{"title":"在 COVID-19 大流行之前和期间,从学生角度看兽医解剖实验室 3D 打印头骨模型的可用性和问题。","authors":"Motoharu Sakaue, Motoharu Oishi, Aisa Ozawa, Atsushi Tsukamoto, Hideki Kayanuma, Nobutsune Ichihara","doi":"10.1292/jvms.24-0021","DOIUrl":null,"url":null,"abstract":"<p><p>Three-dimensional (3D)-printed models of bones are a convenient and durable alternative to real bone specimens, and they have been used in anatomy laboratories. It is necessary to identify the precise advantages of 3D-printed models from all perspectives; not only the improvement in students' knowledge of anatomy but also the students' assessment of such models. Here, students of veterinary medicine and animal science evaluated the reproducibility and effectiveness of 3D-printed models as a learning tool by completing our questionnaires, with a focus on their understanding of the skull-morphological differences among dog breeds. With the COVID-19 pandemic having obliged veterinary universities to provide courses online, we also investigated how the pandemic affected the students' evaluation of the 3D-printed models. The questionnaire results revealed that the animal science students were satisfied with the reproducibility of the 3D-printed models, but the veterinary students were not (they preferred to use real specimens). The skull differences were well understood by both types of students, indicating that 3D-printed models are effective for learning about rare skeletal specimens. The veterinary students who experienced the COVID-19 pandemic tended to choose real specimens more often than those who did not have this experience. Our results suggest that the use of 3D-printed models as an introduction and the use of real specimens in anatomy laboratory courses can be adequate for veterinary students. Together our findings suggest ways to improve the educational performance of 3D-printed models for veterinary students who need to understand the anatomy of many species.</p>","PeriodicalId":49959,"journal":{"name":"Journal of Veterinary Medical Science","volume":" ","pages":"1081-1088"},"PeriodicalIF":1.1000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11442399/pdf/","citationCount":"0","resultStr":"{\"title\":\"Availability and issues of 3D-printed skull models for veterinary anatomy laboratories from students' perspective before and during the COVID-19 pandemic.\",\"authors\":\"Motoharu Sakaue, Motoharu Oishi, Aisa Ozawa, Atsushi Tsukamoto, Hideki Kayanuma, Nobutsune Ichihara\",\"doi\":\"10.1292/jvms.24-0021\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Three-dimensional (3D)-printed models of bones are a convenient and durable alternative to real bone specimens, and they have been used in anatomy laboratories. 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The skull differences were well understood by both types of students, indicating that 3D-printed models are effective for learning about rare skeletal specimens. The veterinary students who experienced the COVID-19 pandemic tended to choose real specimens more often than those who did not have this experience. Our results suggest that the use of 3D-printed models as an introduction and the use of real specimens in anatomy laboratory courses can be adequate for veterinary students. 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引用次数: 0
摘要
三维(3D)打印骨骼模型是真实骨骼标本的一种方便耐用的替代品,已被用于解剖实验室。有必要从各个角度确定三维打印模型的确切优势;不仅是学生解剖学知识的提高,还有学生对此类模型的评价。在这里,兽医学和动物科学专业的学生通过填写我们的调查问卷,评估了 3D 打印模型作为学习工具的可重复性和有效性,重点是他们对不同犬种头骨形态差异的理解。由于 COVID-19 大流行迫使兽医大学提供在线课程,我们还调查了大流行如何影响学生对 3D 打印模型的评价。问卷调查结果显示,动物科学专业的学生对 3D 打印模型的再现性表示满意,但兽医专业的学生则不满意(他们更喜欢使用真实标本)。两类学生都能很好地理解头骨的差异,这表明 3D 打印模型对学习稀有骨骼标本很有效。与没有经历过 COVID-19 大流行的学生相比,经历过 COVID-19 大流行的兽医学生更倾向于选择真实标本。我们的结果表明,在解剖学实验课程中使用 3D 打印模型作为入门和使用真实标本对兽医学生来说是足够的。我们的研究结果表明,对于需要了解许多物种解剖学知识的兽医专业学生来说,如何提高3D打印模型的教学效果。
Availability and issues of 3D-printed skull models for veterinary anatomy laboratories from students' perspective before and during the COVID-19 pandemic.
Three-dimensional (3D)-printed models of bones are a convenient and durable alternative to real bone specimens, and they have been used in anatomy laboratories. It is necessary to identify the precise advantages of 3D-printed models from all perspectives; not only the improvement in students' knowledge of anatomy but also the students' assessment of such models. Here, students of veterinary medicine and animal science evaluated the reproducibility and effectiveness of 3D-printed models as a learning tool by completing our questionnaires, with a focus on their understanding of the skull-morphological differences among dog breeds. With the COVID-19 pandemic having obliged veterinary universities to provide courses online, we also investigated how the pandemic affected the students' evaluation of the 3D-printed models. The questionnaire results revealed that the animal science students were satisfied with the reproducibility of the 3D-printed models, but the veterinary students were not (they preferred to use real specimens). The skull differences were well understood by both types of students, indicating that 3D-printed models are effective for learning about rare skeletal specimens. The veterinary students who experienced the COVID-19 pandemic tended to choose real specimens more often than those who did not have this experience. Our results suggest that the use of 3D-printed models as an introduction and the use of real specimens in anatomy laboratory courses can be adequate for veterinary students. Together our findings suggest ways to improve the educational performance of 3D-printed models for veterinary students who need to understand the anatomy of many species.
期刊介绍:
JVMS is a peer-reviewed journal and publishes a variety of papers on veterinary science from basic research to applied science and clinical research. JVMS is published monthly and consists of twelve issues per year. Papers are from the areas of anatomy, physiology, pharmacology, toxicology, pathology, immunology, microbiology, virology, parasitology, internal medicine, surgery, clinical pathology, theriogenology, avian disease, public health, ethology, and laboratory animal science. Although JVMS has played a role in publishing the scientific achievements of Japanese researchers and clinicians for many years, it now also accepts papers submitted from all over the world.