Biomechanical Parameters of Mesh Reinforcement and Analysis of a Novel Device for Incisional Hernia Prevention

Background: Prophylactic mesh augmentation (PMA) is an effective technique utilized to reduce the risk of incisional hernia. This study analyzes the biomechanical characteristics of a mesh-reinforced closure and evaluates a novel prophylactic mesh implantation device (SafeClose Roller System; SRS). Materials and methods: A total of eight senior-level general surgery trainees (>4 years of training) from the University of Pennsylvania Health System participated in the study. Biomechanical strength, mesh stiffness, mesh uniformity, and time efficiency for fixation were compared among hand-sewn mesh fixation, SRS mesh fixation and a no-mesh fixation control. Porcine abdominal wall specimens served as simulated laparotomy models. Results: Biomechanical load strength was significantly higher for mesh reinforced repairs (P = 0.009). The SRS resulted in a stronger biomechanical force than hand-sewn mesh (21.2 N stronger, P = 0.317), with more uniform mesh placement (P < 0.01), faster time of fixation (P < 0.001) and with less discrete hand-movements (P < 0.001). Conclusions: Mesh reinforcement for incisional reinforcement has a significant impact on the strength of the closure. The utilization of a mesh-application system has the potential to amplify the advantages of mesh reinforcement by providing efficiency and consistency to fixation methods, with similar biomechanical strength to hand-sewn mesh. Additional in vivo analysis and randomized controlled trials are needed to further assess clinical efficacy. (C) 2020 Elsevier Inc. All rights reserved.