Division of Vascular and Endovascular Surgery, Department of Surgery, University of Texas Southwestern Medical Center, Dallas, TX.
Division of Vascular and Endovascular Surgery, Department of Surgery, University of Texas Southwestern Medical Center, Dallas, TX.
J Vasc Surg. 2024 Jul;80(1):45-52. doi: 10.1016/j.jvs.2024.02.001. Epub 2024 Feb 7.
Adverse iliofemoral anatomy may preclude complex endovascular aortic aneurysm repair (EVAR). In our practice, staged iliofemoral endoconduits (ECs) are planned prior to complex EVAR to improve vascular access and decrease operative time while allowing the stented vessel to heal. This study describes the long-term results of iliofemoral ECs prior to complex EVAR.
Between 2012 and 2023, 59 patients (44% male; median age, 75 ± 6 years) underwent ECs before complex EVAR using self-expanding covered stents (Viabahn). For common femoral artery (CFA) disease, ECs were delivered percutaneously from contralateral femoral access and extended into the CFA to preserve the future access site for stent graft delivery. Internal iliac artery patency was maintained when feasible. During complex EVAR, the EC extended into the CFA was directly accessed and sequentially dilated until it could accommodate the endograft. Technical success was defined as successful access, closure, and delivery of the endograft during complex EVAR. Endpoints were vascular injury or EC disruption, secondary interventions, and EC patency.
Unilateral EC was performed in 45 patients (76%). ECs were extended into the CFA in 21 patients (35%). Median diameters of the native common iliac, external iliac, and CFA were 7 mm (interquartile range [IQR], 6-8 mm), 6 mm (IQR, 5-7 mm), and 6 mm (IQR, 6-7 mm), respectively. Internal iliac artery was inadvertently excluded in 10 patients (17%). Six patients (10%) had an intraoperative vascular injury during the EC procedure, and six patients (10%) had EC disruption during complex EVAR, including five EC collapses requiring re-stenting and one EC fracture requiring open cut-down and reconstruction with patch angioplasty. In 23 patients (39%), 22 Fr OD devices were used; 20 Fr were used in 22 patients (37%), and 18 Fr in 14 patients (24%). Technical success for accessing EC was 89%. There was no difference in major adverse events at 30 days between the iliac ECs and iliofemoral ECs. Primary patency by Kaplan-Meier estimates at 1, 3, and 5 years were 97.5%, 89%, and 82%, respectively. There was no difference in primary patency between iliac and iliofemoral ECs. Six secondary interventions (10%) were required. The mean follow-up was 34 ± 27 months; no limb loss or amputations occurred during the follow-up.
ECs improve vascular access, and their use prior to complex EVAR is associated with low rates of vascular injury, high technical success, and optimal long-term patency. Complex EVAR procedures can be performed percutaneously by accessing the EC directly under ultrasound guidance and using sequential dilation to avoid EC disruption.
髂股部解剖结构不良可能会妨碍复杂的血管内腹主动脉瘤修复(EVAR)。在我们的实践中,在进行复杂的 EVAR 之前,计划分期进行髂股内血管内导管(EC),以改善血管通路,减少手术时间,同时允许支架血管愈合。本研究描述了在进行复杂的 EVAR 之前,髂股 EC 的长期结果。
在 2012 年至 2023 年期间,59 名患者(44%为男性;中位年龄 75±6 岁)接受了使用自膨式覆膜支架(Viabahn)进行的复杂 EVAR 前的 EC。对于股总动脉(CFA)疾病,EC 通过对侧股动脉经皮输送,并延伸至 CFA 以保留未来支架移植物输送的入路。在可行的情况下,维持髂内动脉通畅。在进行复杂的 EVAR 期间,直接进入并逐步扩张延伸至 CFA 的 EC,直到它可以容纳移植物。技术成功定义为在复杂的 EVAR 期间成功进入、关闭和输送移植物。终点是血管损伤或 EC 破裂、二次干预和 EC 通畅。
45 名患者(76%)单侧进行了 EC。21 名患者(35%)EC 延伸至 CFA。原生的髂总、髂外和 CFA 的中位直径分别为 7mm(四分位距[IQR],6-8mm)、6mm(IQR,5-7mm)和 6mm(IQR,6-7mm)。10 名患者(17%)无意中排除了髂内动脉。6 名患者(10%)在 EC 手术过程中发生术中血管损伤,6 名患者(10%)在复杂的 EVAR 期间发生 EC 破裂,包括 5 例 EC 塌陷需要再次支架置入和 1 例 EC 骨折需要开放切开和用补片血管成形术重建。在 23 名患者(39%)中使用了 22Fr OD 设备;22Fr 用于 22 名患者(37%),18Fr 用于 14 名患者(24%)。EC 入路的技术成功率为 89%。在 30 天的主要不良事件方面,髂股 EC 与髂股 EC 之间没有差异。Kaplan-Meier 估计的 1、3 和 5 年的主要通畅率分别为 97.5%、89%和 82%。髂股 EC 和髂股 EC 的主要通畅率没有差异。需要进行 6 次二次干预(10%)。平均随访时间为 34±27 个月;在随访期间没有发生肢体丧失或截肢。
EC 改善了血管通路,在进行复杂的 EVAR 之前使用 EC 与较低的血管损伤率、较高的技术成功率和最佳的长期通畅率相关。通过在超声引导下直接进入 EC 并使用序贯扩张来避免 EC 破裂,可经皮进行复杂的 EVAR 手术。
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