Nellix 覆膜支架腔内修复术治疗腹主动脉瘤后动脉瘤生长。
Aneurysm Growth After Endovascular Sealing of Abdominal Aortic Aneurysms (EVAS) with the Nellix Endoprosthesis.
机构信息
Institute of Translational Medicine, University of Liverpool, UK.
Institute of Translational Medicine, University of Liverpool, UK; Department of Radiology, Royal Liverpool & Broadgreen University Hospital, UK; School of Physical Sciences, University of Liverpool, UK; Liverpool Cardiovascular Service, Liverpool, UK.
出版信息
Eur J Vasc Endovasc Surg. 2020 Nov;60(5):671-676. doi: 10.1016/j.ejvs.2020.07.013. Epub 2020 Aug 15.
OBJECTIVE
The aim of this study was to measure the incidence of post endovascular aneurysm sealing (EVAS) abdominal aortic aneurysm (AAA) growth, and its association with stent migration, in a cohort of patients with differing compliance to old and new Instructions For Use (IFU).
METHODS
A retrospective single centre study was conducted to review the computed tomography (CT) and clinical data of elective, infrarenal EVAS cases, performed as a primary intervention, between December 2013 and March 2018. All included patients had a baseline post-operative CT scan at one month and at least one year follow up. The primary outcome measure was the incidence of AAA growth and its association with stent migration. AAA growth was defined as a ≥5% increase in aortic volume between the lowermost renal artery and the aortic bifurcation post EVAS at any time during follow up, in comparison to the baseline CT scan. Migration was defined according to the ESVS guidelines, as > 10 mm downward movement of either Nellix stent frame in the proximal zone.
RESULTS
Seventy-six patients were eligible for inclusion in the study (mean age 76 ± 7.4 years; 58 men). AAA growth was identified in 50 of 76 patients (66%); adherence to IFU did not affect its incidence (mean growth within IFU-2016 compliant cohort vs. non-compliant: 16% vs. 13%, p = .33). Over time, the incidence of AAA growth increased, from 32% at one year to 100% at four years. AAA growth by volume was progressive (p < .001), as its extent increased over time. Migration was detected in 16 patients and there was a statistically significant association with AAA growth (13 patients displayed migration and AAA growth, p = .036).
CONCLUSION
Patients treated with EVAS are prone to AAA growth, irrespective of whether their aortic anatomy is IFU compliant. AAA growth by volume is associated with stent migration. Clinicians should continue close surveillance post EVAS, regardless of whether patients are treated within IFU.
目的
本研究旨在测量血管内治疗后腹主动脉瘤(AAA)生长的发生率,并评估其与支架迁移的相关性,该研究纳入了一组对新旧使用说明(IFU)遵从性不同的患者。
方法
回顾性分析 2013 年 12 月至 2018 年 3 月期间行择期血管内治疗腹主动脉瘤术的患者的计算机断层扫描(CT)和临床数据。所有纳入的患者在术后一个月和至少一年的随访时均进行了基线术后 CT 扫描。主要结局指标是 AAA 生长的发生率及其与支架迁移的相关性。AAA 生长定义为血管内治疗后任何时间在肾动脉最下段和主动脉分叉之间的主动脉容积较基线 CT 扫描增加≥5%。支架迁移根据 ESVS 指南定义为近端Nellix 支架框架向下移动>10mm。
结果
76 例患者符合纳入标准(平均年龄 76±7.4 岁;58 例男性)。50 例(66%)患者存在 AAA 生长,IFU 遵从性并未影响其发生率(IFU-2016 组与非遵从组的平均增长率分别为 16%和 13%,p=0.33)。随着时间的推移,AAA 生长的发生率逐渐增加,从一年时的 32%增加到四年时的 100%。AAA 生长的体积是渐进的(p<0.001),其程度随时间推移而增加。16 例患者发现支架迁移,与 AAA 生长存在统计学显著相关性(13 例患者同时存在支架迁移和 AAA 生长,p=0.036)。
结论
接受血管内治疗的患者容易发生 AAA 生长,无论其主动脉解剖是否符合 IFU。AAA 生长的体积与支架迁移相关。无论患者是否符合 IFU,血管内治疗后均应密切监测。
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