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The Impact of Spatial Ability on Learning with a 3D Stereoscopic Model of the Mediastinum
Author(s) -
Labranche Leah,
Terrell Mark,
Wilson Tim D.,
Carty Nancy,
Kulesza Randy J.
Publication year - 2020
Publication title -
the faseb journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.709
H-Index - 277
eISSN - 1530-6860
pISSN - 0892-6638
DOI - 10.1096/fasebj.2020.34.s1.02988
Subject(s) - stereoscopy , cadaveric spasm , gross anatomy , test (biology) , medicine , mediastinum , anatomy , psychology , computer science , artificial intelligence , biology , paleontology
Three‐dimensional (3D) stereoscopic anatomy models have shown success in demonstrating complex spatial anatomical relationships. However, there is conflicting evidence as to whether or not such models are beneficial for students with low spatial visualization ability (Vz). A previous study suggests that students with low Vz may be hindered by the complex spatial cues provided by a 3D stereoscopic resource compared to students with high Vz. This study aimed to investigate the educational effectiveness of a digital 3D stereoscopic model of the human mediastinum, compared to a cadaveric specimen, for novice students in a biomedical masters‐level graduate program. In addition, this study aimed to further examine the effect of Vz on learning with a 3D stereoscopic anatomy model. We hypothesized that participants learning with the 3D stereoscopic model of the mediastinum would improve performance overall on an anatomy knowledge post‐test more than participants learning with a cadaveric specimen, and that high Vz participants would benefit more from the use of the 3D stereoscopic model compared to their low Vz counterparts. In addition, we hypothesized that participants learning with the 3D model of the mediastinum would rate the model more favorably on a post‐session survey compared to those learning with a cadaveric specimen. Participants were recruited from the Master of Medical Science (MMS) program at Lake Erie College of Osteopathic Medicine (LECOM), prior to the start of their Gross Anatomy course. Participants completed a demographic survey and Mental Rotations Test (MRT) pretest to determine their level of Vz. Participants were then assigned to either a 3D Group or a Cadaver Group, normalized for MRT score and sex. Each group was invited to a brief learning session using either a 3D stereoscopic model or cadaveric specimen of the mediastinum respectively. The 3D model was developed at LECOM using Amira ® software, and projected stereoscopically using a dual projection system. All participants completed a pre‐ and post‐test in each session, consisting of spatially‐oriented multiple choice questions pertaining to anatomy of the mediastinum. Student satisfaction with either resource was also examined using a qualitative survey. Data collection and analysis will be completed in Spring 2020. Results of this study should be considered when developing and implementing anatomical resources for health professional education, to maximize learning for students of varying Vz. Support or Funding Information Funded by the Lake Erie Consortium for Osteopathic Medical Training and the LECOM Internal Seed Grant