Subscribe to RSS
DOI: 10.1055/s-0039-3401022
Delayed Aortic Stent Collapse in Blunt Traumatic Aortic Injury Repair
Funding None.Publication History
10 February 2018
02 November 2019
Publication Date:
04 February 2020 (online)
Abstract
Background Endovascular stent grafting has emerged as an option to treat traumatic aorta injuries with reported significantly low mortality and morbidity. Stent collapse is one of the complications that can occur in this type of treatment. The aim of this article is to analyze the expected cause of stent collapse and to draw attention to the importance of the surveillance follow-up, as this phenomenon may occur late postdeployment.
Methods A retrospectively collected dataset from the two highest volume trauma centers in Saudi Arabia was analyzed between April 2007 and October 2012. A total of 66 patients received stent grafts for traumatic aortic injury and were included in the study. We apply Ishimaru's anatomical aortic arch zones and Benjamin's aortic injury grading systems. There were 35 patients with aortic injury at zone 2, 26 patients in zone 3, and 5 patients in zone 4. About 96% (63) of the injuries were grades 2 and 3, including large intimal flap or aortic wall pseudoaneurysm with change in wall contour. The technical success rate, as defined by complete exclusion of lesions without leaks, stroke, arm ischemia or stent-related complications, was 90%.
Results Proximal stent collapse occurred in 4.5% of patients (3 of 66 inserted stents) during follow-up of 4 to 8 years (mean, 6 years). Patients with stent collapse tended to have an acute aortic arch angle with long-intraluminal stent lip, when compared with patients with noncollapsed stents. Intraluminal lip protrusion more than 10-mm increased collapse (p < 0.001). Stent-grafts sizes larger than 28 mm also demonstrated a higher collapse rate (p < 0.001).
Conclusions The risk of stent collapse appears related to poor apposition of the stent due to severe aortic arch angulation in young patients and to large stent sizes (>28 mm). Such age groups may have more anatomical and aortic size changes during the growth. Clinical and radiological surveillance is essential in follow-up after stent-graft treatment for traumatic aortic injury.
-
References
- 1 Nano G, Mazzaccaro D, Malacrida G, Occhiuto MT, Stegher S, Tealdi DG. Delayed endovascular treatment of descending aorta stent graft collapse in a patient treated for post- traumatic aortic rupture: a case report. J Cardiothorac Surg 2011; 6: 76
- 2 Azizzadeh A, Keyhani K, Miller III CC, Coogan SM, Safi HJ, Estrera AL. Blunt traumatic aortic injury: initial experience with endovascular repair. J Vasc Surg 2009; 49 (06) 1403-1408
- 3 Cook J, Salerno C, Krishnadasan B, Nicholls S, Meissner M, Karmy-Jones R. The effect of changing presentation and management on the outcome of blunt rupture of the thoracic aorta. J Thorac Cardiovasc Surg 2006; 131 (03) 594-600
- 4 Wellons ED, Milner R, Solis M, Levitt A, Rosenthal D. Stent-graft repair of traumatic thoracic aortic disruptions. J Vasc Surg 2004; 40 (06) 1095-1100
- 5 Balm R, Legemate DA. Traumatic aortic rupture. Br J Surg 2006; 93 (09) 1033-1034
- 6 Canaud L, Alric P, Desgranges P, Marzelle J, Marty-Ané C, Becquemin JP. Factors favoring stent-graft collapse after thoracic endovascular aortic repair. J Thorac Cardiovasc Surg 2010; 139 (05) 1153-1157
- 7 Hinchliffe RJ, Krasznai A, Schultzekool L. , et al. Observations on the failure of stent-grafts in the aortic arch. Eur J Vasc Endovasc Surg 2007; 34 (04) 451-456
- 8 Hansen CJ, Bui H, Donayre CE. , et al. Complications of endovascular repair of high-risk and emergent descending thoracic aortic aneurysms and dissections. J Vasc Surg 2004; 40 (02) 228-234
- 9 Muhs BE, Balm R, White GH, Verhagen HJ. Anatomic factors associated with acute endograft collapse after Gore TAG treatment of thoracic aortic dissection or traumatic rupture. J Vasc Surg 2007; 45 (04) 655-661
- 10 Starnes BW, Lundgren RS, Gunn M. , et al. A new classification scheme for treating blunt aortic injury. J Vasc Surg 2012; 55 (01) 47-54
- 11 Melissano G, Civilini E, Bertoglio L, Setacci F, Chiesa R. Endovascular treatment of aortic arch aneurysms. Eur J Vasc Endovasc Surg 2005; 29 (02) 131-138
- 12 Ishimaru S. Endografting of the aortic arch. J Endovasc Ther 2004; 11 (02) (Suppl. 02) II62-II71
- 13 Steinbauer MG, Stehr A, Pfister K. , et al. Endovascular repair of proximal endograft collapse after treatment for thoracic aortic disease. J Vasc Surg 2006; 43 (03) 609-612
- 14 Melissano G, Tshomba Y, Civilini E, Chiesa R. Disappointing results with a new commercially available thoracic endograft. J Vasc Surg 2004; 39 (01) 124-130
- 15 Pandey N, Litt HI. Surveillance imaging following endovascular aneurysm repair. Semin Intervent Radiol 2015; 32 (03) 239-248
- 16 Picel AC, Kansal N. Essentials of endovascular abdominal aortic aneurysm repair imaging: postprocedure surveillance and complications. AJR Am J Roentgenol 2014; 203 (04) W358-72
- 17 Rodd CD, Desigan S, Hamady MS, Gibbs RG, Jenkins MP. Salvage options after stent collapse in the thoracic aorta. J Vasc Surg 2007; 46 (04) 780-785
- 18 Cabrera MS, Oomens CW, Baaijens FP. Understanding the requirements of self-expandable stents for heart valve replacement: radial force, hoop force and equilibrium. J Mech Behav Biomed Mater 2017; 68: 252-264
- 19 Idu MM, Reekers JA, Balm R, Ponsen KJ, de Mol BA, Legemate DA. Collapse of a stent-graft following treatment of a traumatic thoracic aortic rupture. J Endovasc Ther 2005; 12 (04) 503-507