Value-Based Robotics, Pt.5: Making Medical Robotics Truly Accessible
Learn how our cost-effectiveness approach to medical robotics makes Micromate™ the most accessible robot for every hospital.
Learn how our cost-effectiveness approach to medical robotics makes Micromate™ the most accessible robot for every hospital.
Learn how the iFIX Armrest is helping three clinical teams with proper patient positioning during interventions.
The latest version of the miniature robotic system was first used in a series of CT-guided percutaneous biopsies of the lung, spleen, and bone.
Learn how Micromate™ helped the clinical team at St. Antonius Hospital, in the Netherlands, harvest multiple omental biopsy samples with submillimeter accuracy.
The new subscription service is the first to offer a full-fledged medical robot for percutaneous interventions for an affordable, fixed monthly fee.
See how Micromate™ helped the clinical team at St. Antonius Hospital, in the Netherlands, successfully perform a cryoablation of an osteoid osteoma.
Prophecies foreshadowing how robots will replace humans are as old as robots themselves. Could this be what the future holds for medical robots, too? From what we’ve been witnessing, the answer is no.
Interventional Systems finished the implementation of the IraSME project “E-GantryMate: Compact MRI compatible device for MRI guided percutaneous needle interventions”.
See how Micromate™ helped the clinical team at Ordensklinikum Linz Barmherzige Schwestern, Austria, perform a Bone Biopsy.
When there’s a widespread shortage of CT contrast, every conservation strategy is welcome. Learn how iFIX patient positioning system can help.
Interventional Systems is proud to announce the signature of a strategic collaboration agreement with the Johns Hopkins University’s Whiting School of Engineering for the development of novel solutions to enhance the accuracy of robotic-assisted percutaneous procedures.
Interventional Systems announced the newest addition to Micromate™’s product suite: a planning and navigation station that will make the needle-based intervention miniature robot available for use with CT scanners.
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