High-fidelity simulation (HFS) training is suited to high-stakes, uncommon situations such as malignant spinal cord compression (MSCC), allowing for rare hands-on practice. This pilot study was created as the first of its kind to examine educational outcomes of a radiation therapist (RTT)-led multidisciplinary radiation oncology (RO) emergency simulation course. A multidisciplinary course design team composed of RO residents, radiation oncologists, RTT course instructors, and medical physicists created a high-fidelity MSCC simulation course using collaboratively developed learning goals. Fifteen learners including RO residents, senior RTT students, and a medical physics (MP) resident participated in a live, RTT-facilitated simulation. Participants completed anonymized pre- and post-simulation standard interdisciplinary education perception (IEP) scales and a course evaluation assessing educational outcomes. Standard IEP questionnaire results showed highly favorable perceptions of respondents' own specialty and other allied specialties, with mean total pre-simulation scores of 91.76 and post-simulation scores of 94.23. The course evaluation assessed 10 learning objective domains, with significant improvements seen in self-rated post-course knowledge in 9 domains. Pre-course evaluations showed that 6/15 participants agreed or strongly agreed that they felt comfortable in their knowledge of all included domains; after course completion, 14/15 participants agreed or strongly agreed they felt comfortable in all domains. Collaboratively designed and led HFS courses are not only viable but can be an effective means of improving learning outcomes for RO residents, RTT students, and MP residents.
Keywords: Clinical simulation; High fidelity simulation; Interdisciplinary; Multidisciplinary; Radiation Oncology.
© 2023. The Author(s) under exclusive licence to American Association for Cancer Education.