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Rocky Chun Chung Cheung; Jian Yang; Christian Fang; Man Fai Leung; Susan M. Bridges; George L. Tipoe – Anatomical Sciences Education, 2024
Difficulty in visualizing anatomical structures has been identified as a challenge in anatomy learning and the emergence of three-dimensional printed models (3DPMs) offers a potential solution. This study evaluated the effectiveness of 3DPMs for learning the arterial supply of the head and neck region. One hundred eighty-four undergraduate medical…
Descriptors: Instructional Materials, Anatomy, Human Body, Models
Tripodi, Nicholas; Kelly, Kate; Husaric, Maja; Wospil, Rebecca; Fleischmann, Michael; Johnston, Susan; Harkin, Katherine – Anatomical Sciences Education, 2020
Student engagement is known to have several positive effects on learning outcomes and can impact a student's university experience. High levels of engagement in content-heavy subjects can be difficult to attain. Due to a major institutional restructure, the anatomy prosection laboratory time per subject was dramatically reduced. In response, the…
Descriptors: Anatomy, Models, Visual Aids, College Freshmen
Rios, Vitor Passos; Bonfim, Vanessa Maria Gomes – Advances in Physiology Education, 2013
To address a common problem of teaching the sliding filament theory (that is, students have difficulty in visualizing how the component proteins of the sarcomere differ, how they organize themselves into a single working unit, and how they function in relation to each other), we have devised a simple model, with inexpensive materials, to be built…
Descriptors: Foreign Countries, Models, College Seniors, Biology
Tamura, Kaori; Stickley, Christopher D.; Labrash, Steven J.; Lozanoff, Scott – Athletic Training Education Journal, 2014
Context: Plastination techniques have emerged as effective methods for preserving human tissue and enabling human specimens to be utilized in a fashion similar to anatomical models with much greater accuracy. Opportunities to observe and experience human specimens in classroom settings should be beneficial to undergraduate and graduate students in…
Descriptors: Anatomy, Injuries, Athletics, Allied Health Occupations Education
Danforth, Douglas R. – International Journal of Virtual and Personal Learning Environments, 2010
One of the strengths of a virtual environment is the ability to immerse the occupant into an environment that would otherwise be impossible. The primary focus of the author's project in Second Life is to take advantage of this opportunity to explore novel approaches to medical education. Second Life can be used to model doctor-patient interaction,…
Descriptors: Simulated Environment, Computer Simulation, Educational Technology, Technology Uses in Education