Objective: To report the outcome of fenestrated and branch endovascular aortic repair (FEVAR-BEVAR) for asymptomatic and acute symptomatic proximal aortic pathology in patients with prior open (OSR) or endovascular (EVAR) abdominal aortic aneurysm (AAA) repair.
Methods: This was a single centre retrospective study of consecutive patients with non-ruptured (asymptomatic and acute symptomatic) proximal aortic pathology after prior OSR or EVAR treated between December 2007 and February 2020. The primary endpoint was 30 day/in hospital mortality. Secondary endpoints were technical success, primary clinical success, and Kaplan-Meier estimates of medium term survival and freedom from re-intervention. Data are presented as median (interquartile range [IQR]). The effect of covariates on medium term survival was estimated using multivariable (Cox proportional hazards model) analysis. A p value < .05 was considered to be statistically significant.
Results: Ninety-two patients (83 men; median age 75 years [IQR 71 - 80 years]; median diameter 73 mm [IQR 64 - 89 mm]; 82 elective, 10 acute) underwent FEVAR-BEVAR after prior OSR (n = 47) or EVAR (n = 45). Indications for intervention were aneurysmal degeneration with or without type 1a endoleak (n = 57; four juxtarenal [JR] AAA, 21 extent II/III, 32 extent IV thoraco-abdominal aortic aneurysms); type 1a endoleak alone (n = 27) and to create a more durable repair after acute infrarenal EVAR (n = 8; JRAAA). In total, 348 renovisceral vessels were targeted for preservation and 324 were stent grafted. Twenty-four unstented vessels comprised one bypass, 11 scallops and six fenestrations intentionally not stent grafted, two vessels occluded before graft implantation, and four vessels occluded intra-operatively. Primary technical success was 95.6%. The thirty day mortality rate was 1.1% and one patient each (1.1%) required permanent dialysis or developed temporary spinal cord ischaemia. Early primary clinical success was 94.6%. Median follow up was 36 months (IQR 23 - 64 months). Estimated overall survival (± standard error) at one, two, and three years was 86% ± 4%, 85% ± 4%, and 70% ± 5%, respectively. Multivariable analysis did not demonstrate any independent predictors of survival. Four target vessels occluded during follow up. Nineteen patients underwent 28 late re-interventions, with almost half performed for issues arising distal to the FEVAR-BEVAR. Patients treated with a cuff were statistically significantly more likely to require distal re-intervention compared with those treated by relining (9/49 vs. 1/43, p = .018 [odds ratio 9.3, 95% confidence interval 1.2 - 423]). In patients with prior EVAR alone, this did not reach statistical significance (cuff 7/25 vs. relining 1/20, p = .059 [odds ratio 7.1, 95% confidence interval 0.8 - 350]). Estimated freedom from re-intervention at one, two, and three years was 88% ± 3%, 81% ± 4%, and 81% ± 4%, respectively.
Conclusion: FEVAR-BEVAR after prior OSR or EVAR is associated with low peri-operative morbidity and mortality, and acceptable medium term survival and freedom from re-intervention. Treatment with a FEVAR-BEVAR cuff is associated with a higher requirement for distal re-intervention than relining of the original repair.
Keywords: Complex endovascular repair; Previous aortic surgery.
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