Carpenter J P, Baum R A, Barker C F, Golden M A, Mitchell M E, Velazquez O C, Fairman R M
Department of Surgery, University of Pennsylvania School of Medicine, Philadelphia, USA.
J Vasc Surg. 2001 Dec;34(6):1050-4. doi: 10.1067/mva.2001.120037.
Wide-ranging predictions have been made about the usefulness of endovascular repair for patients with abdominal aortic aneurysms (AAAs). The availability of US Food and Drug Administration-approved devices has removed the restrictions on patient selection, which had been controlled by device trials. This study examined the applicability of endovascular AAA repair and identified the anatomic barriers to successful endovascular AAA repair that should guide future device development.
All patients who came to our institution for infrarenal AAA repair between April 1998 and June 2000 were offered evaluation for endovascular repair. Thin-cut spiral computed tomography scans and arteriograms were obtained on all patients, and their anatomic characteristics were prospectively entered into a database. A wide selection of available devices allowed the treatment of diverse AAA anatomic features.
A total of 307 patients were examined (264 men, 43 women). Of these, 204 patients (66%; 185 men, 19 women) underwent endovascular repair, and 103 patients (34%, 79 men, 24 women) were rejected. Reasons for exclusion included short aneurysm neck (56, 54%), inadequate access because of small iliac arteries (48, 47%), wide aneurysm neck (41, 40%), presence of bilateral common iliac aneurysms extending to the hypogastric artery (22, 21%), excessive neck angulation (14, 14%), extensive mural thrombus in the aneurysm neck (10, 10%), extreme tortuosity of the iliac arteries (10, 10%), accessory renal arteries originating from the AAA (6, 6%), malignancy discovered during the examination (5, 5%), and death during the examination interval (2, 2%). Rejected patients had an average of 1.9 exclusion criteria (range, 1 to 4). A disproportionate number of women were excluded because of anatomic findings (P = .0009). Although 80% of patients who were at low risk for surgery qualified for endovascular repair, only 49% of our patients who were at high risk for surgery were acceptable candidates (P < .001). Of the 103 patients who were excluded, 34 (33%) underwent open surgical repair, and the remaining 69 (67%) were deemed to be unfit for open surgery. Three patients (1.4%) failed endograft placement because of inadequate vascular access.
Most infrarenal AAAs (66%) can be treated with endovascular devices currently available commercially or through US Food and Drug Administration-approved clinical trials. However, patients who are at high risk for surgery and might benefit most from endovascular repair are less likely to qualify for the procedure (49%). Men (70%) are more likely than women (40%) to meet the anatomic criteria for endografting. Difficulties with vascular access and attachment site geometry predominate as reasons for exclusion. Our findings suggest that smaller profile devices, which can negotiate small and tortuous iliac arteries, are needed. Proximal and distal attachment site problems require devices that can accommodate wide and angulated attachment necks and achieve short seal zones.
关于血管内修复术对腹主动脉瘤(AAA)患者的实用性,已经做出了广泛的预测。美国食品药品监督管理局(FDA)批准的器械的可获得性消除了对患者选择的限制,此前患者选择受器械试验控制。本研究考察了血管内AAA修复术的适用性,并确定了成功进行血管内AAA修复术的解剖学障碍,这些障碍应指导未来器械的研发。
1998年4月至2000年6月期间到我院进行肾下腹主动脉瘤修复术的所有患者均接受血管内修复术评估。对所有患者进行薄层螺旋计算机断层扫描和动脉造影,并将其解剖学特征前瞻性地录入数据库。多种可用器械使得能够治疗各种不同的AAA解剖特征。
共检查了307例患者(264例男性,43例女性)。其中,204例患者(66%;185例男性,19例女性)接受了血管内修复术,103例患者(34%,79例男性,24例女性)被排除。排除原因包括动脉瘤颈部短(56例,54%)、因髂动脉细小导致入路不足(48例,47%)、动脉瘤颈部宽(41例,40%)、双侧髂总动脉瘤延伸至下腹动脉(22例,21%)、颈部角度过大(14例,1
