Customization: Tailored to each patient’s unique anatomy, ensuring precision and accuracy.
Realism: High-fidelity representation of bones, organs, blood vessels, and other anatomical structures.
Durability: Made from materials (PLA, ABS, Nylon, Resin) suitable for surgical practice and repeated handling.
Various Sizes: Available in different sizes, from small anatomical structures to full-body replicas.
Transparency Options: Some models can include transparent sections to showcase internal structures.
Colour Coding: Anatomical models can be color-coded to highlight specific structures or pathologies.
Interactivity: Some models can be manipulated to simulate surgical procedures or educational demonstrations.
Sterilization: CIDEX, ETO, Autoclave, Gamma Sterilization
Surgical Planning: Used by surgeons to visualize and practice complex procedures before performing them on patients, reducing risks and improving outcomes.
Medical Education: Valuable tools for teaching anatomy and surgical techniques to medical students, residents, and healthcare professionals.
Patient Education: Enhance patient understanding of their condition and treatment options by providing a tangible representation of their anatomy.
Research: Aid in medical research and device development by providing realistic anatomical models for experimentation and testing.
Minimally Invasive Procedures: Assist in the planning and practice of minimally invasive surgeries, such as laparoscopy and endoscopy.
Orthopedic: Useful for planning joint replacements, deformity corrections, and other orthopedic surgeries.
Cardiology: Used for planning complex cardiac procedures like valve replacements and congenital defect repairs.
Radiology: Aid in refining interpretation skills of radiologists by providing a physical reference for complex cases.
Tarsus Nail Catalogue
Tarsus Nail Surgical Technique
Tarsus Nail IFU
CE Approved
USFDA 5K Cleared