Impaction Model – Modular Training System for Third Molar Surgery
The Impaction Model is a meticulously engineered mandibular simulation tool designed to replicate the clinical challenges of third molar impactions. Ideal for both academic instruction and pre-clinical surgical training, this model enables learners and practitioners to visualize, reflect, and execute flap elevation, bone sectioning, and tooth removal procedures with anatomical precision.
Crafted with a high-definition 3D printed base, the model features a reusable platform with replaceable tooth segments, allowing repeated practice of surgical protocols without compromising structural integrity. Each segment includes a 3D printed third molar embedded in a styrofoam bone section, mimicking cancellous bone texture for realistic tactile feedback during osteotomy and elevation.
The silicon soft tissue layer is calibrated for optimal thickness and elasticity, enabling lifelike flap reflection and suturing practice post-extraction. The model’s modularity supports easy replacement of surgical zones, making it ideal for iterative training, skill assessment, and demonstration of technique variations.
Color-coded anatomical zones—Soft Tissue, Bone, and Tooth—enhance conceptual clarity during:
Flap design and reflection
Bone guttering and sectioning
Forceps and elevator application
Grafting and suturing protocols
Securely mounted on a stable base, the Impaction Model ensures consistent positioning during hands-on procedures, facilitating ergonomic practice of finger rests, instrument angulation, and surgical sequencing.
Color: Multicolor
Size: 8.5 cm height, 12 cm length, 14 cm width
Material: 3D Printed in PLA (Base) & Resin (Teeth), Styrofoam (Bone) and Silicon (Soft tissue)