We have implemented safery measures to protect the health of our patients and staff, while enabling us to continue to provide high-quality orthopedic care.

To learn more about our response to COVID-19, click here.

Robotic Assisted Knee Replacement

What is Arthritis?

The knee is made up of the femur (thighbone), the tibia (shinbone) and patella (kneecap). The two menisci, the soft cartilage between the femur and tibia, serve as a cushion and helps absorb shock during motion. Arthritis (inflammation of the joints), injury or other diseases of the joint can damage this protective layer of cartilage, causing extreme pain and difficulty in performing daily activities. Osteoarthritis is a type of arthritis. 

What is Total Knee Replacement?

Total knee replacement, also called total knee arthroplasty, is a surgical procedure in which the worn out or damaged surfaces of the knee joint are removed and replaced with artificial implants. 

What is Robotic-Assisted Knee Replacement?

Robotic-assisted knee replacement surgery is an alternative to the conventional knee replacement procedure. It is performed using robotic-arm technology that allows your surgeon to precisely perform the surgery through a smaller incision as compared to traditional surgery. 

Indications of Robotic-Assisted Knee Replacement

Robotic-assisted knee replacement is indicated if you are suffering from degenerative knee diseases such as osteoarthritis. Your doctor may recommend surgery if non-surgical treatment options have failed to relieve your symptoms.

Robotic-Assisted Knee Replacement Procedure

The goal of total knee replacement surgery is to relieve pain and restore the alignment and function of your knee. Robotic-assisted knee replacement utilizes X-rays and CT scans to determine the damaged areas of the joint that need to be removed for the precise placement of the knee implant. Then, the damaged portions of the femur bone are cut at appropriate angles using specialized jigs. The femoral component is attached to the end of the femur with or without bone cement. 

Your surgeon then cuts or shaves the damaged area of the tibia (shinbone) and the cartilage. This removes the deformed part of the bone and any bony growths, as well as creates a smooth surface on which the implants can be attached. Next, the tibial component is secured to the end of the bone with bone cement or screws. 

Your surgeon will place a plastic piece between the implants to provide a smooth gliding surface for movement. This plastic insert will support the body’s weight and allow the femur to move over the tibia, like the original meniscus cartilage. 

The femur and tibia with the new components are then put together to form the new knee joint. 

To make sure the patella (kneecap) glides smoothly over the new artificial knee, its rear surface is also prepared to receive a plastic component. All these steps are performed with the help of the robotic arms.

With all the new components in place, the knee joint is tested through its range of motion. The entire joint is then irrigated and cleaned with a sterile solution. The incision is carefully closed; drains are inserted and a sterile dressing is placed over the incision.

Benefits of Robotic-Assisted Knee Replacement

The benefits of the robotic-assisted knee replacement include:

  • Smaller incisions
  • Rapid recovery
  • Precise placement of the implant
  • Reduced injury to adjacent tissues
  • Increased longevity of the implant 
  • University of Notre Dame
  • Saint Joseph Health System
  • Beacon Health System
  •  American Academy of Orthopaedic Surgeons
  • The American Osteopathic Academy of Orthopedics
  • American Association of Hip and Knee Surgeons
  • American Board of Medical Specialties
  • American Board of Medical Specialties
  • American Board of Foot and Ankle Surgery
  • American Orthopaedic Foot & Ankle Society
  • American Orthopaedic Society for Sports Medicine
  • North American Spine Society
  • American Society for Surgery of the Hand
  • American Academy of Physician Assistants
  • Zimmer Biomet
  • Stryker Corporation
  • Arthrex
  • Breg
  • Smith+Nephew
  • DePuy Synthes