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Direct linkVandenbossche, Vicky; Van de Velde, Joris; Avet, Stind; Willaert, Wouter; Soltvedt, Stian; Smit, Noeska; Audenaert, Emmanuel – Anatomical Sciences Education, 2022
High-fidelity anatomical models can be produced with three-dimensional (3D) scanning techniques and as such be digitally preserved, archived, and subsequently rendered through various media. Here, a novel methodology--digital body preservation--is presented for combining and matching scan geometry with radiographic imaging. The technique…
Descriptors: Anatomy, Computer Software, Computer Simulation, Science Instruction
Sander, Ian M.; McGoldrick, Matthew T.; Helms, My N.; Betts, Aislinn; van Avermaete, Anthony; Owers, Elizabeth; Doney, Evan; Liepert, Taimi; Niebur, Glen; Liepert, Douglas; Leevy, W. Matthew – Anatomical Sciences Education, 2017
Advances in three-dimensional (3D) printing allow for digital files to be turned into a "printed" physical product. For example, complex anatomical models derived from clinical or pre-clinical X-ray computed tomography (CT) data of patients or research specimens can be constructed using various printable materials. Although 3D printing…
Descriptors: Radiology, Computer Simulation, Anatomy, Computer Uses in Education
Shin, Dong Sun; Chung, Min Suk; Park, Hyo Seok; Park, Jin Seo; Hwang, Sung Bae – Anatomical Sciences Education, 2011
The interpretation of computed tomographs (CTs) and magnetic resonance images (MRIs) to diagnose clinical conditions requires basic knowledge of sectional anatomy. Sectional anatomy has traditionally been taught using sectioned cadavers, atlases, and/or computer software. The computer software commonly used for this subject is practical and…
Descriptors: Medical Students, Intervals, Computer Assisted Instruction, Computer Software
