Today, many procedures that were once highly invasive are now being performed via minimally invasive techniques, with the added benefit of robotic precision and radiation protection.
Since the introduction of intervention 40 years ago, there has been an astonishing amount of advancement in the technology and devices used in the procedure, however the way the procedure is performed has remained virtually unchanged. Now, robotics has the potential to overcome some of the current limitations of the traditional manual approach to vascular interventions.
ROBOTIC PRECISION MAY IMPROVE OUTCOMES, ECONOMICS & SAFETY
ASSESS ANATOMY
NAVIGATE
MEASURE
ANATOMY
POSITION STENT
DEPLOY STENT
ORTHOPEDIC
STRAIN & FATIGUE
radiation exposure
The CorPath System is the first FDA-cleared robotic platform designed for interventional physicians. During a CorPath Robotic-assisted intervention, physicians sit in a radiation-shielded workstation and use a set of joysticks
and touchscreen controls that translate the physician’s movements into device control. Robotic-assisted intervention enables precise measurement of anatomy and device
positioning with the added benefit of radiation protection for the
physician and the potential to reduce radiation exposure
for staff and patients.
The CorPath System is the first FDA-cleared robotic platform designed for interventional physicians. During a CorPath Robotic-assisted Intervention, physicians sit in a radiation-shielded workstation and use a set of joysticks and touchscreen controls that translate the physician’s movements into device control. Robotic-assisted intervention enables precise measurement of anatomy and device positioning with the added benefit of radiation protection for the physician and the potential to reduce radiation exposure for staff and patients.
