Stent graft–induced new entry tear (SINE): Intentional and NOT

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Presentation transcript:

Stent graft–induced new entry tear (SINE): Intentional and NOT G. Chad Hughes, MD The Journal of Thoracic and Cardiovascular Surgery Volume 157, Issue 1, Pages 101-106.e3 (January 2019) DOI: 10.1016/j.jtcvs.2018.10.060 Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure 1 A, Preoperative 3-dimensional computed tomography angiography reconstruction image demonstrating the proximal bare springs of a thoracic endograft eroding into the wall of the aortic arch with the development of a proximal SINE/arch pseudoaneurysm (arrow). The device was placed for an acute complicated type B dissection 7 years earlier. Note the “spring back” apparent in the device configuration, similar to that described in Figure 2, with the early development of a distal SINE/pseudoaneurysm as well. B, Intraoperative photograph from the same patient showing the open aortic arch with bare springs embedded into the aortic wall (arrow). C, The arch was resected up to the level of the proximal end of the endograft and the proximal bare springs removed from the device. D, The arch was then replaced with a branched Dacron graft with the distal arch anastomosis incorporating the aortic wall and proximal end of the old endograft. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure 2 A, Drawing and B, serial CTA images illustrating the tendency of self-expanding stent grafts to “spring back” to their initial straight status if passively bent, such as when placed across the aortic arch. In the CTA images, this elastic recoil led to a distal SINE (large arrow, second panel) with thoracic aneurysm expansion requiring distal TEVAR reintervention. TEVAR, Thoracic endovascular aortic repair. A, modified from Li and colleagues6 with permission. B, reproduced from Jánosi and colleagues10 with permission. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure 3 A, The “Knickerbocker technique” for treating chronic type B dissection with aneurysm whereby the proximal entry tear is covered and the aorta then paved down to the celiac axis with endografts in the true lumen. A large compliant balloon is then inflated in the distal endograft to rupture the dissection membrane and allow the distal endograft to expand outward to reach the outer aortic wall and prevent retrograde false lumen flow back up into the more proximal thoracic false lumen. Reproduced from Kölbel and colleagues22 with permission. B, Stent-assisted balloon-induced intimal disruption and relamination technique for treating type B aortic dissection. A covered endograft is deployed in the proximal descending thoracic aorta to cover the primary entry tear with bare metal stents then deployed distally over the visceral segment and abdominal aorta. The distal endograft and bare dissection stents are then balloon dilated to disrupt the intimal flap and obliterate the distal false lumen. Reproduced from Hofferberth and colleagues23 with permission. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure E1 Sagittal reconstructed computed tomography angiography image from the sentinel report of stent graft–induced intimal injury published in 2002.2 The image demonstrates a new “ulcer-like projection” (arrow), which developed at the distal end of an early generation thoracic stent graft 14 months after implantation in a patient treated for chronic type B dissection. Reproduced from Ninomiya and colleagues2 with permission. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure E2 A, Angiogram and B, 3-dimensional reconstructed computed tomography angiography images demonstrating a distal stent graft–induced new entry (arrows), which was treated with distal extension thoracic endovascular aortic repair (C and D). Modified from reference Jánosi and colleagues10 with permission. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure E3 Serial 3-dimensional reconstructed computed tomography angiography reconstruction images demonstrating a distal compressed stent graft in the small true lumen after thoracic endovascular aortic repair for chronic dissection (A and B). C, Over time, the persistent radial force of the compressed endograft leads to distal stent graft–induced new entry (arrow). Modified from Jang and colleagues4 with permission. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure E4 Curved planar reformat computed tomography angiography reconstruction measuring the mean diameter of the true lumen in the distal landing zone in the distal descending thoracic aorta. The distal thoracic endovascular aortic repair device is then chosen such that there is minimal oversizing of the proposed distal landing zone so as to prevent distal stent graft–induced new entry occurrence. Reproduced from Hughes and colleagues18 with permission. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Figure E5 Concept of retrograde false lumen pressurization via downstream fenestrations. In most cases of DeBakey type IIIb aortic dissection, there are multiple downstream fenestrations that continue to provide flow to the false lumen despite adequate coverage of the proximal primary tear and even with avoidance of stent graft–induced new entry creation. These downstream re-entry tears are especially common in the visceral segment, where they are located at the prior ostia of branch vessels, which now arise from the false lumen such that a channel connecting the true and false lumens at this level exists. Retrograde flow from the abdominal aorta back up into the false lumen of the thoracic aorta is generally only seen when there are patent intercostal or bronchial arteries arising from the false lumen to allow continued flow. This may also be seen when the left subclavian artery either partially or fully arises from the false lumen to allow continued retrograde flow with false lumen pressurization. Reproduced from Rohlffs and colleagues20 with permission. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Serial CTA images demonstrating development of distal SINE Serial CTA images demonstrating development of distal SINE. Modified with permission from Jang and colleagues. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

Video 1 The “distal-first” implantation technique as used by our group for thoracic endovascular aortic repair (TEVAR) for chronic dissection. An 84-year-old patient is shown who presented with a large distal arch aneurysm secondary to chronic residual dissection 8 months after previous supracoronary ascending aorta and hemiarch replacement for acute type A dissection at another institution. He underwent first-stage redo-sternotomy for 3-vessel arch debranching, and the video shows his second-stage completion TEVAR procedure performed several days later during the same hospital stay. The beginning of the video shows an intravascular ultrasound (IVUS) probe being used to interrogate the entire aorta to confirm true lumen wire location throughout (IVUS images not shown). The devices are then deployed from distal to proximal in the true lumen, beginning just above the celiac axis with a 31/26 mm × 10 cm conformable tapered device deployed distally, followed by a 34 mm × 20 cm device more proximally. Following a proximal marker arteriogram to roadmap the origin the arch debranching graft and proximal landing zone, a 40 mm × 20 cm device is deployed. The completion angiogram demonstrates no endoleak, and the 1-month follow-up 3-dimensional reconstructed computed tomography angiography image demonstrates a good result with a thrombosed aneurysm sac and thoracic false lumen. The patient continues to do well now nearly 1 year after his 2-stage type I hybrid arch repair with no endoleak and significant shrinkage of his distal arch aneurysm sac. Video available at: https://www.jtcvs.org/article/S0022-5223(18)32821-6/fulltext. The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions

The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106 The Journal of Thoracic and Cardiovascular Surgery 2019 157, 101-106.e3DOI: (10.1016/j.jtcvs.2018.10.060) Copyright © 2018 The American Association for Thoracic Surgery Terms and Conditions