Application of a 3D-printed eye model for teaching direct ophthalmoscopy to undergraduates

Purpose This study aims to design an eye model that can simulate the fundus for teaching direct ophthalmoscopy and to evaluate its effectiveness. Methods We first used 3D printing materials to make an eye model and then randomly assigned 92 undergraduates into group A (model-assisted training group) and group B (traditional training group) to test our model. After the same training time, real patients were used to test the students, with 120 s as the examination time limit. We recorded the students' ability to clearly see the optic disk, the time to determine the cup-to-disk ratio, and whether they were correct. Results Forty-three students in group A (93.48%) successfully saw the fundus, while 21 in group B (45.65%) succeeded. The difference between the two groups was 47.83% (95% confidence interval, 29.59-66.07%, P < 0.0001). The median time to see the fundus was 29s (95% confidence interval 23-45 s) in group A, while an estimated minimum time in group B was 80 s, indicating that group A was significantly faster than group B (P < 0.0001). Conclusions This 3D-printed eye model significantly improved the students' study interest, study efficiency, and study results and is worthy of being promoted.