| Summary: | This research explores the development, execution, and student feedback on a multi-themed digital escape room (ER) activity, designed for teaching medicinal chemistry during the COVID-19 pandemic. It aimed to examine students' perceptions of the ER activity, focusing on its effectiveness in enriching students' understanding of medicinal chemistry and increasing their engagement level. Implemented in a synchronous online lecture for third-year pharmacy students, this ER activity was designed with the intention of fostering active learning and teamwork. A total of 184 students participated in various medicinal chemistry-themed challenges, using puzzles on a virtual whiteboard and breakout rooms for team discussions. The findings gathered from the post-implementation survey highlight the impactful learning outcomes associated with a replicable ER activity designed for online medicinal chemistry courses. This innovative teaching strategy not only cultivated a deeper understanding of key medicinal topics among students (mean= 4.36) but also enhanced their collaborative skills through increased peer interaction (mean=3.73). They also reported higher level of engagement due to the interesting activities (mean=4.53). The quantitative results were affirmed by the qualitative feedback obtained from the open-ended questions, indicating a consistently positive learning experience and student reception towards the ER implementation. Although they encountered obstacles like stress, internet issues, and unfamiliarity with the ER format, more than 70% of the students agreed that the ER activity was a highly effective learning tool. This digital ER activity also demonstrates promise as an educational tool to encourage active learning and enhance students' motivation in learning medicinal chemistry. The study has showcased the potential benefits of integrating digital ERs into traditional teaching methods, especially for catering to the preferences of Generation Z students in a collaborative learning environment. In addition, the research offers valuable insights into the use of ERs in pharmacy education, contributing to the scarce literature on ER applications in medicinal chemistry and opening avenues for further research on ER-based educational strategies.
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