3D Numerical Simulation
Our Technology
Our patented technology has been made as accurate and robust as possible, to predict intervention proceedings and possible outcome in any clinical case and especially complex ones.
We make use of medical images, like CT-scan, to generate 3D modelling of patient-specific anatomy. Users can then choose a medical device among our large database of digitized models and run automated numerical simulation of the intervention. Simulation accuracy is ensured by taking into account material properties and physics of medical devices and organs, interacting one with the other.

3D Numerical Simulation
Our Technology

We make use of medical images, like CT-scan, to generate 3D modelling of patient-specific anatomy. Users can then choose a medical device among our large database of digitized models and run automated numerical simulation of the intervention. Simulation accuracy is ensured by taking into account material properties and physics of medical devices and organs, interacting one with the other.
The Key Features

Patient-specific
3D models generated from medical images like preoperative CT‑scan.

Device specific
Up-to-date digital models of commercialized devices from all major firms.

Accurate
Proven accuracy by reproducing material properties and organs behavior.

Robust
Tested and working on large combination of patient and device, even in most complex cases.
The Key Features

Patient-specific
3D models generated from medical images like preoperative CT‑scan.

Device specific
Up-to-date digital models of commercialized devices from all major firms.

Accurate
Proven accuracy by reproducing material properties and organs behavior.

Robust
Tested and working on large combination of patient and device, even in most complex cases.
Field of expertise
Our first simulation process is dedicated to design custom-made stent-grafts that fit the best within patient-specific arteries, in case of complex aortic aneurysms. Our 3D modelling technique determines the exact position where fenestrations or branches should be placed on manufactured stent-graft to get right in front of patient collateral arteries when deployed.
We are striving to offer more and more services to our customer. Our team is constantly developing our simulation technology to expand indications in aortic and cardiac field, for future products that will help planning and performing more endovascular interventions.
Field of expertise
Our first simulation process is dedicated to design custom-made stent-grafts that fit the best within patient-specific arteries, in case of complex aortic aneurysms. Our 3D modelling technique determines the exact position where fenestrations or branches should be placed on manufactured stent-graft to get right in front of patient collateral arteries when deployed.
We are striving to offer more and more services to our customer. Our team is constantly developing our simulation technology to expand indications in aortic and cardiac field, for future products that will help planning and performing more endovascular interventions.