Enhancing aortic anastomotic integrity: ex vivo evaluation of reinforcement techniques using Teflon-felt sandwich with mattress sutures.
Hironari No, Kenji Iino, Hirofumi Takemura, Chihiro Watanabe
Abstract
Open AccessPurpose: The success of aortic surgery depends on the durability and hemostatic properties of anastomotic techniques to prevent complications such as bleeding, thromboembolic events, and anastomotic disruption. This study evaluated the tensile strength of different suturing techniques ex vivo to assess their suitability for aortic procedures. Methods: Aortic wall specimens were obtained from porcine ascending aortae and anastomosed to vascular grafts using a 5-0 polypropylene monofilament suture. Four different suturing techniques were evaluated: simple interrupted sutures (Group A, n = 14), simple interrupted sutures with adventitial inversion and horizontal mattress sutures (Group B, n = 14), simple interrupted sutures with a Teflon-felt sandwich (TFS) (Group C, n = 14), and simple interrupted sutures with a TFS combined with horizontal mattress sutures (Group D, n = 14). The maximum tensile strength of each anastomosis was assessed. Results: The simple interrupted suture technique incorporating a TFS with horizontal mattress sutures (Group D) demonstrated significantly superior tensile strength compared with the other techniques (P < 0.001). Notably, in this group, the fracture site was near the Teflon horizontal mattress suture, whereas in the other groups, fractures occurred adjacent to the simple interrupted sutures. Conclusion: The TFS technique demonstrated superior tensile resilience among the studied methods, suggesting its potential advantage in aortic surgery. These findings provide a strong theoretical foundation for optimizing anastomotic techniques and warrant further in vivo investigation to validate their clinical applicability in enhancing surgical outcomes. Supplementary Information: The online version contains supplementary material available at 10.1007/s12055-025-02043-1.