Rhinology
The Bookface Sinus Model is an anatomical model with a "sliced" design that opens to provide realistic multi-angled detail of intricate paranasal sinus anatomy. Perfect for illustrating to patients procedures such as Functional Endoscopic Sinus Surgery (FESS), Septoplasty, and Turbinate Reduction. Its aesthetic appeal also makes it a great addition to an ENT surgeon’s desk.
Rhinology
The Midface Surgical Simulation Model provides a highly realistic platform for endonasal surgical training, featuring removable cartridges that replicate nasal sinus anatomy essential for Functional Endoscopic Sinus Surgery (FESS). Designed for cost-effective, pathology-specific practice, this model allows surgeons to refine their skills with versatile, replaceable cartridges, ensuring continuous and comprehensive training.
Otology
The Temporal Bone Model 2-Year-Old is a high-precision synthetic otology model designed to replicate real surgical conditions. It features anatomically accurate structures, including the facial nerve, cochlea, and ossicles, allowing for hands-on training in procedures such as cochlear implantation, mastoidectomy, and ossiculoplasty. With lifelike bone texture, a self-draining system, and a patented removable tympanic membrane, this model enhances surgical precision and confidence.
Otology
The Temporal Bone Model 64-Year-Old is a high-fidelity surgical simulation tool designed for advanced otology and neurotology procedures, offering ultra-realistic anatomical detail and surgical feedback. Available in three configurations (MINI, MIDI, MAX), this model enables surgeons to practice procedures like cochlear implantation, mastoidectomy, and ossiculoplasty, with features such as realistic bone drilling feedback, a functional ossicular chain, and a hollow cochlea for implant simulations, ensuring a precise and repeatable training experience.
Transorbital surgery
The Transorbital Surgical Simulation Model is a precision-crafted, life-size 3D model with a range of removable orbits offering detailed visualization of the bony orbit, foramina, fissures, and optic canal. Includes normal sphenoid sinuses, well-pneumatised sphenoid sinuses with Sternberg Canal defect, and orbits with integrated soft-tissue suitable for hands-on surgical simulation.