Division of Vascular Surgery, Department of Surgery, Nagoya University Graduate School of Medicine, Nagoya, Japan.
Division of Vascular Surgery, Department of Surgery, Nagoya University Graduate School of Medicine, Nagoya, Japan.
J Vasc Surg. 2021 May;73(5):1557-1565.e1. doi: 10.1016/j.jvs.2020.09.026. Epub 2020 Oct 14.
Similar to open surgical repair, thoracic endovascular aortic repair (TEVAR) carries a risk of spinal cord ischemia (SCI). However, the generally lower incidence of SCI after TEVAR compared with that after open surgical repair, despite the inability to preserve the intercostal arteries, indicates different pathophysiologic mechanisms with the two procedures. We hypothesized that a microembolism from an aortic mural thrombus is the main cause of SCI. Thus, we evaluated the association between the density of a mural thrombus in the descending thoracic aorta and the development of SCI.
A retrospective review of a prospectively assembled database was performed for all patients who had undergone surgery at a single institution from October 2008 to December 2018. Patient demographics and procedure-related variables were collected. The volume and Hounsfield unit (HU) value of mural thrombi in the whole descending thoracic aorta were estimated on preoperative computed tomography using a three-dimensional workstation. Logistic regression analysis was performed to identify the risk factors for SCI development.
Of the 367 patients who had undergone TEVAR during the study period, 155 were excluded because of previous arch surgery (n = 59), previous descending thoracic aortic surgery (n = 6), previous TEVAR (n = 6), unavailability of optimal preoperative computed tomography data (n = 17), double-barreled dissection (n = 40), and other reasons. The mean ± standard deviation age of the remaining 212 patients was 75.8 ± 6.4 years, and 42 (19.8%) were women. Of the 212 patients, 14 (6.6%) developed SCI after TEVAR. The low mean density of the mural thrombus, total thrombus volume, low-density (≥-100 HU but <30 HU) thrombus volume, intermediate-density (≥30 HU but <150 HU) thrombus volume, treatment length, urgent surgery, and baseline dialysis differed significantly between patients with and without SCI. Although subsequent multivariate analysis could not be performed owing to the small number of SCI events, vulnerable low-density thrombus/plaque was a stronger predictor among the aneurysm-related factors of SCI after TEVAR on univariate analysis. Well-known risk factors, such as distal coverage between T8 and L1, left subclavian artery coverage, previous abdominal aortic surgery, and prophylactic spinal drainage, did not show significant differences.
The results from the present study have demonstrated that among aneurysm-related factors, a lower density mural thrombus/plaque in the descending thoracic aorta is a predictor of SCI development after TEVAR. These results suggest that microembolism is one of the important mechanisms of SCI after TEVAR, which might change the prophylactic strategy.
与开放式外科修复类似,胸主动脉腔内修复术(TEVAR)也存在脊髓缺血(SCI)的风险。然而,尽管无法保留肋间动脉,但 TEVAR 后 SCI 的发生率通常低于开放式外科修复,这表明两种手术的病理生理机制不同。我们假设主动脉壁血栓形成的微栓塞是 SCI 的主要原因。因此,我们评估了降主动脉壁血栓形成的密度与 SCI 发展之间的关系。
对 2008 年 10 月至 2018 年 12 月在一家机构接受手术的所有患者进行前瞻性数据库的回顾性分析。收集患者的人口统计学和手术相关变量。使用三维工作站,在术前 CT 上估计整个降主动脉壁血栓的体积和亨斯菲尔德单位(HU)值。使用 logistic 回归分析确定 SCI 发展的危险因素。
在研究期间接受 TEVAR 的 367 例患者中,有 155 例因既往弓部手术(n=59)、既往降主动脉手术(n=6)、既往 TEVAR(n=6)、术前 CT 数据不理想(n=17)、双筒夹层(n=40)和其他原因而被排除在外。剩余 212 例患者的平均年龄±标准差为 75.8±6.4 岁,其中 42 例(19.8%)为女性。212 例患者中有 14 例(6.6%)在 TEVAR 后发生 SCI。壁血栓、总血栓体积、低密度(≥-100 HU 但<30 HU)血栓体积、中密度(≥30 HU 但<150 HU)血栓体积、治疗长度、紧急手术和基线透析的平均密度较低,在 SCI 患者和无 SCI 患者之间有显著差异。尽管由于 SCI 事件数量较少,无法进行后续的多变量分析,但在 TEVAR 后 SCI 的与动脉瘤相关的因素中,脆弱的低密度血栓/斑块是更有力的预测因素。众所周知的危险因素,如 T8 至 L1 之间的远端覆盖、左锁骨下动脉覆盖、既往腹主动脉手术和预防性脊髓引流,没有显示出显著差异。
本研究结果表明,在与动脉瘤相关的因素中,降主动脉壁血栓形成的密度较低是 TEVAR 后 SCI 发展的预测因素。这些结果表明,微栓塞是 TEVAR 后 SCI 的重要机制之一,可能改变预防性策略。
