Effects of the individual three-dimensional printed craniofacial bones with a quick response code on the skull spatial knowledge of undergraduate medical students

IF 5.2 2区 教育学 Q1 EDUCATION, SCIENTIFIC DISCIPLINES
Mao-Yi Yang, Hsien-Chun Tseng, Chiung-Hui Liu, Shao-Yu Tsai, Jyun-Hsiung Chen, Yin-Hung Chu, Shao-Ti Li, Jian-Jr Lee, Wen-Chieh Liao
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引用次数: 1

Abstract

Understanding the three-dimensional (3D) structure of the human skull is imperative for medical courses. However, medical students are overwhelmed by the spatial complexity of the skull. Separated polyvinyl chloride (PVC) bone models have advantages as learning tools, but they are fragile and expensive. This study aimed to reconstruct 3D-printed skull bone models (3D-PSBs) using polylactic acid (PLA) with anatomical characteristics for spatial recognition of the skull. Student responses to 3D-PSB application were investigated through a questionnaire and tests to understand the requirement of these models as a learning tool. The students were randomly divided into 3D-PSB (n = 63) and skull (n = 67) groups to analyze pre- and post-test scores. Their knowledge was improved, with the gain scores of the 3D-PSB group (50.0 ± 3.0) higher than that of the skull group (37.3 ± 5.2). Most students agreed that using 3D-PSBs with quick response codes could improve immediate feedback on teaching (88%; 4.41 ± 0.75), while 85.9% of the students agreed that individual 3D-PSBs clarified the structures hidden within the skull (4.41 ± 0.75). The ball drop test revealed that the mechanical strength of the cement/PLA model was significantly greater than that of the cement or PLA model. The prices of the PVC, cement, and cement/PLA models were 234, 1.9, and 10 times higher than that of the 3D-PSB model, respectively. These findings imply that low-cost 3D-PSB models could revolutionize skull anatomical education by incorporating digital technologies like the QR system into the anatomical teaching repertoire.

带快速反应码的个体三维打印颅面骨对医大学生颅骨空间认知的影响
了解人类头骨的三维(3D)结构对医学课程是必不可少的。然而,医科学生被头骨的空间复杂性所淹没。分离聚氯乙烯(PVC)骨模型作为学习工具具有优势,但它们易碎且价格昂贵。本研究旨在利用具有解剖特征的聚乳酸(PLA)重建3d打印颅骨模型(3D-PSBs),以实现颅骨的空间识别。通过问卷调查和测试来调查学生对3D-PSB应用的反应,以了解这些模型作为学习工具的需求。将学生随机分为3D-PSB组(n = 63)和颅骨组(n = 67),分析测试前和测试后的成绩。3D-PSB组的知识增益评分(50.0±3.0)高于颅骨组(37.3±5.2)。大多数学生同意使用带有快速响应代码的3d - psb可以改善对教学的即时反馈(88%;4.41±0.75),而85.9%的学生认为单独的3d - psb能够澄清颅骨内隐藏的结构(4.41±0.75)。球落试验表明,水泥/PLA模型的机械强度显著大于水泥或PLA模型。PVC、水泥和水泥/PLA模型的价格分别是3D-PSB模型的234倍、1.9倍和10倍。这些发现表明,低成本的3D-PSB模型可以通过将QR系统等数字技术纳入解剖教学中,从而彻底改变颅骨解剖教育。
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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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