Normal view MARC view ISBD view

Management of difficult access during EVAR.

MedStar author(s):

0890-5096

Name of journal: Annals of vascular surgeryAbstract: CONCLUSIONS: EVAR can be successfully performed in patients with bilateral small iliac arteries. Adjunctive procedures might increase the technical success rate of EVAR in these patients, and should definitely be considered in patients with iliac arteries less than 5mm in diameter. Next generation and "low-profile" devices might minimize the need for adjunctive procedures and facilitate EVAR in these patients.Copyright � 2017. Published by Elsevier Inc.METHODS: Data from all patients undergoing EVAR at a tertiary academic medical center between 2009 and 2013 was collected retrospectively, including demographics, size of iliac arteries, type of device used, approach to managing difficult access, and outcomes. The median follow-up was 38 months. Difficult access (DA) was defined as iliac arteries with a diameter of less than 7mm bilaterally. Fenestrated and snorkel repairs were excluded.OBJECTIVES: To describe a large single institutional experience in managing challenging access situations during endovascular aneurysm repair (EVAR).RESULTS: Out of 400 EVARs performed during the study period, 191 (48%) were done in patients with DA. Of the DA patients, 35 (18.3%) underwent 42 adjuncts prior to introduction of the main body device: including 15 dilators, 11 balloon angioplasties, 9 Aortouniiliac (AUI) devices, 3 SoloPath sheaths, 1 retroperitoneal cutdown and 3 iliac stents. In another 29 patients, iliac stents were used to correct stenoses or kinks in the limbs after EVAR devices were deployed. The average diameter of the iliac artery used to deliver main body component was 4.6mm in the group of patients requiring adjuncts and 5.4mm in the remainder of the patients with small iliac arteries (p=.008). The median size of the main body device was 28mm. Two cases were aborted due to inability to deliver the device. Other complications included 7 (3.6%) iliac ruptures, 3(1.6%) instances of limb ischemia, and 5 (2.6%) patients needed early reoperation (within 30 days). Two patients (1%) had type I endoleaks at the conclusion of EVAR. During follow-up, 12 (6.3%) of patients required EVAR revisions. Seven patients (3.6%) had limb thrombosis which occurred only in patients who did not have adjective procedures during the initial EVAR. Limb thrombosis and rate of revisions in patients with DA were not significantly different from the rates observed in non-DA patients. Perioperative mortality after elective repairs was 1.6% in DA patients and 0% in non-DA patients (p=0.12).All authors: Baig A, Carpenter JP, Etkin Y, Fairman RM, Foley PJ, Jackson BM, Wang GJ, Woo EYFiscal year: FY2017Digital Object Identifier:

https://dx.doi.org/10.1016/j.avsg.2017.03.190

Date added to catalog: 2017-05-24

Holdings ( 1 )
Title notes ( 7 )

Holdings
Item type	Current library	Collection	Call number	Status	Date due	Barcode
Journal Article	MedStar Authors Catalog	Article	28479422	Available		28479422

Available online from MWHC library: 1995 - present, Available in print through MWHC library:1999-2007

CONCLUSIONS: EVAR can be successfully performed in patients with bilateral small iliac arteries. Adjunctive procedures might increase the technical success rate of EVAR in these patients, and should definitely be considered in patients with iliac arteries less than 5mm in diameter. Next generation and "low-profile" devices might minimize the need for adjunctive procedures and facilitate EVAR in these patients.

METHODS: Data from all patients undergoing EVAR at a tertiary academic medical center between 2009 and 2013 was collected retrospectively, including demographics, size of iliac arteries, type of device used, approach to managing difficult access, and outcomes. The median follow-up was 38 months. Difficult access (DA) was defined as iliac arteries with a diameter of less than 7mm bilaterally. Fenestrated and snorkel repairs were excluded.

OBJECTIVES: To describe a large single institutional experience in managing challenging access situations during endovascular aneurysm repair (EVAR).

RESULTS: Out of 400 EVARs performed during the study period, 191 (48%) were done in patients with DA. Of the DA patients, 35 (18.3%) underwent 42 adjuncts prior to introduction of the main body device: including 15 dilators, 11 balloon angioplasties, 9 Aortouniiliac (AUI) devices, 3 SoloPath sheaths, 1 retroperitoneal cutdown and 3 iliac stents. In another 29 patients, iliac stents were used to correct stenoses or kinks in the limbs after EVAR devices were deployed. The average diameter of the iliac artery used to deliver main body component was 4.6mm in the group of patients requiring adjuncts and 5.4mm in the remainder of the patients with small iliac arteries (p=.008). The median size of the main body device was 28mm. Two cases were aborted due to inability to deliver the device. Other complications included 7 (3.6%) iliac ruptures, 3(1.6%) instances of limb ischemia, and 5 (2.6%) patients needed early reoperation (within 30 days). Two patients (1%) had type I endoleaks at the conclusion of EVAR. During follow-up, 12 (6.3%) of patients required EVAR revisions. Seven patients (3.6%) had limb thrombosis which occurred only in patients who did not have adjective procedures during the initial EVAR. Limb thrombosis and rate of revisions in patients with DA were not significantly different from the rates observed in non-DA patients. Perioperative mortality after elective repairs was 1.6% in DA patients and 0% in non-DA patients (p=0.12).

English