通过增强现实应用的心脏病学跨学科教学

Chooi Yeng Lee, Kevin Moffat, Philippa Harris, Irwyn Shepherd, Paul McIntosh
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引用次数: 0

摘要

本科健康科学和健康专业学位课程向学生介绍常见的心脏病和相关治疗,包括心房颤动(AF)。我们的学生,生物医学和药学二年级的学生,通过对他们在心脏病学学习经验的正式和非正式反馈,指出房颤是最难理解的。学习挑战包括心房颤动的电生理和药理学方面。因此,本研究旨在探讨增强现实(AR)的潜在用途,以提高学生对心房颤动的参与和理解。根据学生的反馈,并以我们学位课程的学习成果为指导,我们开发了一个AR应用程序(App)来教授心房颤动,涵盖一般和特定学科的学习内容。发展是通过一个迭代过程完成的,以建构主义学习理论为基础。一项由13个李克特量表问题和一个围绕用户界面原则制定的开放式问题组成的调查进行了,以收集学生对该应用程序的反馈。13%的药学学生(这项研究表明,AR技术提高了学生的参与度以及对AF的理解,特别是在学生觉得困难的领域。这个真实的学习工具已经成功地解决了两个学科的学生提出的一些学习挑战。学生们的积极反馈表明,在学习理论的指导下,一个精心设计的AR App,除了让学习变得身临其境和引人入胜之外,还可以提高学生对复杂学科的理解,是一个合适和可行的选择。
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Cross-discipline teaching and learning of cardiology through an augmented reality application
Undergraduate health sciences and health professional degree programmes introduce students to common heart diseases and associated treatments, including atrial fibrillation (AF). Our students, second-year biomedical science and pharmacy students, through formal and informal feedback on their learning experience with cardiology, noted AF as the most difficult to comprehend. The learning challenges include electrophysiology and pharmacology aspects of AF. This study, therefore, aims to investigate the potential use of augmented reality (AR) to enhance students’ engagement and understanding of AF. Based upon students’ feedback, and guided by the learning outcomes of our degree programmes, we developed an AR application (App) to teach AF, covering general as well as discipline-specific learning content. The development was done through an iterative process, grounded in the constructivist learning theories. A survey consisting of 13 Likert-scale questions and an open-ended question formulated around user interface principles was conducted to gather students’ feedback of the App. Thirteen per cent of pharmacy students ( This study shows that AR technology has enhanced students’ engagement as well as perception of understanding of AF, specifically in the areas that students find difficult. This authentic learning tool has successfully addressed some of the learning challenges raised by students of both disciplines. Students’ positive feedback suggests that a carefully designed AR App, guided by learning theories, is a suitable and viable option to improve students’ understanding of complex subjects, apart from making learning immersive and engaging.
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