The Teixido Membranous Labyrinth is an educational resource developed by Dr. Michael Teixido as part of his interactive BPPV Viewer application available at bppviewer.com. This 3D model is based on detailed MRI scans and accurately depicts the membranous canals of the inner ear, providing a detailed and durable reference for those studying or explaining the nuances of BPPV. Printed in full color and made from sturdy nylon, the model is designed for learning and discussion in both clinical and educational environments.
The Membranous Labyrinth is an educational resource developed by Dr. Michael Teixido as part of his interactive BPPV Viewer application available at bppviewer.com. This 3D model is based on detailed MRI scans and accurately depicts the membranous canals of the inner ear, providing a detailed and durable reference for those studying or explaining the nuances of BPPV. Printed in full color and made from sturdy nylon, the model is designed for learning and discussion in both clinical and educational environments.
Membranous Labyrinth – Left Ear (Multi-Color)
$115.00
The Teixido Membranous Labyrinth is an educational resource developed by Dr. Michael Teixido as part of his interactive BPPV Viewer application available at bppviewer.com. This 3D model is based on detailed MRI scans and accurately depicts the membranous canals of the inner ear, providing a detailed and durable reference for those studying or explaining the nuances of BPPV. Printed in full color and made from sturdy nylon, the model is designed for learning and discussion in both clinical and educational environments.
Out of stock
Description
The Membranous Labyrinth is an educational resource developed by Dr. Michael Teixido as part of his interactive BPPV Viewer application available at bppviewer.com. This 3D model is based on detailed MRI scans and accurately depicts the membranous canals of the inner ear, providing a detailed and durable reference for those studying or explaining the nuances of BPPV. Printed in full color and made from sturdy nylon, the model is designed for learning and discussion in both clinical and educational environments.