Medical imaging and radiation science students' use of artificial intelligence for learning and assessment

IF 2.5 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
S. Lewis , F. Bhyat , Y. Casmod , A. Gani , L. Gumede , A. Hajat , L. Hazell , C. Kammies , T.B. Mahlaola , L. Mokoena , L. Vermeulen
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引用次数: 0

Abstract

Introduction

Artificial intelligence has permeated all aspects of our existence, and medical imaging has shown the burgeoning use of artificial intelligence in clinical environments. However, there are limited empirical studies on radiography students' use of artificial intelligence for learning and assessment. Therefore, this study aimed to gain an understanding of this phenomenon.

Methods

The study used a qualitative explorative and descriptive research design. Data was obtained through five focus group interviews with purposively sampled undergraduate medical imaging and radiation science students at a single higher education institution in South Africa. Verbatim transcripts of the audio-recorded interviews were analysed thematically.

Results

Three themes and related subthemes were developed: 1) understanding artificial intelligence, 2) experiences with the use of artificial intelligence with the subthemes of the use of artificial intelligence in theoretical and clinical learning and challenges of using artificial intelligence, and 3) incorporation of artificial intelligence in undergraduate medical imaging and radiation sciences education with the subthemes of student education, ethical considerations and responsible use and curriculum integration of artificial intelligence in relation to learning and assessment.

Conclusion

Participants used artificial intelligence for learning and assessment by generating ideas to enhance academic writing, as a learning tool, finding literature, language translation and for enhanced efficiency. Simulation-based artificial intelligence supports students' clinical learning, and artificial intelligence within the clinical departments assists with improved patient outcomes. However, participants expressed concerns about the reliability and ethical implications of artificial intelligence-generated information. To address these concerns, participants suggested integrating artificial intelligence into medical imaging and radiation sciences education, where educators need to educate students on the responsible use of artificial intelligence in learning and consider artificial intelligence in assessments.

Implications for practice

The study findings contribute to understanding medical imaging and radiation sciences students’ use of artificial intelligence and may be used to develop evidence-based strategies for integrating artificial intelligence into the curriculum to enhance medical imaging and radiation sciences education and support students.
医学影像和放射科学专业学生使用人工智能进行学习和评估。
引言:人工智能已经渗透到我们生活的方方面面,医学影像领域也显示出人工智能在临床环境中的蓬勃发展。然而,关于放射学学生使用人工智能进行学习和评估的实证研究却十分有限。因此,本研究旨在了解这一现象:本研究采用了定性探索和描述性研究设计。数据是通过五个焦点小组访谈获得的,访谈对象是南非一所高等院校医学影像和放射科学专业的本科生。对访谈录音的逐字记录稿进行了专题分析:结果:形成了三个主题和相关次主题:1)对人工智能的理解;2)使用人工智能的经验,次主题为在理论和临床学习中使用人工智能以及使用人工智能的挑战;3)将人工智能纳入医学影像和放射科学本科教育,次主题为学生教育、伦理考虑、负责任地使用人工智能以及将人工智能纳入与学习和评估相关的课程:学员们将人工智能用于学习和评估,通过产生想法来加强学术写作,将其作为学习工具、查找文献、语言翻译和提高效率。基于模拟的人工智能为学生的临床学习提供了支持,而临床科室的人工智能则有助于改善病人的治疗效果。不过,与会者对人工智能生成信息的可靠性和道德影响表示担忧。为了解决这些问题,与会者建议将人工智能融入医学影像和放射科学教育中,教育者需要教育学生在学习中负责任地使用人工智能,并在评估中考虑人工智能:研究结果有助于了解医学影像和放射科学专业学生对人工智能的使用情况,并可用于制定将人工智能纳入课程的循证策略,以加强医学影像和放射科学教育并为学生提供支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Radiography
Radiography RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
4.70
自引率
34.60%
发文量
169
审稿时长
63 days
期刊介绍: Radiography is an International, English language, peer-reviewed journal of diagnostic imaging and radiation therapy. Radiography is the official professional journal of the College of Radiographers and is published quarterly. Radiography aims to publish the highest quality material, both clinical and scientific, on all aspects of diagnostic imaging and radiation therapy and oncology.
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