OBJECTIVE: This study developed and validated a virtual reality (VR) simulator for use by interventional radiologists. BACKGROUND: Research in the area of skill acquisition reports practice as essential to become a task expert. Studies on simulation show skills learned in VR can be successfully transferred to a real-world task. Recently, with improvements in technology, VR simulators have been developed to allow complex medical procedures to be practiced without risking the patient. METHOD: Three studies are reported. In Study I, 35 consultant interventional radiologists took part in a cognitive task analysis to empirically establish the key competencies of the Seldinger procedure. In Study 2, 62 participants performed one simulated procedure, and their performance was compared by expertise. In Study 3, the transferability of simulator training to a real-world procedure was assessed with 14 trainees. RESULTS: Study I produced 23 key competencies that were implemented as performance measures in the simulator. Study 2 showed the simulator had both face and construct validity, although some issues were identified. Study 3 showed the group that had undergone simulator training received significantly higher mean performance ratings on a subsequent patient procedure. CONCLUSION: The findings of this study support the centrality of validation in the successful design of simulators and show the utility of simulators as a training device. APPLICATION: The studies show the key elements of a validation program for a simulator. In addition to task analysis and face and construct validities, the authors highlight the importance of transfer of training in validation studies.
OBJECTIVE: This study developed and validated a virtual reality (VR) simulator for use by interventional radiologists. BACKGROUND: Research in the area of skill acquisition reports practice as essential to become a task expert. Studies on simulation show skills learned in VR can be successfully transferred to a real-world task. Recently, with improvements in technology, VR simulators have been developed to allow complex medical procedures to be practiced without risking the patient. METHOD: Three studies are reported. In Study I, 35 consultant interventional radiologists took part in a cognitive task analysis to empirically establish the key competencies of the Seldinger procedure. In Study 2, 62 participants performed one simulated procedure, and their performance was compared by expertise. In Study 3, the transferability of simulator training to a real-world procedure was assessed with 14 trainees. RESULTS: Study I produced 23 key competencies that were implemented as performance measures in the simulator. Study 2 showed the simulator had both face and construct validity, although some issues were identified. Study 3 showed the group that had undergone simulator training received significantly higher mean performance ratings on a subsequent patient procedure. CONCLUSION: The findings of this study support the centrality of validation in the successful design of simulators and show the utility of simulators as a training device. APPLICATION: The studies show the key elements of a validation program for a simulator. In addition to task analysis and face and construct validities, the authors highlight the importance of transfer of training in validation studies.
Authors: Amine Chellali; Helena Mentis; Amie Miller; Woojin Ahn; Venkata S Arikatla; Ganesh Sankaranarayanan; Suvranu De; Steven D Schwaitzberg; Caroline G L Cao Journal: Int J Hum Comput Stud Date: 2016-07-09 Impact factor: 3.632
Authors: Mary Yovanoff; David Pepley; Katelin Mirkin; Jason Moore; David Han; Scarlett Miller Journal: Proc Hum Factors Ergon Soc Annu Meet Date: 2016-09-15