Development and validation of a high‐quality simulator with exchangeable peritoneum for transabdominal preperitoneal laparoscopic inguinal hernia repair

Abstract

AbstractIntroductionPractical simulation training with proper haptic feedback and the fragility of the human body is required to overcome the long learning curve associated with laparoscopic inguinal hernia repair (LIHR). However, few hernia models accurately reflect the texture and fragility of the human body. Therefore, in this study, we developed a novel model for transabdominal preperitoneal (TAPP) LIHR training and evaluated its validity.MethodsWe developed a high‐quality mock peritoneum with a hydrated polyvinyl alcohol layer and a unique two‐way crossing cellulose fiber layer. To complete the simulation, the peritoneum was adhered to a urethane foam inguinal base with surgical landmarks. Participants could perform all the procedures required for the TAPP LIHR. Twenty‐four surgeons performed TAPP LIHR simulation using a novel simulator. Their opinions were rated on a 5‐point Likert scale. Additionally, 6 surgical residents and 10 surgical experts performed the procedure. Their performance was evaluated using the TAPP checklist score and procedure time.ResultsMost participants strongly agreed that the TAPP LIHR simulator with an exchangeable peritoneum model was useful. The participants agreed on the model fidelity for tactile sensation, forceps handling, and humanlike anatomy. In comparisons between surgical residents and experts, the experts had significantly higher scores (10.6 vs. 17.2, p < 0.05) and shorter procedure times (92.3 vs. 55.9 min; p < .05) than did surgical residents.ConclusionsWe developed a high‐quality exchangeable peritoneal model that mimics the human peritoneum's texture and fragility. This model enhances laparoscopic simulation training, potentially shortening TAPP LIHR learning curves.