Endovascular Treatment of Thoracic Aortic Disease (EVOLVE Aorta)

The purpose of this study is to assess the role endovascular therapy to treat aortic disease involving the ascending aorta, the aortic arch, and the visceral segment of the aorta (or thoracoabdominal aorta)

This study is a prospective, non-randomized, single-site evaluation of the use of novel endovascular technology to treat complex aortic disease. In an effort to allow for the evaluation of patients with both complex anatomic condition and challenging physiologic situations there are three study subsections as follows: Ascending Arm Protocol: The intended use of the study is to provide endovascular therapy to patients with ascending aortic pathology including aneurysm, pseudoaneurysm, and/or aortic dissection who are considered high risk for conventional surgery. This will involve disease in the aorta from the sinotubular junction to the innominate artery. Aortic Arch Arm Protocol: The intended use of the study is to provide endovascular therapy to patients with aortic arch pathology including aneurysm, pseudoaneurysm and/or aortic dissection who are considered high risk for conventional surgery. This will involve disease in aorta from the sinotubular junction to descending thoracic aorta. Thoracobabdominal Aortic Arm Protocol: The intended use of the study is to provide endovascular therapy to patients with thoracoabdominal aortic pathology including aortic aneurysms, renal aneurysms, and superior mesenteric artery aneurysms. This will involve the aorta from the left carotid artery origin through the iliac artery bifurcation. In addition, the purpose of the study is also characterized based on the protocol arm that patients are enrolled: Ascending Arm Protocol: The purpose of this study is to assess the safety, efficacy, and intermediate (or long-term) rupture free survival rate of high risk surgical patients undergoing endovascular repair of ASCENDING AORTIC pathology including aortic dissection, aortic aneurysm, and/or aortic pseudoaneurysm. The objectives of this arm are as follows: To assess the safety, efficacy and intermediate (or long-term) durability of an endovascular prosthesis as a means of preventing ascending aortic growth and rupture in high risk patients. To measure the physiologic effects and outcomes of endovascular aneurysm repair. Establish selection criteria, improve device design, operative technique and follow-up procedures for patients undergoing endovascular aneurysm repair. Arch Arm Protocol: The purpose of this study is to assess the safety, efficacy, and intermediate (or long-term) rupture free survival rate of high risk surgical patients undergoing endovascular repair of AORTIC ARCH pathology including aortic aneurysm, pseudoaneurysm and/or dissection. The objectives of this arm are as follows: To assess the safety, efficacy and intermediate (or long-term) durability of an endovascular prosthesis as a means of preventing aortic arch growth and rupture in high risk patients. To measure the physiologic effects and outcomes of endovascular aneurysm repair. Establish selection criteria, improve device design, operative technique and follow-up procedures for patients undergoing endovascular aneurysm repair. Thoracoabdominal Arm Protocol: The purpose of this study is to assess the long-term safety, durability and rupture free survival of surgical patients undergoing endovascular repair of the THORACOABDOMINAL AORTA involving pathologies that include thoracoabdominal aortic aneurysms, renal artery aneurysms and superior mesenteric artery aneurysms. To assess the long-term safety and durability of an endovascular prosthesis as a means of preventing aneurysm growth and rupture in patients having aneurysms involving the THORACOABDOMINAL AORTA. To measure the physiologic effects and outcomes of endovascular aneurysm repair. Establish selection criteria, improve device design, operative technique and follow-up procedures for patients undergoing endovascular aneurysm repair involving the THORACOABDOMINAL AORTA.

Thoracic Aortic Aneurysms, Dissecting, Aneurysm, Ascending Aorta Aneurysm, Aortic Arch; Aneurysm, Dissecting, Ascending Aortic Dissection, Thoracoabdominal Aortic Aneurysm, Renal Artery Aneurysm, Superior Mesenteric Artery Aneurysm, Aortic Dissection

Investigational endovascular stent-graft implantation to exclude aneurysm or repair dissection of the ascending aorta.

Investigational endovascular stent-graft implantation to exclude aneurysm or repair dissection of the aortic arch.

Investigational endovascular stent-graft implantation to exclude thoracoabdominal aortic pathology including aortic aneurysms, renal artery aneurysms, and superior mesenteric artery aneurysms.

Arch Branched Device (Cook Medical), Custom Made Fenestrated/Branched Endovascular Device (Cook Medica), Helical Hypogastric Branched Device (Cook Medical), Ascending Aortic Endograft (Cook Medical)

Ascending Arm Protocol: General Inclusion Criteria (Must meet ALL of the following): Life expectancy greater than 2 years Suitable arterial anatomy Absence of systemic disease or allergy that precludes an endovascular repair Capable of giving informed consent and willingness to comply with follow up schedule Patient is considered high or prohibitive risk for open surgical repair of the ascending aneurysm or dissection Anatomic Inclusion Criteria Have ONE of the following Focal aneurysm in ascending aorta Pseudoaneurysms and/or dissections that are distal to the sinotubular junction. A thoracoabdominal aortic aneurysm ≥ 5.0 cm in women and ≥ 5.5 cm in men Have morphology or growth suggestive of immanent rupture Must meet ALL of the following: Proximal Fixation: >15 mm aortic length distal to a patent coronary artery or coronary artery bypass that are considered patent and necessary for proper cardiac perfusion. Proximal fixation may occur in either native aorta or surgical graft In the setting of the aortic dissection, the proximal fixation must be proximal to the entry tear. In the setting of aortic dissection, true lumen size must be large enough to allow deployment of the device Aortic diameter at the sinotubular junction >20 mm and ≤ 38mm Distal Fixation: a length of distal ascending aorta >5mm proximal to the innominate artery whereby seal and fixation can be achieved (the dissection flap may transcend the arch, but the seal must be achievable within the true lumen of the dissection) Aortic diameter (true lumen diameter in the setting of a dissection) at the innominate artery is ≤ 42mm. If the diameter at the innominate artery is ≥ 38mm the Low Profile version must be used Distance from the ascending aorta to the innominate artery must be >35mm Iliac artery access Iliac anatomy must allow for the delivery of the endograft device which is loaded within an 18F-24F sheath. Conduits to the iliac vessels or aorta may be used if deemed necessary In the setting of an aortic dissection, access into the true lumen throughout the length of the aorta must be obtainable Arch Arm Protocol General Inclusion Criteria (Must meet ALL of the following): Life expectancy greater than 2 years Suitable arterial anatomy Absence of systemic disease or allergy that precludes an endovascular repair Capable of giving informed consent and willingness to comply with follow up schedule Patient is considered high or prohibitive risk for open surgical repair of the ascending aneurysm or dissection Anatomic Inclusion Criteria Must meet ALL of the following: Aneurysm of the ascending aorta or aortic arch/proximal descending thoracic aorta that is >5.5cm or is considered to be at high risk for rupture or dissection given the morphologic characteristics of the aneurysm (or diverticulum). Proximal aortic fixation zone: Native aorta or surgical graft (If surgical graft in ascending aorta, the angulation within the graft must be <90 degrees) Diameter: 20-42mm Proximal neck length ≥10mm Ascending aortic length >50mm Must occur distal to coronary arteries and any coronary artery bypass grafts that are considered patent and necessary for proper cardiac perfusion Distal aortic fixation zone: Native aorta or surgical graft Diameter: 20-42mm Distal neck length ≥10mm Supra-aortic trunk (brachiocephalic) vessels Although the prosthesis will typically have two branches, modifications to the design will allow for a single branch or three branches. Thus, it is generally planned that at least one extra-anatomic bypass graft will be done in conjunction (or in a staged fashion) with the procedure. The two vessels incorporated into the endograft repair would most commonly be the innominate artery and left carotid artery. However, the innominate artery may be coupled with the left subclavian artery in the setting of a bovine arch whereby the flow to the left carotid would come from a left subclavian to carotid bypass. Similarly, the left carotid and subclavian artery may be branched, or simply one vessel branched should specific anatomic limitations exist. In such a situation, multiple extra-anatomic bypasses may be necessary. Thus the inclusion criteria are defined for each artery, yet any combination of arteries may be used for a repair. Diameter of vessel(s) to be incorporated into endograft Innominate artery: 8-22 mm. Left (or right) common carotid artery: 6-16mm Left (or right) subclavian artery: 5-20mm Length of sealing zone ≥ 10mm Acceptable tortuosity In the setting of an aortic dissection the following criteria must exist: Access into the true lumen from the groin and at least one supra-aortic trunk vessel A sealing zone in the target aorta (or surgical graft) that is proximal to the primary dissection, such that a stent graft would be anticipated to seal off the dissection lumen A sealing zone in the target supra-aortic trunk vessels that is distal to the dissection, anticipated to seal off the dissection lumen, or surgically created A true lumen size large enough to deploy the device and still gain access into the target branches In the setting of a more distal disease, the repair may be coupled with a thoracoabdominal branched device, infrarenal device, and/or internal iliac branch device - typically performed in a staged fashion Iliac anatomy must allow for the delivery of the arch branch device which is loaded within an 18F-24F sheath. Conduits to the iliac vessels or aorta may be used if deemed necessary. Thoracoabdominal Arm Protocol General Inclusion Criteria (Must meet ALL of the following): Life expectancy greater than 2 years Suitable arterial anatomy Absence of systemic disease or allergy that precludes an endovascular repair Capable of giving informed consent and willingness to comply with follow up schedule Anatomic Inclusion Criteria Presence of at least one of the following aneurysms is necessary to drive the need for a repair with a fenestrated/branched device: A thoracoabdominal aortic aneurysm ≥ 5 cm in women and ≥ 5.5 cm in men or suggestive of a high risk of rupture as a result of morphology, growth history or symptoms A renal artery aneurysm > 20 mm (or twice the diameter of native renal artery) An SMA aneurysm >30 mm Outside of the "Indications for Use" for commercially available fenestrated or branched endografts approved for use for the treatment of these aneurysms. Proximal neck Diameter ≤ 40 mm, ≥20 mm Proximal neck length ≥ 10mm. The proximal landing zone may be in a prior endograft or a prior surgical graft. Iliac Artery Diameter ≥ 7 mm (anticipated diameter following balloon angioplasty, stenting, dottoring, or conduit) or ≥ 6 mm for patients receiving an Low-Profile device. Iliac angulation that will not preclude device delivery or surgical modification of the iliac system For a bifurcated or aorto-monoiliac prosthesis, iliac implantation sites require ≤ 20 mm in diameter and ≥ 20 mm in length For a straight aorto-aortic prosthesis, distal neck (normal aorta between the aneurysm and iliac bifurcation) ≥ 10 mm in length and ≤ 40 mm in diameter If a hypogastric branch will be used to treat the common iliac aneurysm The intended common iliac artery is > 20mm in diameter or the aneurysm has morphology concerning for rupture; and The intended distal fixation site within the internal iliac is ≤ 10mm in diameter. Renal arteries or other visceral vessels arising from the aorta in an orientation that is evident and measurable from cross-sectional imaging (CT or MR) Visceral branch diameters (for incorporated vessels) between 4 mm - 11 mm at the intended distal sealing site (thus distal to a visceral artery aneurysm in such circumstances). Greater than 5 mm of proximal visceral branch length to allow for a seal with the mated device, or the ability to exclude an early branch. In the setting of an aortic dissection the following criteria must exist: Access into the true lumen from the groin and at least one supra-aortic trunk vessel A sealing zone in the target aorta (or surgical graft) that is proximal to the primary dissection, such that a stentgraft would be anticipated to seal off the dissection lumen A sealing zone in the target supra-aortic trunk vessels that is distal to the dissection, anticipated to seal off the dissection lumen, or surgically created A true lumen size large enough to deploy the device and still gain access into the target branches In the setting of a more proximal disease, the repair may be coupled with an arch-branched device, thoracic aortic endograft, or surgical aortic repair - typically performed in a staged fashion General Exclusion Criteria Patient can be treated in accordance with the instructions for use with a commercially marketed endovascular prosthesis Pregnancy History of anaphylactic reaction to contrast material with an inability to properly prophylax the patient appropriately Known sensitivity or allergy to materials of construction of the device (including the materials of the LP device). Body habitus that would inhibit X-ray visualization of the aorta Subject had a major surgical or interventional procedure unrelated to the treatment of the aneurysm planned <30 days from the endovascular repair Unstable angina Unwilling to comply with follow up schedule Systemic or local infection that may increase the risk of endovascular graft infection An uncorrectable coagulopathy

Haulon S, Greenberg RK, Spear R, Eagleton M, Abraham C, Lioupis C, Verhoeven E, Ivancev K, Kolbel T, Stanley B, Resch T, Desgranges P, Maurel B, Roeder B, Chuter T, Mastracci T. Global experience with an inner branched arch endograft. J Thorac Cardiovasc Surg. 2014 Oct;148(4):1709-16. doi: 10.1016/j.jtcvs.2014.02.072. Epub 2014 Feb 28.

Brown CR, Greenberg RK, Wong S, Eagleton M, Mastracci T, Hernandez AV, Rigelsky CM, Moran R. Family history of aortic disease predicts disease patterns and progression and is a significant influence on management strategies for patients and their relatives. J Vasc Surg. 2013 Sep;58(3):573-81. doi: 10.1016/j.jvs.2013.02.239. Epub 2013 Jul 1.