Objective: The aim of our study was to analyze the incidence of spinal cord ischemia (SCI) in patients presenting with complex aortic aneurysms treated with endovascular aneurysm repair (EVAR) and to identify risk factors associated with this complication.Methods: A retrospective study was undertaken of prospectively collected data including patients presenting with complex aortic aneurysm (pararenal abdominal aortic aneurysm and thoracoabdominal aortic aneurysm) treated with fenestrated EVAR (F-EVAR) or branched EVAR (B-EVAR). The primary end point was the incidence of SCI and the assessment of any associated factors.Results: Between January 2011 and August 2017, a total of 243 patients (mean aneurysm diameter, 65.2 6 15.3 mm; mean age, 72.4 6 7.5 years; 73% male) were treated with F-EVAR or B-EVAR. Asymptomatic patients were treated in 73% of the cases (177/243, in contrast to 27% urgent), and 52% (126/243) were treated for thoracoabdominal aortic aneurysm (in contrast to 48% for pararenal abdominal aortic aneurysm). F-EVAR (mean number of fenestrations, 3.3/case) and B-EVAR (mean number of branches, 3.7/case) were undertaken in 67% (164/243) and 33% (79/243), respectively. The total incidence of SCI was 17.7% [43/243; paraplegia in 4% (10/243) and paraparesis in 13.7% (33/243)]. Most of the patients with SCI presented with immediate postoperative symptoms (72% [31/43]). A spinal drain was preoperatively placed in 53% (130/243) and was associated with the prevention of SCI (SCI with spinal drainage, 12% [16/130]; SCI without spinal drainage, 24% [27/113]; P ¼ .018). The 30-day mortality rate was 9% (21/243). After multiple logistic regression analysis, SCI was associated with preoperative renal function (SCI with preoperative glomerular filtration rate <60 mL/min/1.73 m 2 : odds ratio [OR], 2.43; 95% confidence interval [CI], 1.18-4.99; P ¼ .016) and the number of vertebral segments covered (SCI with higher position of proximal stent in terms of vertebra: OR, 1.2; 95% CI, 1.1-1.3; P ¼ .000). A similar outcome was derived when the height of the proximal end of the stent graft was replaced by the total length of aortic coverage (SCI with preoperative glomerular filtration rate <60 mL/min/1.73 m 2 : OR, 2.36 [95% CI, 1.11-5.00; P ¼ .025]; SCI with longer length of aortic coverage: OR, 1.01 [95% CI, 1.003-1.009; P ¼ .000]). Conclusions:The majority of SCI incidence after F-EVAR or B-EVAR of complex aortic aneurysms is manifested immediately postoperatively. The use of preoperative spinal drainage may prevent SCI. Patients with GRF <60 mL/min/1.73 m 2 and with longer aortic stent graft coverage are at higher risk of SCI.
WHAT THIS PAPER ADDS With one of the largest series of cervical debranching operations with 211 cases, the results of a single centre's experience are presented. Focusing on post-operative complications and graft patency, attempts are made to identify factors that influence outcome and discuss the findings. It is concluded that cervical debranching has some relevant local complications but that long-term patency is exceptional. Objective/Background: Debranching of the supra-aortic arteries is a common practice either as part of a hybrid treatment of aortic arch pathology or owing to arterial occlusive disease. Results of the debranching techniques have not been reported frequently. Methods: This was a retrospective single centre study of all consecutive patients with cervical debranching procedures as part of hybrid aortic arch repair. Results: Between 2010 and 2017, 201 patients underwent 211 cervical debranching procedures in a tertiary centre. Mean AE SD patient age was 67.7 AE 10.7 years (70.6% males; n ¼ 142/201) and mean AE SD body mass index (BMI) was 26.3 AE 5. In 78.7% of the cases carotidesubclavian bypass was performed alone (n ¼ 166/211) followed by transposition of the subclavian artery to the ipsilateral carotid (n ¼ 17/211; 8.1%) and in 28 cases (13.3%) a combination of procedures was performed. Twenty-four cases (11.4%) were complicated with local bleeding and 21 cases required re-intervention (10.4%). Nineteen patients (9.5%) developed local peripheral neurological damage post-operatively. Eight patients (3.8%) developed a chylous fistula and five (2.4%) presented with a local wound infection. One patient (0.5%) developed a bypass graft infection. The thirty day mortality was 7.6% (n ¼ 16/211): one death occurred after isolated debranching without thoracic endovascular aneurysm repair (TEVAR; 0.5%). Whether the hybrid procedures were undertaken in a single stage (simultaneous TEVAR and cervical debranching) or two stage fashion appeared to have a significant impact on 30 day mortality (single stage n ¼ 9/60 [15%] vs. debranching alone or two stage hybrid procedures n ¼ 7/144 [4.9%]; p ¼ .018). The major stroke incidence was 4.3% (n ¼ 9/211); no strokes occurred after isolated debranching. Stroke was correlated with longer operating times (odds ratio [OR] 1.006; 95% confidence interval [CI] 1.000e1.011; p ¼ .045) and higher BMI (OR 1.195; 95% CI 1.009e1.415; p ¼ .039). Mean AE SD follow up was 15 AE 17 months (range 0e89 months). Primary cumulative graft patency during follow up was 98.1% (n ¼ 207/211) and secondary patency was 100%. Conclusion: The results of cervical debranching procedures showed not only excellent patency rates, but also a significant rate of local complications. Carotidesubclavian bypass appeared to be safer with significantly fewer post-operative complications. Staged hybrid procedures also seemed to be safer.
Purpose To demonstrate a physiologically induced alternative to the typical methods of reducing cardiac output during deployment of stent-grafts in the aortic arch and proximal aorta. Technique A modified Valsalva maneuver, the Munich Valsalva implantation technique (MuVIT), to raise the intrathoracic pressure, minimize backflow, and reduce the cardiac output is illustrated in a patient undergoing a triple-branch thoracic endovascular aortic repair (TEVAR). During manual mechanical ventilation, the adjustable pressure-limiting valve is carefully closed to 25 mm Hg, creating “manual bloating” of the lungs and sustained apnea. The increased intrathoracic pressure causes compression of the vena cava and pulmonary veins, reducing the venous backflow and gradually decreasing the arterial pressure. Once the desired pressure is obtained, the stent-graft is accurately deployed. The airway pressure is thereupon slowly reduced, and the patient is taken back to normal ventilation. The procedure is then finished following standard practice. Conclusion The MuVIT is a simple, noninvasive technique for cardiac output reduction during aortic arch TEVAR, eliminating the need for other invasive techniques.
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