Self-Directed Virtual Reality-Based Training versus Traditional Physician-Led Teaching for Point-of-Care Cardiac Ultrasound: A Randomized Controlled Study

Abstract

To assess the learning efficacy of self-directed virtual reality ultrasound simulators as an alternative to traditional physician-led teaching for cardiac point-of-care ultrasound (POCUS) training. Single blinded (observer), noninferiority, parallel group, randomized controlled study. Tertiary university hospital in Singapore. Forty-three medical students with no prior formal ultrasound training. Participants first completed an e-learning module on basic ultrasonography. Participants' baseline knowledge was subsequently assessed using a multiple-choice question (MCQ) test. Participants were then randomized to either physician-led (PL) teaching or independent learning with a virtual-reality (VR) simulator to learn the 4 cardiac POCUS views. A post-training MCQ test and a practical skills test scored by 2 blinded assessors were conducted. Students repeated the MCQ test and skills test 1 month later. The VR group had higher baseline MCQ scores compared to the PL group (mean, 13.4 v 10.7). Immediately post-training, the PL group had a greater improvement in mean MCQ scores (from baseline) and higher total practical scores compared to the VR group (p = 0.03 and p < 0.01, respectively). At 1 month post-training, the PL group similarly had a greater mean change from baseline MCQ scores, but this difference was not statistically significant (p = 0.12). For practical scores, the VR group scored higher than the PL group, although this difference was not statistically significant (p = 0.06). Our study demonstrates that at 1 month post-training, self-directed VR training was noninferior to PL training. Although differences observed were not significant, there were trends to suggest enhanced retention of knowledge and skills with VR learning.