3D-printed model designed with advanced anatomical complexity for high-fidelity learning.

Features include a free gingival margin, gingival sulcus, attachment zone, and vestibule.

Suitable for students at all levels, offering both foundational and advanced training opportunities.

Replicates endodontic system within the tooth for realistic extraction techniques.

Made from suture-friendly material to support full procedure simulation.

Model includes a realistically contoured gingival sulcus for precise incision training.

Simulates true tissue resistance and tooth attachment structure.

Compatible with standard surgical blades and techniques.

Option to enable simulated bleeding, enhancing realism for advanced scenarios.

Designed to teach structural anatomy and initial tooth detachment.

Accurately replicates multi-layered soft tissue, including gingiva, mucosa, and periosteum.

Supports line angle incision techniques for realistic flap creation.

Designed with tooth spacing and dimensions to teach preservation of adjacent teeth.

Allows for root-aware incision planning, ideal for teaching surgical foresight.

Wide base flap design enables realistic access for bone removal if needed.

Features replicated gingival sulcus and realistic tissue attachment zones.

Accurately mimics soft tissue resistance and periosteal adhesion.

Includes layered mucosa and periosteum, critical for surgical realism.

Supports training in proper instrument use and technique refinement.

Designed to simulate true tissue behavior, including tearing and separation.

Reinforces anatomical detail necessary for bone access and flap management.

Periodontal ligament simulation provides realistic resistance during elevation—unmatched by other models.

Age-specific anatomy prevents unrealistic extraction success, reinforcing proper technique over force.

Realistic material feel mimics enamel, dentin, and pulp response under pressure.

Encourages instrument selection and technique correction, just as in clinical settings.

Enables students to experience and learn from failure, such as tooth fracture and retained roots.

Radiographs like a real mandible, providing valuable diagnostic training.

Supports critical teaching around preservation of adjacent teeth and anatomical awareness.

Model features accurate alveolar bone and realistic furcation anatomy.

Includes a pulp-filled tooth, replicating internal structure for cutting realism.

Mimics true tooth density and texture, enhancing tactile feedback.

Encourages precision and soft tissue preservation through realistic constraints.

Supports decision-making in instrumentation, including drill bit selection.

Promotes clinical thinking and surgical confidence in a risk-free setting.

Realistic soft tissue layers including mucosa and separate periosteum, enabling accurate elevation and flap manipulation.

Silicone-based gingiva provides lifelike tactile feedback during suturing.

Allows demonstration of flap design and tension-free closure, essential for surgical success.

Supports training in periosteal fenestration and proper tissue separation techniques.

Helps students practice clean extraction site closure—crucial for post-operative healing.

Reinforces correct technique by enabling visible outcomes like proper tissue positioning and closure integrity.

Teaches correct suturing technique: 3mm from the edge, 3mm apart, with 3mm suture tails.

Enables training in tensionless closure, a critical aspect of oral surgery.

Students learn to manage material sensitivity — excessive force will cut the silicone, just like in real tissue.

Supports training in different knot types to prevent slippage, reflecting real surgical challenges.

Accurately replicates gingival flaps for hands-on, practical learning.

The model allows multiple uses, including radiography positioning, tooth extraction, and advanced endodontic procedures.

Made from silicone, it handles well even when wet, simulating real surgical conditions.

Anatomically correct design replicates the jaw with high integrity, including flaps, line angles, and tissue movement.

Trainees can practice suturing, flap creation, and tooth sectioning repeatedly on the same model.

Ideal for learning various complications like fractured roots or compromised tissue from previous procedures.

Offers a dual or even triple purpose, making it cost-effective for all training levels.

Reduces need for cadavers, avoiding biohazards, storage issues, and disposal costs.

Focus on making it economically functional, practical, and eventually recyclable.