[1] Suitable for the simulation training of various ophthalmic surgeries such as intraorbital tumor resection, as well as for anatomical teaching, case demonstration, clinical training, surgical planning and surgical instrument operation training.

[2] Reconstructed and designed based on medical imaging data, it highly accurately reproduces the anatomical structures of the human eye (including orbital bone, eyeball, muscles, optic nerve, lacrimal gland, etc.).

[3] Adopting multi-material 3D printing technology combining rigid and flexible materials, it simulates the realistic texture of different ocular tissues (the orbital bone is rigid, while the eyeball, muscles, optic nerve, lacrimal gland and other structures are flexible).

[4] Customizable pathological models can simulate various lesions to meet diverse training requirements.