The effect of endograft device on patient outcomes in endovascular repair of ruptured abdominal aortic aneurysms.

Kansal V ，Nagpal S ，Jetty P 《-》

Endograft type and anesthesia mode are associated with mortality of endovascular aneurysm repair for ruptured abdominal aortic aneurysms.

Bellamkonda KS ，Yousef S ，Zhang Y ，Dardik A ，Geirsson A ，Chaar CIO ... -  《-》

Results of standard suprarenal fixation endografts for abdominal aortic aneurysms with neck length ≤10 mm in high-risk patients unfit for open repair and fenestrated endograft.

The aim of this study was to evaluate long-term outcomes of endovascular aneurysm repair (EVAR) using a standard suprarenal fixation endograft in abdominal aortic aneurysms (AAAs) with infrarenal neck length ≤10 mm (short-neck AAA [SN-AAA]). From 2005 to 2010, data of high-risk patients with SN-AAA, unfit for open repair (OR) and fenestrated EVAR, were prospectively collected. Follow-up was performed by duplex ultrasound and contrast-enhanced ultrasound or computed tomography angiography at 1 month, 6 months, and 12 months and yearly thereafter. The primary end point was AAA-related mortality. Secondary end points were proximal type I endoleak, freedom from reintervention, and AAA shrinkage (>5 mm). Sixty patients (mean age, 74.9 ± 6.2 years; American Society of Anesthesiologists class 3 [85%] and class 4 [15%]) were enrolled. The mean aneurysm diameter and neck length and diameter were 60.4 ± 12.2 mm, 8.4 ± 1.6 mm, and 23.5 ± 3 mm, respectively. Four (7%) patients were symptomatic and 15 (25%) had rapid AAA enlargement (>5 mm/6 months). Cook Zenith Flex (Cook Medical, Bloomington, Ind) endografts (32) and Medtronic Endurant (Medtronic, Santa Rosa, Calif) endografts (28) were implanted. The mean follow-up was 51 ± 18 months. Survival at 5 years was 70%. There were three (5%) type I endoleaks. One was sealed by endovascular reintervention, and two (3%) underwent conversion to OR for AAA rupture at 8 and 36 months. Both patients died (2/60; 3% AAA-related mortality). Reinterventions were necessary for another five (8%) patients, and they were not proximal neck related. Freedom from reintervention at 5 years was 90%. In 49 (82%) cases, there was AAA shrinkage; the AAA diameter remained stable in nine (15%) and increased in two (3%) cases. Severe proximal angle (α neck angle ≥60 degrees) was associated with type I endoleak (P = .010) and reinterventions (P = .010). The neck length <7 mm (P = .030) was associated with reinterventions (P = .017). Suprarenal fixation EVAR in SN-AAA with a straight, not wide neck and 7- to 10-mm aortic neck length can be considered safe and effective in patients who are unfit for OR and fenestrated EVAR. For these cases, long-term data showed acceptable results in preventing aneurysm rupture and related mortality.

Gallitto E ，Gargiulo M ，Freyrie A ，Bianchini Massoni C ，Pini R ，Mascoli C ，Faggioli G ，Stella A ... -  《-》

Variability in aneurysm sac regression after endovascular aneurysm repair based on a comprehensive registry of patients in Eastern Ontario.

Although the absence of aneurysm-related mortality, postimplantation rupture, and reintervention after endovascular aneurysm repair (EVAR) is desirable, it may not necessarily reflect successful aneurysm sac exclusion. Sac regression may be a more sensitive marker for EVAR success and may be influenced by factors beyond the presence or absence of an endoleak. The objective of this study is to determine the rate of overall long-term sac regression after EVAR and the influence of nonanatomic factors, and endograft devices used at our center. This retrospective cohort study included all EVARs performed for intact and ruptured abdominal aortic aneurysms (AAAs) at a university teaching hospital. Preoperative, operative, and follow-up data were collected using clinical and radiologic institutional databases. Preoperative and post-EVAR sac diameters were determined by a blinded observer in accordance with Society for Vascular Surgery guidelines. Absolute and relative sac regression was determined at the following intervals: 0 to 6 months, 6 to 12 months, 12 to 18 months, 18 months to 2 years, 2 to 5 years, 5 to 10 years, and more than 10 years. From 1999 to 2015, 1060 patients underwent EVAR for an AAA at the Ottawa Hospital. Procedures were performed using a total of nine unique endograft devices, with five devices (Cook Zenith, n = 398; Medtronic Endurant, n = 375; Medtronic Talent, n = 183; Cook Zenith LP, n = 52; and Terumo Anaconda, n = 23) used in 97% of the procedures. The mean preoperative AAA diameter was 61.2 mm, with no detectable differences between endograft devices with respect to age, preoperative AAA diameter, or rupture diagnosis. Overall mean sac regression increased from -1.3 mm at 6 months, to -14.9 mm beyond 10 years. The majority of sac regression was achieved within 2 years. Only 90 of the 1060 patients (8.5%) experienced sac expansion of greater than 5 mm at some point during their follow-up period. Kaplan-Meier analyses revealed statistically significant device-specific variability in sac regression rates, even in the absence of an endoleak. Cox proportional hazard modeling demonstrated that age less than 75 years (hazard ratio [HR], 1.4; P = .001), female sex (HR, 1.4; P = .003), absence of type I endoleak (HR, 4.6; P < .0001), AAA greater than 70 mm (HR, 1.6; P < .0001), and both the Zenith (HR, 2.0; P < .0001) and Endurant (HR, 1.7; P = .001) devices were associated with shorter time to more than 5 mm sac regression. This study demonstrated a pattern of sac diameter change after EVAR, with the majority of sac regression occurring within the first 2 years. Variability in sac regression was influenced by nonanatomic variables including age, sex, original AAA diameter, and specific endograft device, even after controlling for the presence or absence of an endoleak. The biophysical relationship between specific endograft design and materials, and sac regression is yet to be determined.

Jetty P ，Husereau D ，Kansal V ，Zhang T ，Nagpal S ... -  《-》

Prior endovascular abdominal aortic aneurysm repair provides no survival benefits when the aneurysm ruptures.

It has been proposed that prior endovascular abdominal aortic aneurysm (AAA) repair (EVAR) confers protective effects in the setting of ruptured AAA (rAAA). This study was conducted to compare outcomes of rAAA repairs in patients with and without prior EVAR. A retrospective review identified 18 patients with (group 1) and 233 patients without (group 2) antecedent EVAR who presented with rAAA from January 2001 to December 2008. Patient characteristics and perioperative variables were noted and the outcomes were compared. Multiple logistic regression was used to identify factors contributing to morbidity and mortality and Kaplan-Meier analyses to estimate late survival rates. Baseline characteristics were similar between groups. Mean age was 78 years in group 1 and 74.8 years in group 2 (P=.17). Men comprised 83.3% of patients in group 1 and 77.3% in group 2 (P=.77). Hemodynamic instability at rAAA was noted with similar frequency between groups, 55.6% vs 52.6%, respectively (P=.99). Mean time from EVAR to rAAA was 4.0 years and from last follow-up computed tomography (CT) 1.2 years. The devices involved were Ancure (Guidant, Menlo Park, Calif) (9), AneuRx (Medtronic, Minneapolis, Minn) (5), Zenith (Cook Medical Inc, Bloomington, Ind) (3), and Excluder (W.L Gore, Flagstaff, Ariz) (1). Mean preoperative AAA size was 6.4 cm in group 1. All but 1 patient had an endoleak at the time of rupture. Of 14 patients with CT follow-up, only 3 patients had a known increase in size (≥5 mm) and only 3 were known to have an endoleak. Fifteen patients were treated by a single intervention, whereas 3 patients underwent multiple procedures. In group 2, open repair was performed in 218 patients and EVAR in 15. Morbidity (66.7% vs 56.7%) and in-hospital mortality (38.9% vs 36.9%) were nearly identical between groups. One-year survival rates (27.8% vs 48.2%; P=.15) were also similar. The mortality rates for EVAR for primary rAAA was 20% as compared to 38.1% for open repair for rAAAs (P=.27). rAAA remains a lethal problem in patients with and without prior EVAR alike. An existing endograft provides neither acute nor 1-year survival benefits after rAAA repairs. Prediction of patients at risk for rupture post-EVAR is difficult, as only a minority of patients had a known prior endoleak or sac enlargement.

Cho JS ，Park T ，Kim JY ，Chaer RA ，Rhee RY ，Makaroun MS ... -  《-》