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Showing 1 to 15 of 67 results Save | Export
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Nan Jiang; Zhongling Jiang; Yufeng Huang; Mingju Sun; Xuejing Sun; Yanjun Huan; Fangzheng Li – Anatomical Sciences Education, 2024
Veterinary anatomy plays a crucial role in the curriculum for veterinary medicine and surgery. The integration of modern information technology in veterinary education can greatly benefit from innovative tools such as augmented reality (AR) applications. The aim of this study was to develop an accurate and interactive three-dimensional (3D)…
Descriptors: Foreign Countries, Veterinary Medical Education, Anatomy, Computer Simulation
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Nadav Aridan; Michal Bernstein-Eliav; Dana Gamzo; Maya Schmeidler; Niv Tik; Ido Tavor – Anatomical Sciences Education, 2024
Anatomy studies are an essential part of medical training. The study of neuroanatomy in particular presents students with a unique challenge of three-dimensional spatial understanding. Virtual Reality (VR) has been suggested to address this challenge, yet the majority of previous reports have implemented computer-generated or imaging-based models…
Descriptors: Anatomy, Neurology, Electronic Learning, Computer Simulation
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Yusuf Kalinkara; Oguzhan Özdemir – Anatomical Sciences Education, 2024
The impact of technology on educational domains has been a subject of research for many years. Therefore, understanding how students perceive and utilize technologies for educational purposes is crucial. Especially in a critical subject like anatomy education, it is essential to employ various models to determine students' technology acceptance…
Descriptors: Educational Technology, Technology Uses in Education, Anatomy, College Students
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Mélanie Gallot; Franck di Rienzo; Marion Binay; Christian Collet; Nady Hoyek – Anatomical Sciences Education, 2024
Human anatomy requires understanding spatial relationships among anatomical structures and is often perceived as difficult to learn by students. To overcome this concern, several digital tools exist with some strengths and limitations among which the lack of interactivity especially for complex functional anatomy learning. In this way, a new…
Descriptors: Anatomy, Technology Uses in Education, Interaction, Kinesiology
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Paloma García-Robles; Irene Cortés-Pérez; Francisco Antonio Nieto-Escámez; Héctor García-López; Esteban Obrero-Gaitán; María Catalina Osuna-Pérez – Anatomical Sciences Education, 2024
The purpose of this review was to (1) analyze the effectiveness of immersive virtual reality (iVR) and augmented reality (AR) as teaching/learning resources (collectively called XR-technologies) for gaining anatomy knowledge compared to traditional approaches and (2) gauge students' perceptions of the usefulness of these technologies as learning…
Descriptors: Computer Simulation, Physical Environment, Simulated Environment, Anatomy
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Nicolas Van Vlasselaer; Benyameen Keelson; Aldo Scafoglieri; Erik Cattrysse – Anatomical Sciences Education, 2024
In anatomical research and education, three-dimensional visualization of anatomical structures is crucial for understanding spatial relationships in diagnostics, surgical planning, and teaching. While computed tomography (CT) and magnetic resonance imaging (MRI) offer valuable insights, they are often expensive and require specialized resources.…
Descriptors: Anatomy, Scientific Research, Science Instruction, Visual Aids
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Seth M. Alexander; Kaylyn B. Pogson-Morowitz; Corey S. Johnson – Anatomical Sciences Education, 2024
Three-dimensional (3D) modeling is a recent, innovative approach to teaching anatomy. There is little literature, however, to suggest how 3D modeling is best used to teach students and whether or not students can gain the same level of understanding as they might use more traditional, hands-on, teaching methods. This study evaluated the use of a…
Descriptors: Models, Anatomy, Visual Aids, Teaching Methods
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Irene Neri; Laura Cercenelli; Massimo Marcuccio; Simone Lodi; Foteini-Dionysia Koufi; Antonietta Fazio; Maria Vittoria Marvi; Emanuela Marcelli; Anna Maria Billi; Alessandra Ruggeri; Achille Tarsitano; Lucia Manzoli; Giovanni Badiali; Stefano Ratti – Anatomical Sciences Education, 2024
Anatomical education is pivotal for medical students, and innovative technologies like augmented reality (AR) are transforming the field. This study aimed to enhance the interactive features of the "AEducAR" prototype, an AR tool developed by the University of Bologna, and explore its impact on human anatomy learning process in 130…
Descriptors: Anatomy, Medical Education, Human Body, Computer Simulation
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Alex Morichon; Guillaume Dannhoff; Laurent Barantin; Christophe Destrieux; Igor Lima Maldonado – Anatomical Sciences Education, 2024
Traditional teaching methods struggle to convey three-dimensional concepts effectively. While 3D virtual models and virtual reality platforms offer a promising approach to teaching anatomy, their cost and specialized equipment pose limitations, especially in disadvantaged areas. A simpler alternative is to use virtual 3D models displayed on…
Descriptors: Anatomy, Models, Handheld Devices, Telecommunications
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Oliveira, André de Sá Braga; Leonel, Luciano César P. C.; LaHood, Edward R.; Hallak, Hana; Link, Michael J.; Maleszewski, Joseph J.; Pinheiro-Neto, Carlos D.; Morris, Jonathan M.; Peris-Celda, Maria – Anatomical Sciences Education, 2023
Hands-on dissections using cadaveric tissues for neuroanatomical education are not easily available in many educational institutions due to financial, safety, and ethical factors. Supplementary pedagogical tools, for instance, 3D models of anatomical specimens acquired with photogrammetry are an efficient alternative to democratize the 3D…
Descriptors: Guidelines, Anatomy, Computer Simulation, Models
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Palleiko, Benjamin A.; Maxfield, Mark W.; Czerniach, Donald R.; Cherng, Nicole B.; Giannaris, Eustathia Lela – Anatomical Sciences Education, 2023
There has been a recent shift in medical student anatomy education with greater incorporation of virtual resources. Multiple approaches to virtual anatomy resources have been described, but few involve video or images from surgical procedures. In this pilot study, a series of surgical case videos was created using robotic surgery video footage for…
Descriptors: Pilot Projects, Robotics, Surgery, Medical Students
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McBain, Kimberly; Chen, Liang; Lee, Angela; O'Brien, Jeremy; Ventura, Nicole M.; Noël, Geoffroy P. J. C. – Anatomical Sciences Education, 2023
Augmented reality (AR) has recently been utilized as an integrative teaching tool in medical curricula given its ability to view virtual objects while interacting with the physical environment. The evidence for AR in medical training, however, is limited. For this reason, the purpose of this mixed method study was to evaluate the implementation of…
Descriptors: Donors, Human Body, Anatomy, Computer Simulation
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Jinga, Maria-Ruxandra; Lee, Rachel B. Y.; Chan, Kai Lok; Marway, Prabhvir S.; Nandapalan, Krishan; Rhode, Kawal; Kui, Christopher; Lee, Matthew – Anatomical Sciences Education, 2023
Three-dimensional (3D) segmentation, a process involving digitally marking anatomical structures on cross-sectional images such as computed tomography (CT), and 3D printing (3DP) are being increasingly utilized in medical education. Exposure to this technology within medical schools and hospitals remains limited in the United Kingdom. M3dicube UK,…
Descriptors: Computer Simulation, Computer Peripherals, Printing, Anatomy
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Friel, Karen J.; Shultz, S. Tyler – Anatomical Sciences Education, 2023
Anatomy serves as a foundational course in physical therapy education, but, due to its early placement in the curriculum, may have limited clinical application at that point of a student's education. Thus, augmenting a standard dissection course with surgical procedures can enhance the clinical relevance and knowledge of the anatomical structures…
Descriptors: Human Body, Anatomy, Donors, Surgery
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Lunn-Collier, Robyn; Layman-Lemphane, Jodie I.; Baatjes, Karin J.; Correia, Janine – Anatomical Sciences Education, 2022
Anatomical science is a fundamental element of undergraduate medical education; thus, it is imperative that the course serves future medical professionals when entering clinical practice. However, anatomical education has faced challenges in recent years including decreased allocated time, increased class sizes and over-stretched staff.…
Descriptors: Foreign Countries, Relevance (Education), Anatomy, Medical Education
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