Anatomically Accurate Human Eye 3D Mode Low-poly 3D model

This 3D model offers a breathtaking, anatomically precise showcase of the Human Eye, designed for medical visualization, educational content, and advanced 3D production workflows. The model features a complete eyeball with realistic spherical architecture, capturing every major component involved in human vision.

It includes a transparent cornea that functions as the primary focusing lens, a detailed iris with a muscular pupil that dynamically controls light entry, and a suspended crystalline lens held by zonular fibers to support accommodation. The retina lines the posterior chamber like a biological sensor, converting light into neural signals, while the macula and its central fovea highlight the region responsible for sharp central vision.

This model reveals intricate internal structures such as the aqueous humor-filled anterior chamber, the gel-like vitreous body, and the vascular-rich choroid nourishing the outer retina. The sclera wraps the eye in structural integrity, and the optic nerve emerges from the optic disc as a thick bundle of over one million fibers transmitting visual data to the brain.

Also included are the six extraocular muscles superior, inferior, medial, and lateral recti, plus the superior and inferior obliques illustrating how the eye moves with remarkable precision. External anatomical details such as orbital fat, lacrimal gland, eyelids, and conjunctiva are modeled to emphasize protection, lubrication, and physical support.

This model is lit using sophisticated medical visualization lighting to bring out the semi-translucent textures and internal depth. Cross-sectional views are included to clearly demonstrate internal relationships and allow flexible educational or creative use. This model inspires awe at the biological complexity that enables human vision and is ideal for anatomy studies, simulations, AR/VR environments, and medical content.