Dissecting human anatomy learning process through anatomical education with augmented reality: AEducAR 2.0, an updated interdisciplinary study

IF 5.2 2区 教育学 Q1 EDUCATION, SCIENTIFIC DISCIPLINES Anatomical Sciences Education Pub Date : 2024-03-23 DOI:10.1002/ase.2389
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
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Abstract

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 second-year medical students at the International School of Medicine and Surgery of the University of Bologna. An interdisciplinary team of anatomists, maxillofacial surgeons, biomedical engineers, and educational scientists collaborated to ensure a comprehensive understanding of the study's objectives. Students used the updated version of AEducAR, named AEducAR 2.0, to study three anatomical topics, specifically the orbit zone, facial bones, and mimic muscles. AEducAR 2.0 offered two learning activities: one explorative and one interactive. Following each activity, students took a test to assess learning outcomes. Students also completed an anonymous questionnaire to provide background information and offer their perceptions of the activity. Additionally, 10 students participated in interviews for further insights. The results demonstrated that AEducAR 2.0 effectively facilitated learning and students' engagement. Students totalized high scores in both quizzes and declared to have appreciated the interactive features that were implemented. Moreover, interviews shed light on the interesting topic of blended learning. In particular, the present study suggests that incorporating AR into medical education alongside traditional methods might prove advantageous for students' academic and future professional endeavors. In this light, this study contributes to the growing research emphasizing the potential role of AR in shaping the future of medical education.

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通过增强现实技术开展解剖学教育,剖析人体解剖学学习过程:AEducAR 2.0,一项最新的跨学科研究。
解剖学教育对医学生至关重要,而增强现实(AR)等创新技术正在改变这一领域。本研究旨在增强博洛尼亚大学开发的 AR 工具 AEducAR 原型的互动功能,并探索其对博洛尼亚大学国际医学和外科学学院 130 名二年级医学生人体解剖学学习过程的影响。一个由解剖学家、颌面外科医生、生物医学工程师和教育科学家组成的跨学科团队通力合作,以确保对研究目标的全面理解。学生们使用更新版的 AEducAR(AEducAR 2.0)学习三个解剖主题,特别是眼眶区、面部骨骼和模仿肌肉。AEducAR 2.0 提供了两种学习活动:一种是探索性活动,一种是互动性活动。每项活动结束后,学生都要进行一次测试,以评估学习成果。学生们还填写了一份匿名问卷,以提供背景信息和对活动的看法。此外,10 名学生还参加了访谈,以进一步了解情况。结果表明,AEducAR 2.0 有效地促进了学习和学生的参与。学生们在两次测验中都获得了高分,并表示非常欣赏所实施的互动功能。此外,访谈还揭示了混合式学习这一有趣的话题。特别是,本研究表明,将 AR 与传统方法一起纳入医学教育,可能会对学生的学业和未来的职业发展有利。有鉴于此,本研究为越来越多的强调 AR 在塑造未来医学教育中的潜在作用的研究做出了贡献。
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来源期刊
Anatomical Sciences Education
Anatomical Sciences Education Anatomy/education-
CiteScore
10.30
自引率
39.70%
发文量
91
期刊介绍: Anatomical Sciences Education, affiliated with the American Association for Anatomy, serves as an international platform for sharing ideas, innovations, and research related to education in anatomical sciences. Covering gross anatomy, embryology, histology, and neurosciences, the journal addresses education at various levels, including undergraduate, graduate, post-graduate, allied health, medical (both allopathic and osteopathic), and dental. It fosters collaboration and discussion in the field of anatomical sciences education.
期刊最新文献
Refocusing graduate gross anatomy training: Curating future content experts. Anatomical Sciences Education Vol. 17, Issue 8, 2024 Cover Image Editorial Board and Table of Contents Comparing assisting technologies for proficiency in cardiac morphology: 3D printing and mixed reality versus CT slice images for morphological understanding of congenital heart defects by medical students. Effect of peer facilitation in anatomy small group curriculum on academic performance and retention: A pilot study.
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