Performance Variables and Professional Experience in Simulated Laparoscopy: A Two-Group Learning Curve Study

ObjectiveVirtual reality simulators are increasingly used in laparoscopy training. Such simulators allow objective assessment of performance. However, both low-level variables and overall scores generated by the simulator can be hard to interpret. We present a method to generate intermediate performance variables and show how the resulting variables can be used to investigate the development of laparoscopic skills.DesignA beginner group (n = 16) and a group with intermediate laparoscopic experience (n = 9) participated in a 5-session, basic skills training course hosted by the Department of Technical Medicine at the University of Twente. Multiple simulator-generated variables were aggregated into 4 performance variables: duration, left-hand motion, right-hand motion, and damage. Differences in performance were analyzed in relation to proficiency values.ResultsDamage performance differentiated the most between groups and proficiency values; motion performance variables differentiated the least. The more experienced group outperformed the beginner group at damage by the end of the course.ConclusionsDifferentiating between duration, left-hand motion, right-hand motion, and damage is a useful way to investigate laparoscopic performance development. Different performance variables follow different trajectories toward expertise. Valid and reliable clinical damage parameters are needed to investigate the relation of real-world damage to simulator damage.