
Advanced Technology & Smart Surgical Solutions
Designed to enhance safety and improve efficiency for patients, staff and surgeons in operating rooms around the world every day.
Excelcius GPS
Revolutionary Robotic Navigation
Revolutionary Robotic Navigation
ExcelciusGPS is a revolutionary robotic navigation platform.
The system is designed to be intuitive and streamline the surgical workflow.
Real-time tracking of instruments and implants, along with
audible, visual, and tacticle feedback, enables confidence
throughtout the procedure.
The system is designed to be intuitive and streamline the surgical workflow.
Real-time tracking of instruments and implants, along with
audible, visual, and tacticle feedback, enables confidence
throughtout the procedure.
Robotic Guidance
The active End Effector regulary communicates with the camera to dynamically adjust arm position and optimize kinematics. The End Effector aligns the rigid robotic arm along the planned trajectory to enable precise implant placement with GPS instrument
Navigation
ExcelciusGPS provides real-time visualization of instrument and implant
positioning with respect to patient anatomy which may help reduce
the amount of radiation required throughtout the procedure.
Navigation provides continuous feedback and visualizaation. Surgeon confirm
final implant positioning and ultimately receive more information to make
informed clinical decision
positioning with respect to patient anatomy which may help reduce
the amount of radiation required throughtout the procedure.
Navigation provides continuous feedback and visualizaation. Surgeon confirm
final implant positioning and ultimately receive more information to make
informed clinical decision

Minimal Setup
Setup for ExcelciusGPS involves system draping and simple positioning of the frameless robotic arm. When the procedure is complete the camera stand docks into the base station as one mobile unit for easy storage and movement between operating rooms.

Ridgid Robotic Arm
The robotic arm automatically moves along the planned trajectory. The rigidity of the
robotic arm remains stable during implant insertion on steep trajectories
robotic arm remains stable during implant insertion on steep trajectories

