Validating the virtual: a deep dive into ultrasound simulator metrics in otorhinolaryngology.

Abstract

This study aimed to assess the validity of simulation-based assessment of ultrasound skills for thyroid ultrasound. The study collected validity evidence for simulation-based ultrasound assessment of thyroid ultrasound skills.Experts (n = 8) and novices (n = 21) completed a test containing two tasks and four cases on a virtual reality ultrasound simulator (U/S Mentor's Neck Ultrasound Module). Validity evidence was collected and structured according to Messick's validity framework. The assessments being evaluated included built-in simulator metrics and expert-based evaluations using the Objective Structured Assessment of Ultrasound Skills (OSAUS) scale. Out of 64 built-in simulator metrics, 9 (14.1%) exhibited validity evidence. The internal consistency of these metrics was strong (Cronbach's α = 0.805) with high test-retest reliability (intraclass correlation coefficient = 0.911). Novices achieved an average score of 41.9% (SD = 24.3) of the maximum, contrasting with experts at 81.9% (SD = 16.7). Time comparisons indicated minor differences between experts (median: 359s) and novices (median: 376.5s). All OSAUS items differed significantly between the two groups. The correlation between correctly entered clinical findings and the OSAUS scores was 0.748 (p < 0.001). The correlation between correctly entered clinical findings and the metric scores was 0.801 (p < 0.001). While simulation-based training is promising, only 14% of built-in simulator metrics could discriminate between novices and ultrasound experts. Already-established competency frameworks such as OSAUS provided strong validity evidence for the assessment of otorhinolaryngology ultrasound competence.