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Direct linkYang, Jack X.; DeYoung, Veronica; Xue, Yuanxin; Nehru, Amit; Hildebrand, Alexandra; Brewer-Deluce, Danielle; Wainman, Bruce – Anatomical Sciences Education, 2023
Three-dimensional (3D) scanning and printing technology has allowed for the production of anatomical replicas at virtually any size. But what size optimizes the educational potential of 3D printing models? This study systematically investigates the effect of model size on nominal anatomy learning. The study population of 380 undergraduate…
Descriptors: Manipulative Materials, Anatomy, Computer Peripherals, Undergraduate Students
Harmon, Derek J.; Klein, Barbie A.; Im, Cecilia; Romero, Dylan – Anatomical Sciences Education, 2022
Three-dimensional (3D) printing technology has become more affordable, accessible, and relevant in healthcare, however, the knowledge of transforming medical images to physical prints still requires some level of training. Anatomy educators can play a pivotal role in introducing learners to 3D printing due to the spatial context inherent to…
Descriptors: Computer Peripherals, Printing, Anatomy, Spatial Ability
Yang, Mao-Yi; Tseng, Hsien-Chun; Liu, Chiung-Hui; Tsai, Shao-Yu; Chen, Jyun-Hsiung; Chu, Yin-Hung; Li, Shao-Ti; Lee, Jian-Jr; Liao, Wen-Chieh – Anatomical Sciences Education, 2023
Understanding the three-dimensional (3D) structure of the human skull is imperative for medical courses. However, medical students are overwhelmed by the spatial complexity of the skull. Separated polyvinyl chloride (PVC) bone models have advantages as learning tools, but they are fragile and expensive. This study aimed to reconstruct 3D-printed…
Descriptors: Computer Peripherals, Printing, Human Body, Anatomy
