A 3D-Printed Educational Model for First-Line Management of BPPV in Emergency Departments.

Background: We present a feasibility study on the development of a 3D-printed (3DP) model of benign paroxysmal positional vertigo (BPPV) and its validation as an educational tool for training in therapeutic maneuvers.

Methods: A 1.5:1 3DP model of the human labyrinth, supplemented by a 1:1 3DP model of the skull, was obtained from a computed tomography scan. We presented the model to 15 Emergency Medicine residents, 15 medical students, 15 Otolaryngology residents, and 15 Otolaryngology practitioners from two academic referral centers. Participants performed the Semont and Epley maneuvers on the model twice, once before and once after observing the biomechanics of BPPV using this tool. A specific survey was then administered to assess both performance improvement and satisfaction.

Results: All the trainees demonstrated an improving trend on the second attempt. The medical students ameliorated significantly after the training in both Epley ( = 0.007) and Semont maneuvers ( = 0.0134). The Emergency Medicine residents improved significantly in Semont maneuvers ( = 0.0134). Self-reported understanding of the BPPV mechanics improved significantly after training in all the groups ( < 0.05).

Conclusions: The preliminary data highlighted the potential benefits of training on the 3DP model for practitioners involved in the first-line management of BPPV.