The quality of a solution doesn’t depend only on the idea behind it, but above all on the material science that makes it possible.
The first step is selecting the materials. Each composite is selected for a specific set of properties (such as elasticity, density, and tensile behaviour) along with its ability to closely mimic the characteristics of biological tissue. The evaluation process draws on principles from engineering, chemistry, and biomechanics, allowing us to refine each formulation and create models that are not only reliable but also consistently reproducible across different training scenarios.
Once prepared, the materials are evaluated in controlled environments to verify their stability and interaction with actual surgical instruments. This step allows us to identify potential issues before proceeding to broader production.
At the core of the workflow are the mechanical checks: we measure flexibility, incision and suture resistance, and the material’s ability to deliver realistic tactile feedback. These tests are essential, as they determine how effective a simulator will be in the operating room or in advanced clinical training.
One clear goal
From material analysis to final validation, our commitment remains unchanged:
to create more reliable tools in the OR, more realistic simulation scenarios, and ultimately contribute to greater patient safety.
