The World’s Most Advanced Robotic-Assisted Surgical Technology

The robotic technologies and treatments at the Institute for Robotic surgery are clinically proven to provide added surgical accuracy, preferred patient outcomes, and increased patient safety.

The da Vinci Xi Robotic Surgical System is a valuable tool that allows our already extraordinary surgeons to perform at a higher level. Having advanced technology is critical to our patient-first philosophy—it enables our community to receive the best care available right in their backyard.

The da Vinci Xi Robotic Surgical System may be the solution for you if you are in need of the following procedures: Bariatric Surgery, Heller Myotomy, Gastrectomy, Hernia Repair, Gallbladder Surgery, Prostate Surgery, and Hysterectomy.

The Stryker Mako is the latest advancement in joint replacement surgery, transforming the way joint replacement procedures are performed. The robotic-arm assisted surgery is a new approach to joint, hip, or ankle replacement that offers the potential for a higher level of patient-specific implant alignment and positioning. The technology allows surgeons to create a patient-specific 3D plan and perform joint, hip, or ankle replacement surgery using a surgeon-controlled robotic arm that helps the surgeon execute the procedure with a high degree of difficulty.

If you are suffering from knee, hip, or ankle pain or injury and joint replacement surgery are necessary, Stryer Mako may be the solution for you.

The Institute for Robotic Surgery is proud to be the only Mazor Robotics partner in Hudson County. This cutting-edge, state-of-the-art technology has been scientifically proven to benefit surgical accuracy, patient outcomes, and patient safety for spine and orthopedic surgery.

If you are suffering from knee, hip or ankle pain or injury, joint replacement surgery is necessary. Stryer Mako may be the solution for you.

ExcelsiusGPS® Robotic Navigation has been designed to deliver cutting-edge technology that revolutionized surgery and optimizes patient care by combining the benefits of navigation and robotics into one platform. ExcelsiusGPS features multi-functional robotic navigation, imaging versatility, and unique real-time information. This navigation system is the first technology to combine a rigid robotic arm and full navigation capabilities for precise trajectory alignment in spine surgery. It has multiple other benefits for both patients and surgeons, such as improving screw placement accuracy, a reduced radiation exposure, and increases MIS efficiency.

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