Experience of online physiology laboratory teaching for undergraduate students during the COVID-19 pandemic in Thailand

The COVID-19 pandemic has disrupted traditional face-to-face human physiology teaching for students at the Faculty of Medicine, Thammasat University, Thailand since February 2020. An online curriculum for both lectures and laboratory sessions was developed to continue the education. This work compared the effectiveness of online physiology labs to the traditional onsite counterparts for 120 dental and pharmacy sophomore students during the 2020 academic year. The method used was a Microsoft Teams synchronous online laboratory experience consisting of eight topics. Faculty lab facilitators created protocols, video scripts, online assignments, and instruction notes. Group lab instructors prepared and delivered the content for recording and led the student discussion. Data recording and live discussion were synchronized and executed. The response rates for the control (2019) and study (2020) groups were 36.89 and 60.83%, respectively. The control group reported higher satisfaction about general laboratory experience, compared to the online study group. The online group rated the laboratory online experience with equal satisfaction to that of an onsite lab experience. The onsite control group reported 55.26% satisfaction with the equipment instrument, while only 32.88% online group voiced their approval of this measure. It was understandable because the excitement in physiology work relies heavily on the experience of the work (P < 0.027). With the same difficulty index for both academic year examination papers, the nonsignificant difference in academic performance of the control and study groups (59.50 ± 13.50 and 62.40 ± 11.43, respectively) showed the effectiveness of our online synchronous physiology lab teaching. In conclusion, the online physiology learning experience was appreciated when a good design was achieved.NEW & NOTEWORTHY The COVID-19 pandemic has forced physiology educators to use online teaching. At the time of this work, there was no research investigating the effectiveness of online and face-to-face physiology lab teaching in undergraduate students. A synchronized online lab teaching of a virtual lab classroom on the Microsoft Teams platform was successfully implemented. Our data showed that online physiology lab teaching could make the students understand physiology concepts and have the same effectiveness as the onsite lab experience.

Application of problem-based self-designed experiments in physiology laboratory teaching

A physiology laboratory course plays an important role in improving the scientific abilities of medical students. This study involved a teaching reform based on problem-based self-designed experiments in a physiology laboratory course. The study subjects were divided into two groups, i.e., students enrolled in 2019 were assigned to the traditional course control group (n = 146) and students enrolled in 2021 were assigned to the improved course test group (n = 128). Students in the test group were required to conduct self-designed experiments based on the questions for each experimental theme, in addition to completing the specified experimental items. At the end of the course, the differences in academic achievements between the two groups were compared. The results showed that compared to the control group, the students in the test group spent less time finishing the specified experimental items (P < 0.05). More students in the test group obtained good results in the operation assessment for the specified experiments (P < 0.05), and a significant increase in the number of winners in discipline-wise competitions, participants in scientific research projects, and academic publications was observed in the test group. Most of the students in the test group agreed that the self-designed experiment promoted their scientific thinking, helped them better understand theoretical knowledge, and improved their hands-on operation and team cooperation abilities. Our research showed that our teaching reform promoted students' self-directed learning and problem-solving abilities, stimulated their enthusiasm for scientific research, and was conducive to the cultivation of innovative medical talents.NEW & NOTEWORTHY This study involved a teaching reform based on problem-based self-designed experiments in a physiology laboratory course. Students in the test group were required to conduct self-designed experiments based on questions for each experimental theme, in addition to completing the specified experimental items. The results showed that the teaching reform promoted the students' self-directed learning and problem-solving ability, stimulated their enthusiasm for scientific research, and was conducive to cultivating innovative medical talents.