Embedding a Virtual Patient Simulator in an Interactive Surgical lecture

BACKGROUND: Lectures are traditionally used for teaching declarative knowledge. One established tool for clinical education is the demonstration of a real patient. The use of real patients in the daily clinical environment is increasingly difficult. The use of a virtual patient simulator (VPS) can potentially circumvent these problems. Unlimited availability and the opportunity of an electronic feedback system could possibly enrich traditional lectures by enabling more inter-activity that meets the expectations of the current student generation. As students face the consequences of their own decisions they take a more active role in the lecture. VPS links declarative knowledge with visual perception that is known to influence students' motivation. Until now, there have been no reports covering the usage and validation of interactive VPS for supporting traditional lectures. AIM: In this study, we (1) described the development of a custom-made three-dimensional (3D) VPS for supporting the traditional lecture and (2) performed a feasibility study including an initial assessment of this novel educational concepts. METHODS: Conceptualization included definition of curricular content, technical' realization and validation. A custom-made simulator was validated with 68 students. The degree of student acceptance was evaluated. Furthermore, the effect on knowledge gain was determined by testing prelecture and postlecture performance. RESULTS: A custom-made simulator prototype that displays a 3D virtual clinic environment was developed and linked to a PowerPoint presentation. Students were able to connect to the simulator via electronic devices (smartphones and tablets) and to control the simulator via majority vote. The simulator was used in 6 lectures and validated in 2 lectures with 68 students each. Student acceptance and their opinion about effectiveness and applicability were determined. Students showed a high level of motivation when using the simulator as most of them had fun using it. Effect on knowledge gain was proven by comparison of chosen therapeutic workflow before and after the lecture. Students showed significantly (p < 0.05) more correct answers in determination of the therapeutic workflow after the lecture. CONCLUSIONS: We successfully developed and evaluated a custom-made 3D VPS for supporting the traditional lecture. VPS is probably an effective instrument that might replace real patients in selected lectures and prepare students for bedside teaching. (C) 2016 Association of Program Directors in Surgery. Published by Elsevier Inc. All rights reserved.