The covered endovascular reconstruction of aortic bifurcation (CERAB) technique was described l in 2013 to reconstruct the aortic bifurcation in a more anatomical and physiological way. With the use of this technique, a covered stent is expanded 15 to 20 mm above the aortic bifurcation and this stent is proximally adapted to the aortic wall with a larger balloon, thereby creating a cone-shaped stent. Two iliac covered stents are then placed in the distal conic segment and simultaneously inflated, making a tight connection with the aortic stent, as if they were molded together, thus simulating a new bifurcation. This minimal invasive endovascular technique using covered stents, was developed in order to optimize endovascular mimicking the anatomical configuration of the aortic bifurcation and in an attempt to overcome the disadvantages of kissing stents influenced by geometric factors such as radial mismatch, protrusion mismatch and stent conformation. The use of BeGraft (balloon-expandalbe covered stent) and Solaris (self-expandable covered stent) fro this technique is revised.
The covered endovascular reconstruction of aortic bifurcation (CERAB) technique was described l in 2013 to reconstruct the aortic bifurcation in a more anatomical and physiological way. With the use of this technique, a covered stent is expanded 15 to 20 mm above the aortic bifurcation and this stent is proximally adapted to the aortic wall with a larger balloon, thereby creating a cone-shaped stent. Two iliac covered stents are then placed in the distal conic segment and simultaneously inflated, making a tight connection with the aortic stent, as if they were molded together, thus simulating a new bifurcation. This minimal invasive endovascular technique using covered stents, was developed in order to optimize endovascular mimicking the anatomical configuration of the aortic bifurcation and in an attempt to overcome the disadvantages of kissing stents influenced by geometric factors such as radial mismatch, protrusion mismatch and stent conformation. The use of BeGraft (balloon-expandalbe covered stent) and Solaris (self-expandable covered stent) fro this technique is revised. A retrospective study included patients that underwent endovascular treatment of atherosclerotic steno-occlusive aorto-iliac lesions between January 2020 and June 2023. The study, which received no financial support from industry, was performed in agreement with the Declaration of Helsinki and was approved by our institutional review boards. In accordance with institutional and local regulatory policies, this retrospective review of de-identified procedural and follow-up data was exempt from informed consent.
Study Type
OBSERVATIONAL
Enrollment
21
Covered endovascular reconstruction of aortic bifurcation (CERAB) in patient with aorto-iliac occlusive disease
Valladolid Univeristy Hospital
Valladolid, Spain
Primary patency
Absence of binary restenosis or reocclusion on duplex ultrasound examination without repeat target lesion interventions
Time frame: 12 months
Primary-assisted patency
Patent aoto-iliac segment that underwent further intervention within the inflow, treated vessel segment, or outflow of the treated vessel segment to improve patency
Time frame: 12 months
Secondary patency
Requiring a secondary intervention to restore patency after occlusion of the treated segment. Secondary interventions include PTA, drug-eluting balloon PTA (DEB-PTA), additional stent placement or surgical bypass based on clinical deterioration.
Time frame: 12 months
Mortality
Time frame: 12 months
Amputation rate
Major and minor amputation rate
Time frame: 12 months
Clinical status
Rutherford scale
Time frame: 12 months
ABI measurements
Ankle-Brachial index
Time frame: 12 months
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