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Assessment of the Clinical and Economic Impact of Sim&Size, a Simulation Software for Implantable Devices Used in the Treatment of Intracranial Aneurysms: A Prospective Multicenter Study.

Status: Recruiting
Location: See all (6) locations...
Intervention Type: Other
Study Type: Interventional
Study Phase: Not Applicable
SUMMARY

In recent years, endovascular treatment of intracranial aneurysms has seen remarkable growth, now surpassing traditional surgical approaches in terms of frequency of use. However, this transition to endovascular methods is not without its challenges. This type of procedure requires careful selection of the device to be implanted, a decision that is still based on manual two-dimensional measurements. This method is questionable, as it does not always take into account the complexity and specificities of certain aneurysms, where three-dimensional geometry can play a crucial role. As a result, these procedures carry significant risks, such as the need for additional maneuvers to remove or reposition devices, or even deploy another support device, which potentially increases the risk of perioperative complications, the duration of surgery, and the amount of radiation required for imaging. Beyond the impact on the patient, these complications also result in additional costs for the healthcare system, expenses that could likely be avoided if more precise and appropriate tools were used from the outset of the procedure. In this context, optimizing the choice of endovascular devices could have both clinical and economic impacts. Innovative technology such as Sim\&Size, which supports healthcare professionals in their therapeutic decisions and choice of the appropriate endovascular device, should therefore improve the effectiveness and efficiency of endovascular treatments. Sim\&Size is a Software as a Medical Device (SaMD) intended to provide a 3D view of the final placement of neurovascular implantable medical devices of the following types: flow diverters, intrasaccular devices, stent devices, and coils. It uses an actual image of the patient produced by 3D rotational angiography. It offers physicians the possibility of simulating the deployment of implantable medical devices in the artery to be treated and predicts the final placement and the extent of apposition of the implant. Sim\&Size has CE marking and FDA clearance. This study is a prospective, randomized, multicenter study whose main objective is to show that the use of Sim\&Size during the standard endovascular procedure, compared with a standard endovascular procedure without Sim\&Size, reduces both the actual costs of the hospital stay and the rate of perioperative complications.

Eligibility
Participation Requirements
Sex: All
Minimum Age: 18
Healthy Volunteers: f
View:

• Patients aged ≥18 years planned to be treated endovascularly for unruptured intracranial aneurysms.

• Planned implantable device models is available in the Sim\&Size simulation database and used following their approved indications.

• Affiliated with the French social security system.

• Signed the information and consent form

Locations
Other Locations
France
CHU d'Angers
RECRUITING
Angers
CHU de Bordeaux
RECRUITING
Bordeaux
Hôpital Bicêtre AP-HP
RECRUITING
Le Kremlin-bicêtre
Hôpital de La Timone
NOT_YET_RECRUITING
Marseille
Fondation Rothschild
NOT_YET_RECRUITING
Paris
CHU de Reims
NOT_YET_RECRUITING
Reims
Contact Information
Primary
Amandine RENE
a.rene@sim-and-cure.com
+33783477287
Time Frame
Start Date: 2026-04-10
Estimated Completion Date: 2028-06
Participants
Target number of participants: 576
Treatments
Active_comparator: Manual planning
Investigator will use manual two-dimensional measurements to assess which neurovascular implantable medical device to use to treat the intracranial aneurysm.
Experimental: Sim&Size planning
Investigator will use Sim\&Size software, which allows for three dimensional representation of the aneurysm and for simulation of the placement of different types of devices, to support the choice of the neurovascular implantable medical device used to treat the intracranial aneurysm.
Related Therapeutic Areas
Sponsors
Leads: Sim&Cure

This content was sourced from clinicaltrials.gov