科学文献分析教学:系统采用技能培养方法,丰富本科生的研究训练。

Sharmila Venugopal
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摘要

教授科学文献分析技能是研究培训的关键步骤。在此,我将介绍一个为期 6 周的科学文献理解技能培养模块,该模块被纳入为期 10 周的神经科学本科生荣誉研究实践课程中。主要教学内容包括1)以学生为中心的主动学习、技能培养和社区建设活动;2)坚持采用行之有效的 CREATE 方法和新颖的科学总结(CSS)方法教授科学文献分析技能;3)由持续学习小组(PLP)组成的协作式班级组织,以促进学生自主参与和同伴学习;4)真实研究实验室的角色扮演。通过自我评估调查(SAS)和对 CREATE 和 CSS 方法的纵向评估来评估学生的技能发展,PLPs 在四周内对原始研究文章(PRAs)进行分析。结果表明,学生在阅读复杂的科学文献时原有的焦虑情绪得到了缓解,批判性思维和协作技能得到了提高。具体而言,SAS 的反馈表明,学生对阅读科学文献的看法从艰巨的任务转变为愉快的活动;这增强了他们评价科学文献的信心。参与式学习促进了学生的参与、同伴指导和社区建设,并有助于技能的发展。对 CREATE 和 CSS 应用的每周评估表明,学生分析和评论复杂科学材料的能力明显提高。以重点研究主题为背景的研究实验室角色扮演促进了对神经科学前沿课题的综合理解。概述的创新方法可在基于课程的本科生研究体验(CURE)中采用,并应有助于系统化教学实践,以培养神经科学家。
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Teaching Scientific Literature Analysis: A Systematic Adoption of Skill-Building Methods to Enrich Research Training for Undergraduate Students.

Teaching scientific literature analysis skills is a critical step in research training. Here I describe a 6-week skill-building module on understanding scientific literature, incorporated into a 10-week undergraduate honors research practice course in Neuroscience. Key pedagogical components include: 1) student-centered active-learning, skill-building and community-building activities; 2) persistent adoption of a proven CREATE method and a novel curate scientific summary (CSS) method for teaching scientific literature analysis skills; 3) collaborative class organization consisting of persistent learning pods (PLPs) to facilitate student-driven participation and peer learning; and, 4) role play of a real research lab. Skill development was assessed using a self-assessment survey (SAS) and longitudinal evaluation of the CREATE and CSS methods application by the PLPs to analyze primary research articles (PRAs) over four weeks. Outcomes demonstrate alleviation of pre-existing student anxiety to read complex scientific literature and advancement of critical-thinking and collaborative skills. Specifically, the SAS responses indicate that student perception about reading scientific literature transformed from being a daunting task to an enjoyable activity; this enhanced their confidence in evaluating scientific literature. PLPs fostered student engagement, peer instruction, and community building, and contributed to skill development. Weekly assessment of CREATE and CSS application highlighted marked improvements in students' abilities to analyze and critique complicated scientific material. Role playing a research lab setting with a focused research theme facilitated integrative understanding of a frontier topic in Neuroscience. The outlined innovative approach can be adopted in Course-based Undergraduate Research Experience (CURE) and should help contribute to systematizing didactic practices to train neuroscientists.

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