ABSTRACT
"Basic Concepts in Neurophysiology" was a 3-wk online course developed during six synchronous meetings combined with asynchronous activities. We proposed an active learning course that used free online platforms to teach physiology during a period in which undergraduates were not in classrooms or taking online classes due to the COVID-19 pandemic. Herein, we report the course organization and the students' involvement in, acceptance of, and evaluation of the course. To address the students' perceptions about these points, we sent a questionnaire to 49 participants who finished the course. We found that although most students (52.5%) had never taken a course with similar methods before, almost all of them (95%) liked the flipped class model. Additionally, a majority of the students (92.5%) said that the method increased their study frequency during the social distancing period, which is an important aspect to consider during this challenging time for both students and professors.
Subject(s)
COVID-19 , Pandemics , Humans , Neurophysiology , Quarantine , SARS-CoV-2ABSTRACT
In 2020 universities had to quickly implement remote education alternatives as a result of the social distancing due to the COVID-19 pandemic. To keep students engaged with the university, we implemented a teaching-learning model that relates physiology contents to the COVID-19 pandemic using online educational platforms. A 1-mo web course was proposed for health sciences students from the Federal University of Pampa. It included synchronous meetings twice a week and asynchronous activities using scientific articles, case studies, and interactive online tools. The students approved the methodology developed, assessing it as dynamic and innovative. They reported that the activity helped to better understand the relations between COVID-19 and physiological systems. The web course also contributed to the identification of reliable sources of news and stimulated the sharing of scientific content with their families. We concluded that the use of online platforms contextualizing the physiology content considering current events helps students in learning human physiology and improves their abilities to apply this information to their daily life, in this specific case, regarding the COVID-19 pandemic.