the advantage of EVAR extends to patients aged ≥90 years. This was a retrospective review from a prospectively maintained computerized database. Of the 322 patients aged ≥80 treated with EVAR from January 1997 to November 2007, 24 (1.9%) were aged ≥90. Mean age was 91.5 ± 1.5 years (range, 90-95 years), and 83.3% were men. Mean aneurysm size was 6.8 cm (range, 5.2-8.7 cm). Mean procedural blood loss was 490 mL (range, 100-4150 mL), and 20.8% required an intraoperative transfusion. Mean postoperative length of stay was 6.0 days, (median, 4 days; mode, 1 day; range, 1-42 days), with 33.3% of patients discharged on the first postoperative day. Amongst the 24 patients, there were 6 (25.0%) perioperative major adverse events, and 2 patients died, for a perioperative mortality rate of 8.3%. Mean follow-up was 20.5 months (range, 1-49 months). Overall, three patients (12.5%) required a secondary intervention, comprising thrombectomy, angioplasty, and proximal cuff extension. No patients required conversion to open repair. Two patients (8.3%) died of AAA rupture at 507 and 1254 days. Freedom from all-cause mortality was 83.3% at 1 year and 19.3% at 5 years. Freedom from aneurysm-related mortality was 87.5% at 1 year and 73.2% at 5 years. Endoleak occurred in five patients (20.8%), with three type I and two of indeterminate type; of these, two patients with type I endoleak underwent secondary intervention at 153 and 489 days after EVAR, of which one case was successful. Our study supports that EVAR in nonagenarians is associated with acceptable procedural success and perioperative morbidity and mortality. The medium-term results suggest that EVAR may be of limited benefit in very carefully selected patients who are aged ≥90 years.

Prenner SB ，Turnbull IC ，Serrao GW ，Fishman E ，Ellozy SH ，Vouyouka AG ，Marin ML ，Faries PL ... -  《-》

Graft infection after endovascular abdominal aortic aneurysm repair.

Although the natural history and management of infected open abdominal aortic aneurysm (AAA) repair is well described, only sporadic case reports have described the fate of patients with infected endografts placed in the abdominal aorta. The present study describes a tertiary referral center's experience with infected endovascular aneurysm repairs (EVARs). The medical records of 1302 open and endovascular aortic procedures were queried from January 2000 to January 2010. The cases were reviewed for prior aortic procedures, prosthetic implants, and etiology of current open procedure. Demographics, operative details, and perioperative courses were documented. Nine patients (1 woman) with a mean age of 71 years had an EVAR that later required an open procedure for explantation and surgical revision for suspected infection. All grafts were explanted through a midline transperitoneal approach, with a mean time to explant of 33 months. The explanted endografts included 4 Zenith (Cook, Bloomington, Ind), 2 Ancure (Endovascular Technologies, Menlo Park, Calif), 2 Excluders (Gore, Flagstaff, Ariz), and 1 AneuRx (Medtronic, Minneapolis, Minn). Eight of the nine original EVARs were performed at other hospitals; 1 patient had EVAR and open explant at the University of Michigan. All patients had preoperative computed tomography scans, except one who was transferred in extremis with a gastrointestinal hemorrhage. Three patients also had a tagged leukocyte scan, and two had magnetic resonance imaging to further reinforce the suspicion of infection before explantation and bypass planning. Rifampin-soaked Hemashield (Boston Scientific) in situ grafts were used in four patients, with extra-anatomic (axillary-bifemoral) bypass used in the other five. The in situ group had no positive preoperative or postoperative cultures, with the exception of the unstable patient who died the day of surgery. For the other five patients, positive tissue cultures were found for Bacteroides, Escherichia coli, coagulase-negative Staphylococcus, Streptococcus, and Candida. Three patients were found to have aortic-enteric fistula, two of whom died before discharge from the hospital. The remaining seven survived to discharge. Average length of stay was 22 days, with a median follow-up of 11 months. This series of infected EVARs is the largest group of infected AAA endografts reported to date. Because EVAR of AAAs is presently the most common method of repair, development of endograft infection, while rare, can be managed with acceptable mortality rates. Patients presenting with aortic-enteric fistula after EVAR appear to have a more virulent course.

Laser A ，Baker N ，Rectenwald J ，Eliason JL ，Criado-Pallares E ，Upchurch GR Jr ... -  《-》