Amit Garg1, Heather-Lyn Haley, David Hatem. 1. Department of Dermatology, Boston University School of Medicine, 609 Albany St, Room J207, Boston, MA 02118, USA. agarg@bu.edu
Abstract
OBJECTIVES: To evaluate the effectiveness of a teaching method that uses 3-dimensional (3D) silicone-based prosthetic mimics of common serious lesions and eruptions and to compare learning outcomes with those achieved through the conventional method of lectures with 2-dimensional (2D) images. DESIGN: Prospective and comparative. SETTING: University of Massachusetts Medical School. PARTICIPANTS: Ninety second-year medical students. INTERVENTION: A 1-hour teaching intervention using a lecture with 2D images (2D group) or using 3D prosthetic mimics of lesions and eruptions (3D group). MAIN OUTCOME MEASURES: Mean scores in the domains of morphology, lesion and rash recognition, lesion and rash management, and overall performance assessed at baseline, immediately after, and 3 months after each group's respective teaching intervention. RESULTS: Immediately after the teaching intervention, the 3D group had significantly higher mean percentage scores than did the 2D group for overall performance (71 vs 65, P = .03), lesion recognition (65 vs 56, P = .02), and rash management (80 vs 67, P = .01). Three months later, the 3D group still had significantly higher mean percentage scores than did the 2D group for lesion recognition (47 vs 40, P = .03). The 3D group better recognized lesions at 3 months compared with at baseline, whereas the 2D group was no better at recognizing lesions at 3 months compared with at baseline. CONCLUSIONS: Despite limited curricular time, the novel teaching method using 3D prosthetic mimics of lesions and eruptions improves immediate and long-term learning outcomes, in particular, lesion recognition. It is also a preferred teaching format among second-year medical students.
RCT Entities:
OBJECTIVES: To evaluate the effectiveness of a teaching method that uses 3-dimensional (3D) silicone-based prosthetic mimics of common serious lesions and eruptions and to compare learning outcomes with those achieved through the conventional method of lectures with 2-dimensional (2D) images. DESIGN: Prospective and comparative. SETTING: University of Massachusetts Medical School. PARTICIPANTS: Ninety second-year medical students. INTERVENTION: A 1-hour teaching intervention using a lecture with 2D images (2D group) or using 3D prosthetic mimics of lesions and eruptions (3D group). MAIN OUTCOME MEASURES: Mean scores in the domains of morphology, lesion and rash recognition, lesion and rash management, and overall performance assessed at baseline, immediately after, and 3 months after each group's respective teaching intervention. RESULTS: Immediately after the teaching intervention, the 3D group had significantly higher mean percentage scores than did the 2D group for overall performance (71 vs 65, P = .03), lesion recognition (65 vs 56, P = .02), and rash management (80 vs 67, P = .01). Three months later, the 3D group still had significantly higher mean percentage scores than did the 2D group for lesion recognition (47 vs 40, P = .03). The 3D group better recognized lesions at 3 months compared with at baseline, whereas the 2D group was no better at recognizing lesions at 3 months compared with at baseline. CONCLUSIONS: Despite limited curricular time, the novel teaching method using 3D prosthetic mimics of lesions and eruptions improves immediate and long-term learning outcomes, in particular, lesion recognition. It is also a preferred teaching format among second-year medical students.
Authors: Roshan Dsouza; Darold R Spillman; Scott Barrows; Thomas Golemon; Stephen A Boppart Journal: Simul Healthc Date: 2021-12-01 Impact factor: 1.929
Authors: Daniel Bauer; Andrea C Lörwald; Sandra Wüst; Helmut Beltraminelli; Miria Germano; Adrian Michel; Kai P Schnabel Journal: BMC Med Educ Date: 2021-06-21 Impact factor: 2.463