Abstract
OBJECTIVE: The Bentall procedure is a well-established surgical technique for managing aortic root disease involving the ascending aorta and aortic valve. The use of automated suturing technology may facilitate ergonomic, reliable suture placement, especially in minimally invasive approaches. Here we present the results of a study to evaluate the feasibility of using automated suturing technology for Bentall procedures in an ex vivo porcine model using a passive beating heart simulator. METHODS: This study included 20 ex vivo porcine hearts, divided into an automated suturing cohort (n = 10) and a manual suturing cohort (n = 10). A Bentall procedure was performed on each heart, with the subject automated suturing technology used in place of manual suturing in the first cohort. After the procedure, each heart was tested in a passive beating heart testing simulator under increasingly challenging hemodynamic conditions (80, 100, and 120 mm Hg); any fluid leakage at the proximal anastomosis was quantified. Data were analyzed using nonparametric statistical tests. RESULTS: Overall, leakage from the proximal anastomosis increased with higher pressure and longer duration in both groups (P < 0.001). There was no statistically significant difference in leakage between the automated and manual suture cohorts (P > 0.05), indicating that the study technology appears to be feasible and effective for placing sutures in Bentall procedures. Correlation analysis indicated a moderate positive relationship between aortic pressure and leakage in both groups. CONCLUSIONS: The subject automated suturing technology demonstrated comparable performance to manual suturing in ex vivo Bentall procedures, with no significantly different leakage across a range of increasing aortic pressures.