超声与视频:肌肉骨骼解剖学教育和学生认知有效性的比较研究。

IF 5.2 2区 教育学 Q1 EDUCATION, SCIENTIFIC DISCIPLINES
Vicky Vandenbossche, Martin Valcke, Adelheid Steyaert, Koenraad Verstraete, Emmanuel Audenaert, Wouter Willaert
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引用次数: 0

摘要

超声成像是一种动态成像技术,使用高频声波捕捉皮肤下结构的实时图像。除了在诊断和干预中越来越多地使用外,超声成像还有可能在本科医学课程中强化概念。然而,评估超声波对解剖学学习和学生认知影响的研究很少。本研究的目的是比较基于超声波的教学与叙事视频对学生理解解剖关系的影响,以及内在动机、自我效能信念和学生态度在这一过程中的作用。为医学二年级学生开设了一门关于前腿和手腕解剖学的强化课程。一项交叉设计的随机对照试验将学生分配到基于超声的教学条件(队列A)或讲述的解剖视频条件(队列B)。接下来,参与者被交叉到替代干预。在研究开始时(T0),测量了基线解剖学知识、内在动机、自我效能信念和空间能力。在第一次干预后(T1)和研究结束时(T2),两个队列都接受了解剖学测试、内在动机量表和自我效能量表。此外,每个学生都被要求在超声波干预后填写一份感知调查。最后,在交叉设计的基础上,研究了干预措施的最佳顺序。共有181名学生参加(队列A:n = 82,队列B:n = 99)。两组在基础解剖学知识测试、空间能力测试、内在动机和自我效能量表上的表现比较。在T1时,B组在解剖学测试中表现优于A组(p = 0.019),尽管只能检测到较小的效应大小(Cohen’s d = 0.34)。两组的内在动机和自我效能感在T1时相似。在T2时,解剖测试、内在动机和自我效能量表在研究任何一系列干预措施后都没有反映出效果。学生们对超声波的体验表示赞同,但也提到了陡峭的学习曲线。医学生发现实践超声波课程很有价值,增加了他们对肌肉骨骼解剖和超声波成像的兴趣。然而,与观看解剖视频相比,超声的加入并没有带来更好的空间解剖理解。此外,超声波教学对学生认知能力的影响并不显著。基于超声波的肌肉骨骼解剖学教学被认为很难学习,因此假设过高的认知负荷水平可能解释了所呈现的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultrasound versus videos: A comparative study on the effectiveness of musculoskeletal anatomy education and student cognition

Ultrasound imaging is a dynamic imaging technique that uses high-frequency sound waves to capture live images of the structures beneath the skin. In addition to its growing use in diagnosis and interventions, ultrasound imaging has the potential to reinforce concepts in the undergraduate medical curriculum. However, research assessing the impact of ultrasound on anatomy learning and student cognition is scarce. The purpose of this study was to compare the impact of ultrasound-based instruction versus narrated videos on students' understanding of anatomical relationships, as well as the role of intrinsic motivation, self-efficacy beliefs, and students' attitudes in this process. A booster course on anterior leg and wrist anatomy was offered to second-year medical students. A randomized controlled trial with a cross-over design allocated students to either an ultrasound-based teaching condition (cohort A) or a narrated anatomy video condition (cohort B). Next, participants were crossed to the alternative intervention. At the start of the study (T0), baseline anatomy knowledge, intrinsic motivation, self-efficacy beliefs, and spatial ability were measured. After the first intervention (T1) and at the end of the study (T2), both cohorts were administered an anatomy test, an intrinsic motivation scale, and a self-efficacy scale. In addition, each student was asked to fill out a perception survey after the ultrasound intervention. Finally, building on the cross-over design, the most optimal sequence of interventions was examined. A total of 181 students participated (cohort A: n = 82, cohort B: n = 99). Both cohorts performed comparably on the baseline anatomy knowledge test, spatial ability test, intrinsic motivation, and self-efficacy scale. At T1, cohort B outperformed cohort A on the anatomy test (p = 0.019), although only a small effect size could be detected (Cohen's d = 0.34). Intrinsic motivation and self-efficacy of both cohorts were similar at T1. At T2, the anatomy test, intrinsic motivation, and self-efficacy scale did not reflect an effect after studying either sequence of the interventions. Students reported favorably about the ultrasound experience, but also mentioned a steep learning curve. Medical students found the hands-on ultrasound sessions to be valuable, increasing their interest in musculoskeletal anatomy and ultrasound imaging. However, the addition of ultrasound did not result in superior spatial anatomy understanding compared to watching anatomy videos. In addition, ultrasound teaching did not have a major effect on student cognition. Ultrasound-based teaching of musculoskeletal anatomy is regarded as difficult to learn, and therefore it is hypothesized that too high levels of cognitive load might explain the presented results.

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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.
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