Reinforcement of Core Foundational Science Concepts during Clinical Rotations: A Strategy to Enhance Medical Student Learning and Diagnostic Reasoning.
Bindu Menon, Meghana Reddy Ranabothu, Krissy Elizabeth Tarter, Tyrone Deonte Oneal Layson, Deepa Mukundan, Jeremy J Laukka
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引用次数: 0
Abstract
Cognitive science principles can facilitate integrating and retaining basic science concepts during the clinical years of undergraduate medical education. We hypothesized that reinforcing foundational science concepts during the core clerkship experiences fosters the development of clinical reasoning in medical students. A patient simulation session on diabetic ketoacidosis (DKA) in the pediatric clerkship was chosen to pilot the program. We introduced an intervention in which a team of clinical and foundational science faculty facilitates student discussions, helping them connect important physiological and pathophysiological concepts to the disorder's clinical presentation, diagnosis, and management. The student survey reported that 87% strongly agreed that it helped them reinforce their understanding of foundational science concepts related to clinical cases. The NBME subject exam results of the pediatric clerkships from the corresponding years were subjected to a cognitive diagnostic assessment called the DINA model analysis. The student content mastery in acid-base disorders was improved following the intervention (student mastery of skills, 0.73 vs 0.80, P=0.035). Similarly, analysis of the Step 2 Clinical Knowledge (CK) skills from the NBME subject exam item analysis reports showed improvement in the skill "diagnosis" on the topic of diabetes (probability value- before and after the intervention, respectively, 0.73 and 0.85, p=0.04) following implementation. Our study shows the impact of foundational science reinforcement during clinical clerkships in developing undergraduate medical students' clinical reasoning and diagnostic skills.
认知科学原理有助于在本科医学教育的临床阶段整合和保留基础科学概念。我们假设,在核心实习经历中强化基础科学概念可促进医学生临床推理能力的发展。我们选择了儿科实习中的糖尿病酮症酸中毒(DKA)患者模拟课程作为试点。我们引入了一项干预措施,由临床和基础科学教师团队主持学生讨论,帮助他们将重要的生理和病理生理学概念与疾病的临床表现、诊断和处理联系起来。学生调查报告显示,87%的学生强烈认为,这有助于他们加强对与临床病例相关的基础科学概念的理解。对相应年份儿科实习的 NBME 科目考试成绩进行了认知诊断评估,即 DINA 模型分析。干预后,学生对酸碱紊乱内容的掌握程度有所提高(学生对技能的掌握程度,0.73 vs 0.80,P=0.035)。同样,对NBME科目考试项目分析报告中第二步临床知识(CK)技能的分析表明,实施干预后,糖尿病主题的 "诊断 "技能有所提高(干预前后的概率值分别为0.73和0.85,P=0.04)。我们的研究表明,在临床实习期间强化基础科学对培养本科医学生的临床推理和诊断技能具有重要影响。
期刊介绍:
Advances in Physiology Education promotes and disseminates educational scholarship in order to enhance teaching and learning of physiology, neuroscience and pathophysiology. The journal publishes peer-reviewed descriptions of innovations that improve teaching in the classroom and laboratory, essays on education, and review articles based on our current understanding of physiological mechanisms. Submissions that evaluate new technologies for teaching and research, and educational pedagogy, are especially welcome. The audience for the journal includes educators at all levels: K–12, undergraduate, graduate, and professional programs.
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