Understanding the non-cadaveric model & learning outcomes
  • 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 procedure simulation.
Incising the Gingival Sulcus for Tooth Extraction 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.
Creating a Surgical Flap
  • 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.
Realistic Soft Tissue Response: Elevation and Layered Anatomy
  • 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.
Tooth Sectioning
  • Periodontal ligament simulation provides realistic resistance during elevation
  • 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.
Periodontal Ligament Elevation and Tooth Extraction
  • 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.
  • Promotes clinical thinking and surgical confidence in a risk-free setting.
Soft Tissue Handling
  • 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.
Suturing Techniques with Gingival Flap Replication
  • 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.
Multi-Use Veterinary Dental Training Model: Practical, Realistic, and Economical
  • 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.