INNOVATIVE TECHNOLOGY TO EMPOWER EXPERT HANDS
At Everest, elite outcomes start with elite tools. We invest in advanced surgical technology—robotics, AI-assisted imaging, and state-of-the-art platforms—so our surgeons can operate with greater precision, shorten recovery times, and enhance patient safety.
ORTHOGRID HIP AI
Orthogrid AI is an advanced, AI-powered imaging platform that guides surgeons in achieving precise alignment and implant positioning during joint replacement procedures.
By analyzing real-time intraoperative imaging, Orthogrid supports accurate, efficient decision-making without adding extra steps to the workflow.
For surgeons, it reduces variability and streamlines procedures. For patients, it means safer surgery and outcomes you can trust.
MAKO 4 ROBOT BY STRYKER
Everest is proud to be the first facility in the Treasure Valley to implement the newest generation of the MAKO Robot from Stryker, the MAKO 4. It represents the latest advancement in robotic-assisted joint replacement. Designed for total knee, partial knee, and total hip procedures, it combines advanced 3D planning with real-time robotic guidance to support precise implant positioning and balanced joint alignment.
For surgeons, MAKO 4 offers data-driven planning, intraoperative accuracy, and a streamlined workflow that enhances reproducibility and control.
For patients, it means a procedure built around your individual anatomy—with technology designed to improve precision, protect healthy tissue, and support a confident recovery.
STRYKER SYSTEM 9 POWER TOOLS
The Stryker System 9 Power Tools are the latest in orthopedic instrumentation, built for precision, reliability, and performance even in the most complex surgeries.
Their advanced design enhances control and accuracy for surgeons, while patients experience the benefits of streamlined procedures and consistent outcomes.
With System 9, every cut, drill, and placement is supported by technology that prioritizes safety, efficiency, and optimal results.
MEDTRONIC AQUAMANTYS
The Aquamantys System by Medtronic is an advanced vessel-sealing technology designed to control bleeding and reduce blood loss during orthopedic procedures. Using a unique combination of radiofrequency energy and saline, it enables precise coagulation while protecting surrounding tissue.
By enhancing hemostasis and maintaining a clear surgical field, Aquamantys supports efficiency, safety, and consistent outcomes — helping patients experience smoother procedures and a more stable recovery.
STRYKER CORE 2
The Stryker Core 2 Surgical System is a versatile, next-generation surgical platform engineered for precision, control, and efficiency across a wide range of orthopedic procedures.
Its intuitive design empowers surgeons to work with confidence and accuracy, while patients benefit from procedures that are streamlined, consistent, and tailored to their anatomy.
Core 2 combines advanced ergonomics and responsive performance to help ensure safer surgeries, improved outcomes, and a smoother recovery experience.
GE OEC 9900 C-ARM
The GE OEC 9900 C-Arm is a leading imaging platform that delivers high-resolution, real-time images to support precision and accuracy during orthopedic procedures.
Its advanced visualization capabilities allow surgeons to see anatomy clearly and make confident, data-driven decisions, while patients benefit from procedures that are safer, more efficient, and designed to preserve healthy tissue.
By combining reliability, clarity, and intuitive operation, the OEC 9900 helps optimize surgical outcomes and supports a smoother recovery experience.
HANA SURGICAL TABLE
The Hana Surgical Table is designed for anterior approach hip replacements and other orthopedic procedures, enabling exact positioning and optimal access for surgeons.
Its specialized platform supports minimally invasive techniques that reduce muscle disruption, helping patients recover more quickly and with less discomfort.
By combining ergonomic design with workflow efficiency, the Hana table ensures surgeries are safer, more controlled, and designed around each patient’s anatomy and mobility needs.