F. Schlottmann1, N. S. Murty1, M. G. Patti1 1University Of North Carolina,Surgery,Chapel Hill, NC, USA
Introduction: The safe adoption of laparoscopic and robotic foregut surgery must maximize relevant training prior to transference to the clinical setting. A significant gap presently exists between box-lap and virtual-reality simulators and live surgery. Live animal and cadaver use have significant downsides. We have developed tissue-based simulator that allows for training in laparoscopic and robotic foregut operations.
Methods: Our foregut surgery model is based on porcine tissue blocks that include lungs, heart, aorta, esophagus, diaphragm, stomach, duodenum, liver and spleen. Tissue is preserved in an alcohol based solution that retains fresh tissue characteristics for several weeks. The tissue block is mounted in a human mannequin and perfused with artificial blood. The anterior abdominal wall is constructed so as to allow for laparoscopic and robotic surgical training (Figure 1). Five expert attending foregut surgeons performed laparoscopic and robotic Heller myotomy, Nissen fundoplication and sleeve gastrectomy on the model. After completing the procedures, face validity was measured by surgeon responses to a questionnaire defining the perceived relationship to real surgery, ranging from really unrealistic to highly realistic.
Results: The initial cost of the simulator is $400. Once the initial expenses are covered (male torso mannequin and silicone based abdominal wall), the simulator cost is approximately $50 for each surgical training session (tissue block + artificial blood). The simulator was rated as highly realistic in terms of operative space, organs size and shape, and instrument usage for all three procedures in both laparoscopic and robotic surgery. In addition, all surgeons felt the model could significantly shorten the learning curve for performing these procedures.
Conclusion: The results of this study show that our model, based on animal tissue blocks, is economical, easy to use, and offers a very realistic representation of laparoscopic and robotic foregut operations, thus achieving a high level of face validity. Further validation studies are needed to assess if skills acquired by using our surgical simulator are transferable to the clinical setting
