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Optic nerve 3D Models

Find the best Optic nerve 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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corneanerveslens-retinaocular
Anonymous1757675309
“Create a 3D human eye model showing refractive errors, including myopia and hyperopia effects on lens focusing. Include cornea, lens, retina, optic nerve, and iris. Show how light focuses incorrectly on the retina. Cross-section view, realistic textures, VR-ready. Label all structures for educational clarity. Style: scientific, interactive, hyper-realistic 3D model.”
Anonymous1772516698
“Generate a 3D cross-section of a human eye with age-related macular degeneration. Show macula degeneration, drusen deposits, and retinal atrophy, affecting central vision. Include cornea, lens, optic nerve, retina, and iris. High-detail textures, soft medical lighting, suitable for VR simulations. Label all key anatomical structures. Style: medical educational, hyper-realistic 3D.”
Anonymous1772516698
“Create a high-resolution 3D model of a human eye affected by diabetic retinopathy. Show retinal hemorrhages, microaneurysms, and neovascularization. Include lens, cornea, retina, macula, and optic nerve. Cross-section view with realistic textures and medical lighting. Label all major parts. Style: scientific, hyper-realistic, VR-ready 3D anatomy model.”
Anonymous1772516698
“Generate a 3D cross-section of a human eye with glaucoma. Highlight optic nerve damage and increased intraocular pressure, showing cupping of the optic disc. Include cornea, lens, retina, and iris. Render with realistic textures and lighting for VR use. Label structures clearly. Style: medical 3D, volumetric, interactive educational model.”
Anonymous1772516698
“Create a highly detailed 3D anatomical model of a human eye with cataract. Show a cloudy, opaque lens clearly affecting light entry. Include cornea, iris, retina, and optic nerve. Render in cross-section view, realistic textures, soft medical lighting, suitable for VR educational simulations. Label key structures: lens, cornea, retina, iris, optic nerve. Style: hyper-realistic, medical, volumetric 3D.”
Anonymous1772516698
a strucrure of human cranial nerves strucrure of human eye with detail nerves
Anonymous1772959498
Anonymous1772839477
i want 3d eye with all the parts in the photo
Anonymous1772839477
sistema nervioso centarl humano
Anonymous1772817329
Anonymous1767618490
Create a highly detailed 3D medical visualization of a human eye affected by diabetic retinopathy. The eye should be shown in cross-section to clearly display internal anatomical structures, including the cornea, lens, vitreous humor, retina, optic nerve, and blood vessels. Focus on the retina showing visible pathological changes associated with diabetic retinopathy: microaneurysms, dot and blot hemorrhages, hard exudates (yellow lipid deposits), cotton wool spots, retinal swelling, and areas of neovascularization with fragile, abnormal blood vessel growth. The style should be hyper-realistic, medically accurate, and suitable for an ophthalmology textbook or clinical presentation. Use dramatic but clinical lighting to highlight damaged retinal areas. The texture should show subtle inflammation and vascular leakage. Render in high resolution (4K), photorealistic materials, subsurface scattering for organic tissue, and sharp anatomical detail. Neutral background, studio lighting, scientific visualization style
Anonymous1772516698
Anonymous1764272137
Anonymous1770831841
Create a realistic 3D human eye anatomy model for educational augmented reality. The eye should be a medical cross-section showing internal structures clearly. IMPORTANT: Each anatomical part must be a separate object mesh with proper names for interaction. Required separate parts: Cornea Iris Pupil Lens Retina Optic_Nerve Sclera Vitreous_Body The outer layer should be slightly transparent so internal parts are visible. Style: Realistic medical educational model, clean geometry, smooth surfaces, accurate proportions. Colors: Natural medical colors with subtle shading. Topology: Optimized for real-time mobile rendering (low to medium polygon count). Center: Model centered at origin with correct scale. Export: GLB / glTF format with separate selectable meshes. Purpose: Interactive AR learning where users tap individual parts to display information. Background: No background or environment.
Anonymous1771491818
Anonymous1771079226
Anonymous1770383376
Anonymous1770383376
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