Eyeball and orbital magnification model

The eyeball and orbital magnification model is a professional teaching aid used in medical education and clinical demonstrations. It is made several times the actual structure of the human body, which can more clearly and intuitively display the fine anatomical features of the eye.

Models are usually made of high-molecular environmentally friendly materials and have a realistic structure, including parts such as the eyeball, optic nerve, extraocular muscles, lacrimal apparatus and orbital bony structures. Its magnification design makes tiny anatomical details such as the cornea, iris, lens, vitreous body and retina clearly visible, facilitating learners' observation and disassembly and assembly.

Some models can be dissected layer by layer to display the internal structure of the eyeball and the distribution of blood vessels, which helps to understand the principles of light conduction and visual imaging. In teaching applications, trainees can use this model to master the attachment points and movement mechanisms of the extraocular muscles, understand the relationship between the optic nerve and the cranial cavity, and at the same time learn the clinical operation approach in combination with orbital bone markers.

In clinical practice and patient education, this model can visually demonstrate the occurrence sites and pathological mechanisms of common diseases such as cataracts, glaucoma, and retinopathy. Through repeated demonstrations and operations, learners can better combine theory with practice. The eyeball and orbital magnification model is not only an important tool in ophthalmology and anatomy classes, but also an ideal carrier for clinical communication and popular science display.