Abstract
The aim of this study was to assess predictors of technical complexity of minimally invasive aortic root repairs (MIARR) performed through J-shaped mini-sternotomies in patients with aortic root aneurysm. This study included 49 patients with aortic root aneurysm who underwent MIARR via an upper median J-shaped mini-sternotomy between January 2017 and April 2020. Preoperative high-resolution computed tomographic images synchronised with electrocardiography were mandatory for inclusion. Predictors of technical complexity were identified, and a scoring system was created. The correlation between technical complexity and intraoperative/postoperative parameters was explored. There was a significant association between technical complexity and increased procedure time (Spearmen's ρ=-0.45, P=0.001), blood loss (Spearmen's ρ=-0.384, P=0.006), cardiopulmonary bypass time (Spearmen's ρ=-0.301, P=0.035), and postoperative bleeding (Spearmen's ρ=-0.265, P=0.066). The anatomical aorta-sternal relationship (distance of >22.1 mm in the axial plane between the midline of the sternotomy plane and the left coronary), distance between the sternal notch and the aortic valve annulus (>14.5 cm in the sagittal plane), distance between the skin and the left coronary artery (>9.53 cm in the axial plane), obesity (Body Mass Index >30), and-diameter at the brachiocephalic trunk level (>37 mm), were strongly associated with procedural complexity. Overall test accuracy was 75.5%, sensitivity was 73.1%, and specificity 78.3%. Finally, we created an online calculator that surgeons can use to determine the probability of a technically difficult of MIARR based on these factors. This novel scoring system can be used to assess the technical complexity of minimally invasive aortic root repairs and to aid in preoperative planning.
Published Version
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