Creating the Next Generation Interventional Robot

With the automated interventional system, we envision a future whereby any doctor can be trained in 15 minutes to use the machine to deliver the guidewire to the target lesion.
Key Technologies

Making use of AI to automatically identify the target lesion, construct the 3D vessel, plan the path from the guidewire insertion point to the target lesion and create the magnetic field required to guide the guidewire autonomously from the starting point to the target location.

Integrated Interventional Functions

Clot Clearance

We integrate with clot removing stent to enable removal of clot remotely

Stenosis Stent Placement

We integrate with balloon stent to enable remote placement of stent for widening of the narrowed artery

Aneurysm Surgery

We integrate with dense mesh stent to enable blocking out of aneurysm surgery remotely

Product Values

Reduce
Radiation Exposure

By enabling remote control of interventional surgery, doctors will not need to be beside the surgical table and DSA machine, thus reducing their radiation exposure.

Lower
Interventional Barrier

By enabling AI to automatically guide the guidewire, we greatly reduce the surgical barrier of doctors manually delivering the guidewire.

Standardize
Interventional Surgery

By having the guidance of the guidewire done automatically by AI, we can greatly standardize the procedure of guidewire delivery.

Facilitate
Complex Surgery

Irregardless of how complex the interventional path may be, the system can automatically and safely deliver the magnetic guidewire to the desired location by controlling the magnetic field intelligently.

Enable
Remote Surgery

With our automatic delivery system and remote control system, we empower and enable doctors to conduct remote surgery.

Technical Breakthroughs
50
Innovative Engineerings
30
Collaborating Hospitals
10
Collaborating Clinicians
20

Our Partners

A Cross-Domain Team of Experts