April 16, 2026
Description
05-16-2026 - I turned this model into a full kit you can either assemble yourself or buy fully assembled. I made an Etsy store page for it, feel free to check it out!
https://layolabs.etsy.com/ca/listing/4488604052/dynamic-extraocular-muscle-simulator
02-13-2026 - Vers 2 - globe no longer need supports + build guide cord lengths updated.
This 3D-printed model of the orbit and extraocular muscles is designed as a hands-on teaching and learning tool. It helps demonstrate the complex, multi-directional movements of the eyes in a way that static images or cadaveric dissection can’t.
By pulling elastics representing the extraocular muscles, you can show both isolated and combined effects on gaze direction. Adjustable tension makes it possible to simulate pathological states like cranial nerve palsies or muscle entrapments. Integrated bony landmarks provide realistic anatomical context.
Interactive, dynamic model that demonstrates real eye movements
Elastics simulate muscle actions with adjustable tension
Can demonstrate cranial nerve palsies, entrapments, and paresis
Includes bony landmarks for orientation and context
Designed to be low-cost (under $50 USD in materials) and printable/assembled in a day or two
Classroom teaching and demonstrations
Self-directed study for medical students or trainees
Visualizing and understanding neuromuscular control of eye movements
Simulating differential diagnosis of gaze abnormalities
See Build Guide in the files section for specific instructions
PLA 1.75 mm filament
White: 642 g (180 g for Base, 382 g for Front, 80 g for Globe)
Black: 1 g (Pupil)
Red: 1 g (Orientation Marker)
Blue: 2 g (Iris)
3 m x 2.5 mm red elastic cord
6 plastic rope cord locks
M6 x 150 mm stainless steel threaded rod
2x M6 nut
1x M6 female threaded ball knob
(Optional)
1x ¼-20 nut (for mounting on a tripod)
9x 3x10 mm round neodymium magnets (to hold left and right models together when in use)
License:
Creative Commons — Attribution — Noncommercial — Share Alike
LAlaga
