An Adaptive Blended Learning Approach in the Implementation of a Medical Neuroscience Laboratory Activities

BACKGROUND: The COVID-19 pandemic revealed existing gaps in the medical educational system that is heavily dependent on the presence of medical students and teachers in laboratory and class for instruction. This affects continuity in the implementation of the neuroanatomy component of the medical neuroscience laboratory activities during COVID-19. We hypothesized that pivoting wet laboratory neuroanatomy activities to online using an adaptive flexible blended method might represent an effective approach in the implementation of laboratory neuroanatomy activities during a pandemic. METHODS: The current study describes an adaptive flexible blended learning approach that systematically mixes virtual face-to-face interaction activities with the online learning of brain structures, and the discussion of clinical cases. Learning materials are delivered through both synchronous and asynchronous modes, and Year 1 medical students learn neuroanatomy laboratory activities at different locations and different times. Student performances in the adaptive flexible blended learning approach were compared with the learning of similar activities during an in-person implementation of neuroscience laboratory activities. RESULTS: The results of using this adaptive flexible blended learning approach provided an autonomous independent learning, self-study approach that broadened student performance such that we have more students scoring between 80 and 89%, whereas the in-person learning resulted in most of the students scoring > 90% in the medical neuroscience laboratory activities. CONCLUSION: An adaptive flexible blended learning approach that combined virtual face-to-face instruction using digital technology with online learning of neuroscience laboratory activities provided a unique educational experience for Year 1 medical students to learn neuroscience laboratory activities during the COVID-19 pandemic.