TY - JOUR
T1 - Development of Educational Media for Medical Trainees Studying MRI Physics
T2 - Effect of Media Format on Learning and Engagement
AU - Day, Jeff
AU - Devers, Christopher J.
AU - Wu, Emily
AU - Devers, Erin E.
AU - Gomez, Erin
N1 - Publisher Copyright:
© 2022 American College of Radiology
PY - 2022/6
Y1 - 2022/6
N2 - Purpose: MRI physics is a challenging subject for radiology residents and comprises a significant portion of the ABR CORE examination, which must be passed to achieve board certification. Despite established needs for increased quality and quantity of radiology physics resources, there is little information regarding the most effective method of engaging learners and delivering this content. Methods: To assess trainee perceptions of currently available MRI physics learning resources, a needs assessment survey was distributed to current members and recent graduates of our diagnostic radiology residency program. Based on the results of the needs assessment, we created three different types of media illustrating the fundamentals of MRI physics: text with images, text with animations, and a narrated video. Formal evaluation of the media via an institutional review board–approved, experimentally designed study helped us better understand the impact that media format had on deep structure learning, efficiency, and engagement. Results: Respondents to the needs assessment indicated a desire for physics resources that were visually appealing with simplified details and associated practice questions. Participants demonstrated significant learning across all media formats but rated video as the most engaging media type. Conclusion: Knowledge of media attributes that positively impact trainee performance may inform content creators and educators alike when designing and distributing educational materials related to MRI physics.
AB - Purpose: MRI physics is a challenging subject for radiology residents and comprises a significant portion of the ABR CORE examination, which must be passed to achieve board certification. Despite established needs for increased quality and quantity of radiology physics resources, there is little information regarding the most effective method of engaging learners and delivering this content. Methods: To assess trainee perceptions of currently available MRI physics learning resources, a needs assessment survey was distributed to current members and recent graduates of our diagnostic radiology residency program. Based on the results of the needs assessment, we created three different types of media illustrating the fundamentals of MRI physics: text with images, text with animations, and a narrated video. Formal evaluation of the media via an institutional review board–approved, experimentally designed study helped us better understand the impact that media format had on deep structure learning, efficiency, and engagement. Results: Respondents to the needs assessment indicated a desire for physics resources that were visually appealing with simplified details and associated practice questions. Participants demonstrated significant learning across all media formats but rated video as the most engaging media type. Conclusion: Knowledge of media attributes that positively impact trainee performance may inform content creators and educators alike when designing and distributing educational materials related to MRI physics.
KW - Digital media
KW - MRI physics
KW - e-learning
KW - education
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U2 - 10.1016/j.jacr.2022.03.009
DO - 10.1016/j.jacr.2022.03.009
M3 - Article
C2 - 35452625
AN - SCOPUS:85128318513
SN - 1546-1440
VL - 19
SP - 711
EP - 721
JO - Journal of the American College of Radiology
JF - Journal of the American College of Radiology
IS - 6
ER -