Purpose: To analyze the structural variation of the aortic arch and the supra-aortic arteries and establish an average spatial configuration that would be a pattern for a "universal double fenestration" design for physician-modified endovascular grafts (PMEGs) used in total thoracic endovascular aortic repair (TEVAR). Materials and Methods: Aortic arch morphology was retrospectively analyzed by reviewing the preoperative thoracic computed tomography angiography scans in 33 consecutive patients (mean age 68 years; 27 men) treated between January 2017 and March 2019 using double-fenestrated PMEGs for zone 0 TEVAR. Image analysis was completed according to a standardized technique on a vascular workstation with center lumen line reconstruction for all measurements. Variations in branching pattern of the aortic arch were classified into 8 types. Results: The arch trunk configuration was type I in 26 patients (79%), type II in 5 (15%), type III in 1, and type IV in 1. Mean aortic diameters at the level of mid ascending aorta, innominate artery (IA), left common carotid artery (LCCA), and left subclavian artery (LSA) were 35.7±3.7, 34.2±4.5, 33.3±6.7, and 33.7±4.7 mm, respectively. Mean diameters of the trunk were 12.2±1.7, 7.5±1.4, and 8.0±0.8 mm, respectively. Mean longitudinal center to center lengths were 15.9±2.5 mm between the LSA and LCCA and 12.1±3.0 mm between the LCCA and IA. Mean clock positions using the LSA as reference were 12:50 for the IA and 12:05 for the LCCA. In 32 patients (97%) all the supra-aortic branch vessels fit perfectly inside two delimited areas defined by a proximal common square area of 30×30 mm for the IA and LCCA and a second distal 8-mm-diameter circle for the LSA. Conclusion: Variations of the aortic arch anatomy are numerous and common. A general morphological pattern is described that delimits the aortic area where these variations occur. This information can be utilized for the design of an off-the-shelf double-fenestrated stent-graft for zone 0 TEVAR.
Purpose: To analyze the structural variation of the aortic arch and the supra-aortic arteries and establish an average spatial configuration that would be a pattern for a "universal double fenestration" design for physician-modified endovascular grafts (PMEGs) used in total thoracic endovascular aortic repair (TEVAR). Materials and Methods: Aortic arch morphology was retrospectively analyzed by reviewing the preoperative thoracic computed tomography angiography scans in 33 consecutive patients (mean age 68 years; 27 men) treated between January 2017 and March 2019 using double-fenestrated PMEGs for zone 0 TEVAR. Image analysis was completed according to a standardized technique on a vascular workstation with center lumen line reconstruction for all measurements. Variations in branching pattern of the aortic arch were classified into 8 types. Results: The arch trunk configuration was type I in 26 patients (79%), type II in 5 (15%), type III in 1, and type IV in 1. Mean aortic diameters at the level of mid ascending aorta, innominate artery (IA), left common carotid artery (LCCA), and left subclavian artery (LSA) were 35.7±3.7, 34.2±4.5, 33.3±6.7, and 33.7±4.7 mm, respectively. Mean diameters of the trunk were 12.2±1.7, 7.5±1.4, and 8.0±0.8 mm, respectively. Mean longitudinal center to center lengths were 15.9±2.5 mm between the LSA and LCCA and 12.1±3.0 mm between the LCCA and IA. Mean clock positions using the LSA as reference were 12:50 for the IA and 12:05 for the LCCA. In 32 patients (97%) all the supra-aortic branch vessels fit perfectly inside two delimited areas defined by a proximal common square area of 30×30 mm for the IA and LCCA and a second distal 8-mm-diameter circle for the LSA. Conclusion: Variations of the aortic arch anatomy are numerous and common. A general morphological pattern is described that delimits the aortic area where these variations occur. This information can be utilized for the design of an off-the-shelf double-fenestrated stent-graft for zone 0 TEVAR.
Entities:
Keywords:
anatomy; aortic arch; aortic arch morphology; fenestrated stent-graft; innominate artery; left common carotid artery; left subclavian artery; supra-aortic branches; surgeon-modified stent-graft; thoracic aorta; thoracic endovascular aortic repair; zone 0 landing
Authors: Youcef Lounes; Lucien Chassin-Trubert; Thomas Gandet; Baris Ata Ozdemir; Antoine Peyron; Mariama Akodad; Pierre Alric; Ludovic Canaud Journal: Interact Cardiovasc Thorac Surg Date: 2021-05-27