ExcelsiusGPS® maneuvers like a navigation system in a vehicle; The platform technology is designed to improve safety and accuracy within the operating room through improved visualization of patient anatomy during a procedure to help optimize patient treatment.

This revolutionary robotic navigation platform is the world’s first technology to combine a rigid robotic arm and full navigation capabilities into one adaptable platform for precise alignment in spine surgery. The Surgeon controls the ExcelsiusGPS® during a procedure. The system is designed to streamline the surgical workflow and efficiency while reducing radiation exposure to surgeons, staff, and patients.

What is Minimally Invasive Spine Surgery? 

Minimally invasive surgery combines your surgeon’s understanding of anatomy with x-ray imaging to treat spine conditions using small incisions. A minimally invasive technique permits the surgeon to separate the muscles surrounding the spine rather than cut through them. The surgeon operates through small incisions along the spine. It is important to understand that the decision to receive minimally invasive surgery is individualized to the patient and the patient's symptoms. It is important to discuss with your physician whether minimally invasive surgery is right for you.

What are the Potential Benefits of Minimally Invasive Spine Surgery?

  • Shorter hospital stay
  • Less tissue damage
  • Smaller incisions, which may lead to smaller scars

How Does ExcelsiusGPS™ Work? 

ExcelsiusGPS™ is the next revolution in robotic spine surgery from Globus Medical, a developer of spinal and orthopedic implants and surgical instruments for patients with spine disorders. ExcelsiusGPS™ is designed to improve accuracy and optimize patient care by using robotics and navigation, much like a GPS in your car. On the day of surgery, medical images are taken and imported into ExcelsiusGPS™. The surgeon uses these images to determine the size and placement of implants and creates a patient plan based on your anatomy. This is used to guide the rigid robotic arm to a specific region of your spine, similar to a planned route or pathway on a GPS. The surgeon uses this pathway or route to accurately place the implants using instruments. Throughout the procedure, the surgical instruments and implants are continuously displayed on the screen for the surgeon and staff to monitor. This display allows the surgeon to view live feedback during your procedure for more precise implant placement.

Questions to Ask Your Surgeon 

If you are experiencing chronic back pain that is unresponsive to non-surgical treatment, you may be a candidate for minimally invasive spine surgery in conjunction with ExcelsiusGPS™. Talk to your doctor to learn more and find out if this option is right for you.

  • Am I a candidate for minimally invasive spine surgery with ExcelsiusGPS™?
  • How can I benefit from minimally invasive spine surgery with ExcelsiusGPS™?
  • What can I expect the day of the surgery?
  • What can I expect post-surgery

Excelsius3D™ G-Arm Spine Surgery Technology

The Excelsius™ Technology tools allow our Neurosurgery team to provide more efficient care for our patients by combining cone-beam CT, fluoroscopy, and digital radiography, the system eliminates the need for multiple imaging devices throughout a spine surgery procedure. Excelsius3D™ integrates haptic-touch response and smart position memory to enhance execution, eliminate redundancies, and boost procedural automation.

Excelsius3D™ combined with ExcelsiusGPS®, a revolutionary robotic navigation platform, is designed to improve implant placement accuracy, lower radiation exposure, and shorten operative times.