Impact of iliac access in elective and non-elective endovascular repair of abdominal aortic aneurysm.

Endovascular aortic repair (EVAR) is nowadays the establishment treatment for patients with abdominal aortic aneurysm (AAA) both in elective and urgent setting. Despite the large applicability and satisfactory results, the presence of hostile iliac anatomy affects both technical and clinical success. This narrative review aimed to report the impact of iliac access and related adjunctive procedures in patients undergoing EVAR in elective and non-elective setting. Hostile iliac access can be defined in presence of narrowed, tortuous, calcified, or occluded iliac arteries. These iliac characteristics can be graded by the anatomic severity grade score to quantitatively assess anatomic complexity before undergoing treatment. Literature shows that iliac hostility has an impact on device navigability, insertion and perioperative and postoperative results. Overall, it has been correlated to higher rate of access issues, representing up to 30% of the first published EVAR experience. Recent innovations with low-profile endografts have reduced large-bore sheaths related issues. However, iliac-related complications still represent an issue, and several adjunctive endovascular and surgical strategies are nowadays available to overcome these complications during EVAR. In urgent settings iliac hostility can significantly impact on particular time sensitive procedures. Moreover, in case of severe hostility patients might be written off for EVAR repair might be inapplicable, exposing to higher mortality/morbidity risk in this urgent/emergent setting. In conclusion, an accurate anatomical evaluation of iliac arteries during preoperative planning, materials availability, and skilled preparation to face iliac-related issues are crucial to address these challenges.

New Preloaded System for Renal and Visceral Arteries in Fenestrated Endografting.

AIM/BACKGROUND: The New Preloaded System (NPS) for renal/visceral arteries (TVVs) is an emerging technology in fenestrated endografting (FEVAR) that allows TVVs cannulation and stenting through the same access of the endograft main body. However, only few preliminary experiences are currently available in the literature. The aim of this study is to report the outcomes of NPS-FEVAR in juxta/para-renal (J/P-AAAs) and thoracoabdominal (TAAAs) aneurysms repair. METHODS: This is a prospective (NCT05224219), single-center/observational study of patients submitted to NPS-FEVAR for J/PAAAs and TAAAs between 2019 and 2022 (July). Definitions and outcomes were evaluated according to the current SVS-reporting standard. Technical success (TS) and TS preloaded related, spinal cord ischemia (SCI), and 30-day mortality were assessed as early endpoints. Survival, freedom from reinterventions (FFRs), and freedom from TTVs-instability (FFTVVs-instability) were analyzed during follow-up. RESULTS: Among 157 F/B-EVAR cases, 74 (47%) NPS-FEVAR were planned and enrolled in the study [48 (65%) J/P-AAAs; 26 (35%) TAAAs]. The main indication for NPS-FEVAR was the presence of a hostile iliac axis (54%-73%) or the necessity of expeditious pelvic/lower-limb reperfusion for SCI prevention in TAAAs (20%-27%). Overall, 292 TVVs were accommodated by 289 fenestrations and 3 branches; 188 of 289 (65%) fenestrations were preloaded. NPS-FEVAR configuration was from "below" and "from below to above" in 28 (38%) and 46 (62%) cases, respectively. TS and TS preloaded system-related was 96% (71/74) and 99% (73/74), respectively. Target visceral vessels patency at the completion angiography was 99% (290/292). Failures were 2 renal arteries loss and 1 massive bleeding from a percutaneous closure system breakage. The latter patient developed postoperative multiorgans failure and died on the fifth postoperative day, causing only 30-day/in-hospital mortality (1.3%). One (1.3%) patient with a JAAA and preoperative bilateral occlusion of the hypogastric arteries suffered SCI. The median follow-up was 14 (IQR: 8) months. The estimated 3-year survival was 91% with no aneurysm-related mortality during follow-up. The estimated 3-year FFR and FFTVVs-instability were 85 and 92%, respectively. CONCLUSION: New preloaded system FEVAR is a safe and effective option in the treatment of J/PAAAs and TAAAs in the presence of hostile iliac access or to guarantee an expeditious pelvic/lower limb reperfusion, leading to satisfactory results in terms of TS, early and mid-term clinical outcomes. CLINICAL IMPACT: New preloaded system for fenestrated and branched endografting allows to increase the feasibility of the advanced endovascular aortic repair in challenging iliac access, thoracoabdominal aneurysm repair and reduce difficulties in target visceral vessels cannulation.

Carotid Artery Stenting With Double-Layer Stent: A Systematic Review and Meta-Analysis.

BACKGROUND: Carotid artery stenting (CAS) in the treatment of significant stenosis is a cause of stroke due to both plaque prolapse and cerebral embolization. New types of stents with a double-layer structure have been designed to minimize plaque prolapse and embolization; these double-layer stents (DLSs) should be able to reduce the stroke risk; however, definite data on their performance are scarce in the literature. METHODS: A systematic search was performed through PubMed, Scopus, and Cochrane Library, according to PRISMA guidelines; all studies on CAS with DLS (Roadsaver/Casper or CGuard) up to January 1, 2022, with a cohort of at least 20 patients were considered eligible. The present meta-analysis was approved and registered on PROSPERO register (CRD42022297512). Patients with tandem lesions or complete carotid occlusion were excluded from the study. The 30-day stroke rate after CAS was analyzed evaluating the preoperative symptomatic status and DLS occlusion. The estimated pooled rate of events was calculated by random effect model and moderators were evaluated. RESULTS: A total of 14 studies were included in the meta-analysis for a total of 1955 patients. The estimated overall (95% confidence interval [CI]) stroke rate was 1.4% (0.9%-2.2%, I2 = 0%), which was not influenced by the type of DLS used: CGuard 0.8% (0.4%-1.8%, I2 = 0%) versus Roadsaver/Casper 1.5% (0.7%-3.2%, I2 = 0%), p=0.30. The 30-day estimated stroke rate was 1.5% (0.8%-2.9%, I2 = 0%) in asymptomatic and 1.9% (1.0%-3.6%, I2 = 0%) in symptomatic patients, with no influence by moderators. The 30-day DLS occlusion rate was 0.8% (0.4%-1.8%, I2 = 0%). The publication bias assessment identified asymmetry in the asymptomatic populations. CONCLUSION: The overall 30-day stroke rate in CAS with DLS is low (1.4%), with similar results in symptomatic and asymptomatic patients. Acute occlusion of DLS is rare (0.8%). Further studies are necessary to reduce the publication bias for asymptomatic patients. CLINICAL IMPACT: CAS with DLS is associated to a low rate of 30-day stroke in both symptomatic (1.9%) and asymptomatic (1.5%) patients. The type of DLS (CGuard or Roadsaver/Casper) did not affect the 30-day stroke rate.