Background: The Covered Endovascular Reconstruction of the Aortic Bifurcation (CERAB) reconstruction is an endovascular technique, developed to reconstruct the aortic bifurcation in the most optimal anatomical and physiological manner. Short-term data were promising, but long-term data are still lacking. The objective was to report the long-term outcomes of CERAB for extensive aorto-iliac occlusive disease and to identify predictors for loss of primary patency. Methods: Consecutive electively treated patients with CERAB for aorto-iliac occlusive disease in a single hospital were identified and analyzed. Baseline and procedural data and follow-up were collected at 6-weeks, 6 months, 12 months, and annually thereafter. Technical success, procedural, and 30-day complications were evaluated, as well as overall survival. Patency and freedom from target lesion revascularization rates were analyzed using Kaplan Meier curves. Uni- and multivariate analysis were performed to identify possible predictors of failure. Results: One hundred and sixty patients were included (79 male). Indication for treatment was intermittent claudication for 121 patients (75.6%) and 133 patients (83.1%) had a TASC-II D lesion. Technical success was obtained in 95.6% of patients and the 30-day mortality rate was 1.3%. The 5-year primary, primary-assisted, and secondary patency rates were 77.5%, 88.1%, and 95.0%, respectively, with a freedom-from clinically driven target lesion revascularization (CD-TLR) rate of 84.4%. The strongest predictor of loss of primary patency of CERAB was a previous aorto-iliac intervention (odds ratio [OR]=5.36 (95% confidence interval [CI]: 1.30; 22.07), p=0.020). In patients not previously treated in the aorto-iliac tract, 5-year primary, primary assisted, and secondary patency rates were 85.1%, 94.4%, and 96.9%, respectively. At 5-year follow-up, an improved Rutherford was found in 97.9% of patients and the freedom from major amputation rate was 100%. Conclusion: The CERAB technique is related to good long-term outcomes, particularly in primary cases. In patients that had prior treatment for aorto-iliac occlusive disease, there were more reinterventions and therefore surveillance should likely be more intense. Clinical Impact The Covered Endovascular Reconstruction of the Aortic Bifurcation (CERAB) reconstruction was designed to improve outcomes of endovascular treatment of extensive aorto-iliac occlusive disease. At 5-year follow-up clinical improvement was found in 97.9% of patients without major amputations. The 5-year overall primary, primary-assisted, and secondary patency rates were 77.5%, 88.1%, and 95.0%, respectively, with a freedom-from clinically driven target lesion revascularization rate of 84.4%. Significantly better patency rates were observed for patients that were never treated before in the target area. The data implicate that CERAB are a valid treatment option for patients with extensive aorto-iliac occlusive disease. For patients previously treated in the target area, other treatment options might be considered, or more intensive follow-up surveillance is warranted.
Endovascular treatment options of aorto-iliac occlusive disease have emerged, leading to better outcomes in more complex pathology, which typically involves a reconstruction of the aortic bifurcation. The Covered Endovascular Reconstruction of Aortic Bifurcation (CERAB) configuration was introduced in 2013, in an attempt to optimize outcomes, when compared to the kissing stent configuration, which was traditionally the preferred endovascular technique for this pathology. CERAB aims to optimize geometry, and with that the arterial flow patterns that are associated with loss of patency. In CERAB, the aortic bifurcation is reconstructed using three balloon-expandable covered stents in a tight connection with each other and with an appropriate wall apposition, thereby minimizing geometrical mismatch (Fig. 1a–c). The reconstruction can be extended on both sides and could be combined with chimney, or parallel, grafts in aortic side branches that need to be preserved. In the current paper, the details of the CERAB technique are described and supported by evidence derived from pre-clinical studies that confirm the more optimal geometry and flow patterns compared to kissing stents. Also, a summary is provided of published clinical evidence, including technical and clinical outcomes of the technique. These data show promising early results, with patency rates in line with those achieved with open surgery, also in patients with extensive disease. Finally, the potential modes of failures and future developments are discussed.
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