Separate revascularization of the visceral arteries in thoracoabdominal aneurysm repair

Endovascular repair of intercostal and visceral aortic patch aneurysms following open thoracoabdominal aortic aneurysm repair

PURPOSE

Reoperative open surgical repair (OSR) of thoracoabdominal aortic aneurysms (TAAAs) is associated with high morbidity and mortality. The aim of this study was to analyze outcomes of fenestrated-branched endovascular aneurysm repair (F-BEVAR) for the treatment of intercostal or visceral aortic patch aneurysms after OSR of TAAAs.

METHODS

We reviewed the clinical data and outcomes of consecutive patients treated at 8 academic centers by F-BEVAR for visceral and intercostal aortic patch aneurysms after OSR of TAAAs (2011-2019). All patients had involvement of at least one target vessel requiring incorporation by a fenestration or directional branch. End points were technical success, 30-day and/in-hospital mortality, major adverse events, patient survival, target vessel patency/instability, and freedom from reintervention.

RESULTS

There were 29 patients with a median age of 70 (interquartile range, 63-74) years. Seven patients (24%) had connective tissue disorders. Technical success was 100%. There were no 30-day/in-hospital mortalities. Major adverse events occurred in 5 patients (17%), including estimated blood loss >1 L in 3 patients (10%), acute kidney injury and respiratory failure in 2 patients (7%) each, and transient paraparesis in 1 patient (3%). Median follow-up was 14 (interquartile range, 7-37) months. At 2 years, primary and secondary patency, freedom from target artery instability, freedom from reintervention, and patient survival were 95%, 100%, 83%, 61%, and 96%, respectively.

CONCLUSIONS

F-BEVAR could be considered as an alternative to reoperative OSR in patients with visceral or intercostal aortic patch aneurysms. This series showed no mortality and a low rate of major adverse events, but a significant need for reintervention.

Thoracoabdominal aortic aneurysm in connective tissue disorder patients

Connective tissue disorders (CTDs) are a group of genetically triggered diseases in which the primary defect involves collagen and elastin protein assembly with potential vascular degenerations such as thoracoabdominal aortic aneurysm (TAAA) and dissection. These most commonly include Marfan syndrome, Ehlers-Danlos syndrome, Loeys-Dietz syndrome, and familial thoracic aortic aneurysm and dissection. Open surgical repair represents the standard approach in this specific group of patients. Extensive aortic replacements are generally performed in order to reduce long-term complications caused by the progressive dilatation of the remnant aortic segments. In the last decades, endovascular interventions have emerged as a valid alternative in patients affected by degenerative TAAA. However, in patients with CTD, this approach presents higher rates of reinterventions and postoperative complications with a disputable long-term durability, and it is nowadays performed for very selective indications such as severe comorbidities and urgent/emergent settings. Despite a deeper knowledge of the pathophysiological mechanisms involved in CTD, improvements in medical therapy, and a multidisciplinary approach fully involved in the management of these usually frailer patients, this specific group still represents a challenge. Further dedicated studies addressing mid-term and long-term outcomes in this selected population are needed.

Use of fenestrated-branched endovascular aneurysm repair to treat Carrel patch aneurysmal degeneration after open thoracoabdominal aortic aneurysm repair

Two patients with a history of open type II thoracoabdominal aortic aneurysm repair presented with saccular aneurysmal degeneration of the Carrel patch. The degenerated segments measured 6.2 cm and 7.4 cm, respectively, and involved the celiac artery, superior mesenteric artery, and right renal artery. Both patients successfully underwent a custom fenestrated-branched endovascular aneurysm repair with downgoing branches to the celiac artery, superior mesenteric artery, and right renal artery and a stented fenestration to the left renal artery. Completion angiography demonstrated no endoleak and patent visceral-renal segments. Both patients were discharged home on postoperative day 2.

Visceral Patch Rupture after Repair of Thoracoabdominal Aortic Aneurysm

This is a unique case of a visceral patch rupture in a Marfan patient after a repair of a thoracoabdominal aneurysm. The patient presented with abdominal pain and in shock 6 years after repair. The retained aortic wall containing the origins of the celiac, mesenteric, and renal arteries was aneurysmal and had ruptured. Clinical presentation, diagnosis, and operative modalities are discussed.

Proximal endovascular blood flow shunt for thoracoabdominal aortic aneurism without total aortic clamping

The authors present a surgical approach to type III and IV Crawford aneurysms that does not need total aortic clamping, which allows the more objective prevention of direct ischemic damage, as well as its exclusion by the endoprosthesis implantation, shunting the flow to the synthetic graft.

Internal cuff reimplantation technique for aortic branch reconstruction

Massive blood loss during thoracoabdominal aortic aneurysm repair may impair postoperative outcomes but can be reduced by a secure suture line. Our internal cuff reimplantation is a novel technique for the reconstruction of branch arteries with a cuff of the native aortic wall, which is anastomosed inside the prosthesis through a hole created in it. This technique can ensure hemostasis at the anastomosis by decompression of the suture line, improve patency of the reconstructed branches by leaving the diseased orifices untouched, and prevent future enlargement of the remnant native aortic wall by covering it with the prosthesis.

Open reconstruction of thoracoabdominal aortic aneurysms

Technical details of our strategy for reconstructing the thoracoabdominal aorta are presented. Between October 1999 and June 2012, 152 patients underwent surgery for thoracoabdominal aortic aneurysms (Crawford classification type I =21, type II =43, type III =73, type IV =15). Mean age was 64.6±13.9 years. Sixty-three (41.4%) patients had aortic dissection, including acute type B dissection in 2 (1.2%) and ruptured aneurysms in 17 (11.2%). Eight (5.3%) patients had mycotic aneurysms, and 3 (2.0%) had aortitis. Emergent or urgent surgery was performed in 25 (16.4%) patients. Preoperative computed tomography (CT) scan or magnetic resonance (MR) angiography detected the Adamkiewicz artery in 103 (67.8%) patients. Cerebrospinal fluid drainage (CSFD) was performed in 115 (75.7%) patients and intraoperative motor evoked potentials were recorded in 97 (63.8%). One hundred and seven (70.4%) patients had reconstruction of the intercostal arteries from T7 to L2, 35 of which were reconstructed with the aortic patch technique and 72 with branched grafts. The mean number of reconstructed intercostal arteries was 3.1±2.5 pairs. Mild hypothermic partial cardiopulmonary bypass at 32-34 °C was used in 105 (69.1%) patients, left heart bypass was used in 4 (2.6%), and deep hypothermic cardiopulmonary bypass below 20 °C was used in 42 (27.6%). Thirty-day mortality was 9 (5.9%), and hospital mortality was 20 (13.2%). Independent risk factors for hospital mortality were emergency surgery (OR 13.4, P=0.003) and aortic cross clamping over 2 hours (OR 5.7, P=0.04). Postoperative spinal cord ischemia occurred in 16 (10.5%, 8 patients with paraplegia and 8 with paraparesis). Risk factors for developing spinal cord ischemic complications were prior surgery involving either the descending thoracic or the abdominal aorta (OR 3.75, P=0.05), diabetes mellitus (OR 5.49, P=0.03), and post-bypass hypotension <80 mmHg (OR 1.06, P=0.03). Postoperative survival at 5 years was 83.6±4.5%; 5-year survival was 47.5±8.6% in patients with spinal cord ischemia and 88.9±10.4% in those without spinal cord ischemia.

Modified technique for reconstructing the visceral arteries in thoracoabdominal aortic repair

We present a modified technique for reconstructing the visceral arteries in thoracoabdominal aortic repair. After the proximal and distal anastomosis of a main tubular graft with four pre-sewn side branches, each visceral artery is cannulated and perfused with 25 °C blood (sum total, 800 mL/min). Then, each side branch is placed around the main graft, forming a gently curved loop around it. Finally, the orifice of each visceral artery is sutured to a side branch. This technique prevents kinking of the side branches and enables hemostasis to be secured with a clear view of all the suture lines.

Thoracoabdominal aneurysm repair using a four-branched thoracoabdominal graft: a case series

Revascularization of the visceral arteries during thoracoabdominal aneurysm repair is usually performed sequentially by an anastomosis between a prosthetic graft and an aortic patch. There are immediate operative risks such as bleeding and distortion. In the longer term, aneurysm, pseudo-aneurysm and rupture may occur. These require reoperation and are associated with significant morbidity and mortality.

We present our experience with Crawford IV thoracoabdominal aneurysm repair in four patients, using a prefabricated four-branched graft (Coselli graft). At two years there were no deaths, no complications and no vessel abnormalities on computed tomography. We recommend its use as the graft of choice in young patients with an aortic tissue disorder requiring total resection of the aortic wall at the level of the visceral vessels.

Hybrid debranching-endovascular repair of visceral patch aneurysm after thoracoabdominal aneurysm repair

A visceral patch aneurysm is a significant complication after extensive thoracoabdominal aneurysm repair, and open procedures to correct these lesions are associated with a high perioperative mortality. We report the case of a 6-cm visceral patch aneurysm occurring in a patient with a completely replaced descending and abdominal aorta that was successfully corrected by staged debranching and endovascular repair with a dedicated thoracic endograft. Hybrid procedures are a successful option to treat complex repairs in the reoperative setting. They have the potential to lower perioperative risk and enhance patient care.

Repair of recurrent visceral aortic patch aneurysm after thoracoabdominal aortic aneurysm repair with a branched endovascular stent graft

Aneurysmal degeneration of the visceral aortic patch is an uncommon late complication of surgical replacement of the thoracoabdominal aorta. We report on a 70-year-old woman who had undergone previous open thoracoabdominal aortic aneurysm repair and subsequent revision surgery for a visceral aortic patch aneurysm. The patient presented with a recurrent asymptomatic 60-mm-diameter visceral aortic patch aneurysm involving the celiac axis and superior mesenteric artery. The lesion was successfully treated with a custom-designed Zenith branched endovascular stent graft. The patient remains well at 12 months.

Reconstruction of the intercostal arteries with small-branched grafts in patients with thoracoabdominal or descending aortic aneurysms

An extent II thoracoabdominal aortic aneurysm of 60 mm diameter was exposed through the left 6(th) intercostal space and retroperitoneal approach. The partial cardiopulmonary bypass was initiated through the femoral arterial and venous cannulation. A knitted Dacron graft of 22 mm with four spatially orientated branches for the abdominal viscera and five branches for the intercostal arteries was utilized. The thoracoabdominal aorta was replaced with staged segmental aortic clamping. The proximal aorta, just distal to the left subclavian artery, was completely transected and anastomosed to the graft. The descending aorta was clamped at Th 10 level. The Th 8 and 9 intercostal arteries were clamped from the outside of the aorta. After opening the aorta, the left orifice of Th 8(th) and Th 9(th) intercostal arteries were anastomosed to the side branches of the graft, respectively. Similarly, the 10(th) and 11(th) intercostal arteries were reconstructed. After clamping the infra-renal portion of the abdominal aorta, four visceral arteries were perfused using an 8 French size balloon-tipped catheter. Each artery was anastomosed to the side branch of the graft. The distal anastomosis was performed and cardiopulmonary bypass was weaned-off.

Stent-graft treatment of thoracoabdominal aortic aneurysms after complete visceral debranching

Complex thoracoabdominal aortic aneurysm repair remains a difficult problem from both open and endoluminal approaches. The reduced morbidity and mortality rates reported to be associated with aortic stent-graft procedures makes this option more attractive, but it is hampered by the need for adequate proximal and distal seal zones. While branched and fenestrated aortic stent-grafts are being refined, an alternative is a two-stage surgical and endoluminal approach that is particularly useful for aneurysms involving the aortic visceral segment. The present report describes stent-graft repair in two patients after complete visceral artery revascularization or "debranching."

Complex thoracoabdominal aortic aneurysms: endovascular exclusion with visceral revascularization

OBJECTIVE

We review our ongoing experience with a transabdominal stent repair of complex thoracoabdominal aneurysms (Crawford type I, II, and III) with surgical revascularization of visceral and renal arteries.

METHODS

A retrospective review was conducted of prospectively collected data from 29 consecutive patients who underwent an attempted visceral hybrid procedure between January 2002 and April 2005. Twenty-two patients were elective, four were urgent (symptomatic), and three were emergent (true rupture). The median patient age was 74 years (range, 37 to 81 years). The aneurysms were Crawford type I in 3, type II in 18, type III in 7, and type IV in 1. Previous aortic surgery had been performed in 13 (45%) of 29 and included aortic valve and root replacement in 3, TAA repair in 1, type I repair in 1), type IV repair in 3, type B dissection in 2, infrarenal aneurysm in 5, and right common iliac aneurysm in 1. Severe preoperative comorbidity was present in 23 (80%) of 29: chronic renal impairment in 5, severe chronic obstructive pulmonary disease in 6, myocardial disease in 11 at New York Heart Association grade II (6) and grade III (5), and Marfan's syndrome in 6. Twenty-six patients (90%) had a completed procedure. In two patients, myocardial instability prevented completion of the procedure despite extensive preoperative cardiac assessment, and in one, poor flow in the true lumen of a chronic type B dissection prevented anastomosis of the revascularization grafts. Exclusion of the full thoracoabdominal aorta was achieved in all 26 completed procedures and extended to include the iliac arteries in four, with revascularization of coeliac in 26, superior mesenteric artery in 26, left renal artery in 21, and right renal artery in 21).

RESULTS

There was no paraplegia < or =30 days or during inpatient admission, and elective and urgent mortality was 13% (3/23). All of the patients with ruptured thoracoabdominal aneurysms died < or =30 days. Major complications included prolonged respiratory support (>5 days) in 9, inotropic support in 4, renal impairment requiring temporary support in 2 and not requiring support in 2, prolonged ileus in 2, resolved left hemispheric stroke in 1, and resection of an ischemic left colon in 1. Median blood loss was 3.9 liters (range, 1.2 to 13 liters). The median ischemia time was 15 minutes (range, 13 to 27 minutes) for the superior mesenteric and coeliac arteries and 15 minutes for the renal arteries (range, 13 to 21 minutes). The median hospital stay was 27 days (range, 16 to 84 days). Follow-up was a median of 8 months (range, 2 to 31 months), with 92 of 94 grafts patent. Six patients were found to have a type I endoleak. In four, this was a proximal leak, and stent extension in three reduced, but did not cure, the endoleak. One patient with a distal type I endoleak was successfully treated by embolization. Four type II endoleaks resolved without intervention, and one was treated by occlusion coiling of the origin of the left subclavian artery. A single late type III endoleak was found.

CONCLUSION

Early results of visceral hybrid stent-grafts for types I, II, and III thoracoabdominal aneurysms are encouraging, with no paraplegia in this particularly high-risk group of patients. These results have encouraged us to perform the new procedure, in preference to open surgery, in Crawford type I, II, and III thoracoabdominal aortic aneurysms.

Fate of the Visceral Aortic Patch After Thoracoabdominal Aortic Repair

OBJECTIVE

To analyse the fate of a visceral aortic patch (VAP) in patients that underwent thoracoabdominal aortic aneurysm (TAAA) repair.

METHODS

We reviewed 204 consecutive patients (158 M, 46 F) treated for TAAA between 1988 and 2004. We performed VAP in 182 cases. Among the 149 survivors at 6 months, we followed 138 cases, mean follow-up 7 years (range 0.6-16 years). The mean graft diameter we used was 29mm (range 24-34mm) from 1988 to 1999 (83 patients), and 21.7mm (range 16-24mm) from 2000 to 2003 (55 patients). In 23% of cases we performed a separate bypass to the left renal artery.

RESULTS

We observed 16 (12%) VAP dilatations (<5cm), 6 (4%) VAP aneurysms (>5cm) and one VAP pseudoaneurysm, at a mean time of 6 years after atherosclerotic TAAA was atherosclerotic repair. There were no VAP dilatations/aneurysms in the group of patients with separate left renal revascularization. Five VAP aneurysms were treated electively. In four cases the operation was performed with thoracophrenolaparotomy, in one case with a bilateral subcostal laparotomy. In all cases the visceral aorta was re-grafted. Reimplantation of a single undersized VAP was performed in one case, separate revascularization of visceral arteries was performed in the other four cases. Selective intraoperative hypothermic perfusion of visceral and renal arteries was used in all the patients. There was 1 perioperative death; 2 patients with preoperative renal failure required dialysis. The last VAP aneurysm has remained asymptomatic and stable at annual CT surveillance. The VAP pseudoaneurysm was successfully treated with an emergency thoracophrenolaparotomy and refashioning the left side suture line.

CONCLUSIONS

Aneurysm of VAP is not uncommon in the patients operated on using larger grafts with a single VAP that includes the LRA (7.4%, 5/67 cases). Its treatment carries significant morbidity and mortality.

Re-reconstruction of visceral arteries with thoraco-abdominal aortic replacement using a branched graft

A 44-year-old man, unaffected by Marfan's syndrome, had previously undergone thoracoabdominal replacement for a chronic, type B dissecting aneurysm. Reconstruction of the visceral arteries was performed using an island technique. However, approximately 3 years after the operation, the reconstructed part of the aorta containing the visceral arteries became dilated and an aneurysm formed. We have succeeded both in repairing the aneurysms and "re-reconstructing" the visceral arteries using a branched graft. We conclude that the technique of separate revascularization is worth considering from the beginning, even if the patient does not present with Marfan's syndrome.

Retrograde visceral vessel revascularization followed by endovascular aneurysm exclusion as an alternative to open surgical repair of thoracoabdominal aortic aneurysm

Staged visceral artery revascularization with occlusion of the proximal lumen enables endovascular exclusion of the entire thoracoabdominal aneurysm from a femoral approach. This technique has been successfully used in three patients at high risk for conventional repair.

Thoracoabdominal aortic aneurysm repair after prior aortic surgery

PURPOSE

The purpose of this study was to determine whether the morbidity and mortality of surgery for thoracoabdominal aortic aneurysm (TAAA) in patients with prior aortic surgery are increased.

METHODS

The results for all patients undergoing operation for TAAA at a single institution were reviewed.

RESULTS

Over a 10-year interval, 279 patients (136 women and 143 men) underwent aortic replacement for TAAA. The mean patient age was 68 years (range, 34-90). The extent of aortic replacement was relatively evenly distributed: type I (91), type II (54), type III (78), or type IV (56). Of these 279 patients, 76 (27%) had undergone prior aortic surgery. Prior infrarenal AAA was the most common prior procedure (56, 20%). Reoperation for prior failed TAAA repair was performed in 20 (7%) patients. A history of Marfan syndrome was highly associated with the need for remedial TAAA procedures (P <.0001). Overall 30-day mortality was 11.4% (32). Mortality was independent of prior aortic surgery (P =.98), prior AAA (P =.84), prior TAAA (P =.61), and gender (P =.18). Postoperative complications were seen in 67 (24%) patients and were more likely in patients who had undergone prior AAA surgery (P =.008). TAAA repair in patients with recurrent TAAA was not associated with higher morbidity (P =.33). Paraplegia (10) occurred in type I (3), type II (2), and type III (5) aneurysms but not in type IV (0), and its development was associated with higher mortality (P =.01). Prior aortic surgery was not found to be predictive of paraplegia (P =.90), although 30% of patients who developed paraplegia had a history of prior AAA repair.

CONCLUSIONS

Aortic reoperation for TAAA is required in a significant number of patients, particularly those with Marfan syndrome. Therefore, ongoing surveillance of the residual aorta is mandatory. Postoperative complications are more likely to occur in patients after prior infrarenal aortic replacement, but mortality is not significantly increased. Special technical considerations exist for remedial procedures after failed TAAA repair to provide protection for the spinal cord, kidneys, and viscera. Patients with failed TAAA procedures or progression of aneurysmal extent should be offered reoperation when indicated.

Redo operation for thoracoaortic aneurysm after entire aortic replacement

Resection of a saccular aneurysm that developed in a remnant of aorta in a patient with Marfan's syndrome, who previously underwent aortic aneurysmectomy, is described. The intercostal arteries were reconstructed end-to-end using small-caliber interposition grafts to the aortic prosthesis. Preoperative magnetic resonance angiography identified the artery of Adamkiewicz and facilitated its preservation.

Aneurysmal expansion of the visceral patch after thoracoabdominal aortic replacement: an argument for limiting patch size?

INTRODUCTION

Thoracoabdominal aortic replacement requires visceral vessel revascularization and is usually performed with Crawford's inclusion technique or a large Carrel patch. This segment of retained native aorta may be prone to recurrent aneurysmal disease. We reviewed our experience with patients in whom aneurysmal expansion of the visceral patch was detected.

METHODS

The records of 107 patients undergoing thoracoabdominal aortic replacement operations performed or followed up at the Johns Hopkins Hospital between 1992 and 2000 were reviewed. All patients had visceral patches created for type II, III, or IV aneurysms. Visceral patches were considered aneurysmal if the maximal diameter of the aortic prosthesis and patch was 4.0 cm or more.

RESULTS

Patch aneurysmal expansion (mean, 5.4 cm) was detected in eight patients (7.5%). All three women had connective tissue disorders (mean age, 36 years), and all five men had atherosclerotic disease (mean age, 73 years). Five patients were symptom free with their aneurysms detected by surveillance computed tomography scans; two patients had back pain prompting computed tomography scans; and one patient presented with an emergency patch rupture. Aneurysmal patches were successfully revised in three patients. Two patients died in the operating room, and three patch aneurysms (< 5 cm) are still being observed. The mean time to the detection of aneurysmal expansion was 6.5 years after the original operation. Therapy consisted of replacement of a segment of the thoracoabdominal aortic graft and refashioning a smaller patch, including only the visceral artery orifices with separate attachment of the left and possibly right renal artery.

CONCLUSIONS

Although Crawford's inclusion method of visceral patch construction is generally durable, patients undergoing thoracoabdominal aortic replacement require yearly surveillance for the detection of aneurysmal expansion of the visceral patch. We recommend limiting visceral patch size at the original operation by routinely excluding the orifice of the left renal artery. Patients at high risk for recurrent aneurysmal expansion, such as those with connective tissue disorders, will benefit from creating small visceral patches and possibly implanting both renal arteries separately during the original operation.