Development of a Secondary Dental-Specific Database for Active Learning of Genetics in Dentistry Programs.

IF 2.3 Q3 MEDICAL INFORMATICS
Healthcare Informatics Research Pub Date : 2022-10-01 Epub Date: 2022-10-31 DOI:10.4258/hir.2022.28.4.387
Nazlee Sharmin, Ava K Chow, Shanice Govia
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引用次数: 0

Abstract

Objectives: Dental students study the genetics of tooth and facial development through didactic lectures only. Meanwhile, scientists' knowledge of genetics is rapidly expanding, over and above what is commonly found in textbooks. Therefore, students studying dentistry are often unfamiliar with the burgeoning field of genetic data and biological databases. There is also a growing interest in applying active learning strategies to teach genetics in higher education. We developed a secondary database called "Genetics for Dentistry" to use as an active learning tool for teaching genetics in dentistry programs. The database archives genomic and proteomic data related to enamel and dentin formation.

Methods: We took a systematic approach to identify, collect, and organize genomic and proteomic tooth development data from primary databases and literature searches. The data were checked for accuracy and exported to Ragic to create an interactive secondary database.

Results: "Genetics for Dentistry," which is in its initial phase, contains information on all the human genes involved in enamel and dentin formation. Users can search the database by gene name, protein sequence, chromosomal location, and other keywords related to protein and gene function.

Conclusions: "Genetics for Dentistry" will be introduced as an active learning tool for teaching genetics at the School of Dentistry of the University of Alberta. Activities using the database will supplement lectures on genetics in the dentistry program. We hope that incorporating this database as an active learning tool will reduce students' cognitive load in learning genetics and stimulate interest in new branches of science, including bioinformatics and precision dentistry.

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在牙科课程中主动学习遗传学的二级牙科特定数据库的开发。
目的:牙科专业的学生只通过说教性的讲座来学习牙齿和面部发育的遗传学。与此同时,科学家对遗传学的了解正在迅速扩大,远远超出了教科书上常见的知识。因此,学习牙科的学生往往不熟悉新兴的遗传数据和生物数据库领域。人们对在高等教育中应用主动学习策略教授遗传学也越来越感兴趣。我们开发了一个名为“牙科遗传学”的二级数据库,作为在牙科课程中教授遗传学的主动学习工具。该数据库存档了与牙釉质和牙本质形成相关的基因组学和蛋白质组学数据。方法:采用系统的方法从原始数据库和文献检索中识别、收集和整理牙齿发育的基因组和蛋白质组学数据。检查数据的准确性,并将其导出到Ragic,以创建一个交互式辅助数据库。结果:“牙科遗传学”,这是在其初始阶段,包含所有的人类基因参与牙釉质和牙本质的形成信息。用户可以通过基因名称、蛋白质序列、染色体位置以及其他与蛋白质和基因功能相关的关键词来搜索数据库。结论:“牙科遗传学”将作为阿尔伯塔大学牙科学院遗传学教学的积极学习工具引入。使用数据库的活动将补充牙科课程中的遗传学讲座。我们希望将该数据库作为一种主动学习工具,将减少学生在学习遗传学方面的认知负荷,并激发他们对新的科学分支的兴趣,包括生物信息学和精密牙科。
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来源期刊
Healthcare Informatics Research
Healthcare Informatics Research MEDICAL INFORMATICS-
CiteScore
4.90
自引率
6.90%
发文量
44
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