Artificial intelligence-based online platform assists blood cell morphology learning: A mixed-methods sequential explanatory designed research

Background The study aimed to evaluate the effectiveness of learning blood cell morphology by learning on our Artificial intelligence (AI)-based online platform.MethodsOur study is based on mixed-methods sequential explanatory design and crossover design. Thirty-one third-year medical students were randomly divided into two groups. The two groups had platform learning and microscopy learning in diferent sequences with pretests and posttests, respectively. Students were interviewed, and the records were coded and analyzed by NVivo 12.0.ResultsFor both groups, test scores increased significantly after online-platform learning. Feasibility was the most mentioned advantage of the platform. The AI system could inspire the students to compare the similarities and differences between cells and help them understand the cells better. Students had positive perspectives on the online-learning platform.ConclusionThe AI-based online platform could assist medical students in blood cell morphology learning. The AI system could function as a more knowledgeable other (MKO) and guide the students through their zone of proximal development (ZPD) to achieve mastery. It could be an effective and beneficial complement to microscopy learning. Students had very positive perspectives on the AI-based online learning platform. It should be integrated into the course and curriculum to facilitate the students.Practice pointsThe AI-based online platform could assist medical students in blood cell morphology learning.The AI system could function as an MKO and guide the students through their ZPD to achieve mastery.The AI-based online platform could be an effective and beneficial complement to microscopy learning.The AI-based online platform should be integrated into the curriculum to facilitate the students.

Automated summary

The effectiveness of learning blood cell morphology on an AI-based online platform was evaluated. A mixed-methods sequential explanatory design and crossover design were used in the study. Results showed that test scores increased significantly after online-platform learning, and the AI system helped students compare and understand cells better. Students had positive perspectives on the online-learning platform. Therefore, the AI-based online platform could be an effective complement to microscopy learning and should be integrated into the curriculum.