Unit of Vascular Surgery, Department of Surgical Sciences, University of Turin, Turin, Italy.
Department of Surgery, University of Pennsylvania, Philadelphia, Pa.
J Vasc Surg. 2021 Aug;74(2):569-578.e3. doi: 10.1016/j.jvs.2021.01.047. Epub 2021 Feb 13.
AUTHORS' NOTE: On February 17, 2021, Medtronic Incorporated issued a global voluntary recall of the Valiant Navion Thoracic Stent Graft System (the device under study in the Valiant Evo Global Clinical Program that is the subject of this publication), and instructed physicians to immediately cease use of the Valiant Navion system and return any unused product. Medtronic initiated the recall in response to three clinical trial subjects recently observed with stent fractures, two of whom have confirmed type IIIb endoleaks. The data collection, analysis, and manuscript submission occurred before the notice of this recall, and, specifically, the 100 procedures reviewed for this series were free of events at 1 year related to the reason for this device recall. The authors of this article and the manufacturer were unaware of the recently detected adverse events at the time of the preparation of the manuscript, and the 1-year trial results, and imaging-based analyses described are unchanged. Management of thoracic aortic aneurysms continues to be a challenging problem and outcomes are dependent on patient anatomy. The present publication focuses on the importance of achieving proximal and distal seals and the consideration of the temporal changes of the aortic morphology as a part of the TEVAR planning process. The authors believe there is still scientific merit in disclosing this information, despite the current nonavailability of the Valiant Navion system.
The Valiant Navion stent graft system (Medtronic Inc, Santa Rosa, Calif) is a third-generation device with improved conformability. We have reported the 1-year clinical trial outcomes, with a focus on an imaging-based analysis of the aortic morphology. We assessed the effects of graft implantation on the native anatomy and the effects of the 1-year changes in thoracic aorta morphology on the original seal zones of the stent graft.
A total of 100 subjects were enrolled in a prospective single-arm clinical trial investigating the Valiant Navion stent graft system. An independent core laboratory (Syntactx, New York, NY) assessed the anatomic characteristics and performance outcomes.
Through 1 year of follow-up, the freedom from all-cause mortality, aneurysm-related mortality, and secondary procedures was 89.8%, 97.0%, and 94.8% respectively. Of the 100 patients, 5 had undergone a total of six secondary procedures, and 9 patients had developed an endoleak (type Ia and Ib in 1, type Ia in 1, type Ib in 3, and type II in 4 patients) within the first year. After 1 year, 2 of 76 patients (2.6%) had had an increase in their maximum aneurysm diameter of ≥5 mm, 62 (81.6%) had had stable sacs, and 12 (15.8%) had experienced sac shrinkage. Although no deployment failures had occurred, 36 of the 100 proximal (36%) and 31 of the 100 distal (31%) attachment zones were considered short according to our definitions. The stent graft had conformed to the native anatomy at implantation, because the preprocedural thoracic aorta tortuosity (1.45 ± 0.02) had not significantly changed at 1 month after implantation (1.46 ± 0.02). Despite a natural increase in thoracic tortuosity after 1 year (1.49 ± 0.02), wall apposition had been maintained over time, as evidenced by the low endoleak rates. Aortic elongation and dilation had occurred at the proximal end of the graft by an average of 1.2 mm and 1.6 mm, respectively. Aortic remodeling was more pronounced at the distal end, with an average increase of 4.2 mm in length and 2.8 mm in diameter.
The included patients had had positive 1-year outcomes with high freedom from mortality, endoleak development, and secondary procedures. Aortic elongation and dilation were more prevalent at the distal end, emphasizing the importance of distal attachment zone consideration as part of preoperative planning. Because aortic remodeling can be expected to continue over time, additional follow-up and imaging analysis in the trial will be necessary to assess the aortic morphology and its effects on stent graft performance.
2021 年 2 月 17 日,美敦力公司发布了一项全球自愿召回瓦力安导航胸主动脉支架系统(该设备是瓦力安 Evo 全球临床项目的研究对象,也是本文出版的主题),并指示医生立即停止使用瓦力安导航系统,并退回任何未使用的产品。美敦力公司之所以发起此次召回,是因为最近观察到三名临床试验受试者出现支架骨折,其中两名患者已确诊为 IIIb 型内漏。数据收集、分析和提交是在召回通知之前进行的,特别是在这一系列研究中,有 100 例手术在 1 年时未发生与设备召回原因相关的事件。在本文撰写时,作者和制造商都不知道最近发现的不良事件,并且 1 年的试验结果和基于影像学的分析结果保持不变。胸主动脉瘤的治疗仍然是一个具有挑战性的问题,其结果取决于患者的解剖结构。本出版物重点介绍了实现近端和远端密封的重要性,并考虑了主动脉形态学随时间的变化,作为 TEVAR 规划过程的一部分。作者认为,尽管目前无法使用瓦力安导航系统,但披露这些信息仍然具有科学价值。
瓦力安导航支架移植物系统(美敦力公司,加利福尼亚州圣罗莎)是一种具有更好顺应性的第三代器械。我们已经报告了 1 年的临床试验结果,重点是基于影像学的主动脉形态学分析。我们评估了移植物植入对固有解剖结构的影响,以及 1 年内胸主动脉形态学变化对支架移植物原始密封区的影响。
共有 100 名受试者参加了一项前瞻性单臂临床试验,研究瓦力安导航支架移植物系统。一个独立的核心实验室(Syntactx,纽约,NY)评估了解剖特征和性能结果。
在 1 年的随访中,全因死亡率、动脉瘤相关死亡率和二次手术率分别为 89.8%、97.0%和 94.8%。在 100 名患者中,有 5 名患者共进行了 6 次二次手术,9 名患者在 1 年内发生了内漏(1 例为 I 型和 Ib 型,1 例为 Ia 型,3 例为 Ib 型,4 例为 II 型)。1 年后,76 名患者中有 2 名(2.6%)最大动脉瘤直径增加≥5mm,62 名(81.6%)瘤腔稳定,12 名(15.8%)瘤腔缩小。虽然没有发生移植物展开失败,但根据我们的定义,100 个近端(36%)和 100 个远端(31%)附着区中有 36 个和 31 个被认为是短的。支架移植物在植入时与固有解剖结构相吻合,因为植入后 1 个月的胸主动脉迂曲度(1.45±0.02)与植入前相比没有显著变化(1.46±0.02)。尽管 1 年后胸主动脉迂曲度自然增加(1.49±0.02),但内漏率较低,表明壁贴附随时间保持。移植物近端有平均 1.2mm 和 1.6mm 的主动脉伸长和扩张。支架移植物的远端重塑更为明显,长度增加了 4.2mm,直径增加了 2.8mm。
纳入的患者在 1 年时具有积极的结果,死亡率、内漏发展和二次手术的发生率均较高。在远端,主动脉伸长和扩张更为常见,这强调了在术前计划中考虑远端附着区的重要性。由于预期主动脉重塑会随时间继续,因此需要在试验中进行额外的随访和影像学分析,以评估主动脉形态及其对支架移植物性能的影响。
