Validating instructional design and predicting student performance in histology education: Using machine learning via virtual microscopy

IF 5.2 2区 教育学 Q1 EDUCATION, SCIENTIFIC DISCIPLINES Anatomical Sciences Education Pub Date : 2023-10-07 DOI:10.1002/ase.2346
Allyson Fries, Marie Pirotte, Laurent Vanhee, Pierre Bonnet, Pascale Quatresooz, Christophe Debruyne, Raphaël Marée, Valérie Defaweux
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Abstract

As a part of modern technological environments, virtual microscopy enriches histological learning, with support from large institutional investments. However, existing literature does not supply empirical evidence of its role in improving pedagogy. Virtual microscopy provides fresh opportunities for investigating user behavior during the histology learning process, through digitized histological slides. This study establishes how students' perceptions and user behavior data can be processed and analyzed using machine learning algorithms. These also provide predictive data called learning analytics that enable predicting students' performance and behavior favorable for academic success. This information can be interpreted and used for validating instructional designs. Data on the perceptions, performances, and user behavior of 552 students enrolled in a histology course were collected from the virtual microscope, Cytomine®. These data were analyzed using an ensemble of machine learning algorithms, the extra-tree regression method, and predictive statistics. The predictive algorithms identified the most pertinent histological slides and descriptive tags, alongside 10 types of student behavior conducive to academic success. We used these data to validate our instructional design, and align the educational purpose, learning outcomes, and evaluation methods of digitized histological slides on Cytomine®. This model also predicts students' examination scores, with an error margin of <0.5 out of 20 points. The results empirically demonstrate the value of a digital learning environment for both students and teachers of histology.

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验证教学设计和预测学生在组织学教育中的表现:通过虚拟显微镜使用机器学习。
作为现代技术环境的一部分,虚拟显微镜在大型机构投资的支持下丰富了组织学学习。然而,现有文献并没有提供其在改进教育学方面作用的经验证据。虚拟显微镜通过数字化的组织学幻灯片,为研究组织学学习过程中的用户行为提供了新的机会。这项研究确定了如何使用机器学习算法处理和分析学生的感知和用户行为数据。这些还提供了称为学习分析的预测数据,可以预测学生的表现和行为,有利于学业成功。这些信息可以被解释并用于验证教学设计。552名参加组织学课程的学生的感知、表现和用户行为数据来自Cytomine®虚拟显微镜。使用机器学习算法、额外树回归方法和预测统计学的集合对这些数据进行了分析。预测算法确定了最相关的组织学幻灯片和描述性标签,以及有助于学业成功的10种学生行为。我们使用这些数据来验证我们的教学设计,并调整Cytomine®数字化组织学幻灯片的教育目的、学习结果和评估方法。该模型还预测了学生的考试成绩,误差幅度为
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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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