MAKOplasty® – Robotic Arm Assisted Partial Knee Replacement
When only one area of the knee has worn down with advanced arthritis, and the remainder of the knee has little wear with intact structural ligaments, this may be an opportunity to replace only this damaged compartment of the knee. This procedure is called “partial” or “unicompartmental” knee replacement and is now a popular and scientifically supported method of resolving the arthritic pain of the knee preserving much of the structural integrity of the remaining knee.
Patients who qualify for this unique solution to their knee pain will find several great advantages to the partial knee replacement when compared to a total knee replacement.
- First, the typical partial knee patient will have increased motion in their knee after completing therapy above what typical total knee replacement patients will realize.
- Second, the motion through flexion and extension will seem more natural because the anterior cruciate ligament (ACL) is maintained in partial knee surgery, but is removed in a total knee resulting in a different, more mechanical feeling to the knee. The loss of the ACL in a total knee is thought to be the reason why patients are uncomfortable kneeling and descending stairs after surgery.
- Third, partial knee surgery is a more bone conserving operation which allows for the unlikely revision to a standard total knee replacement in those very few patients who either wear out the remainder of the maintained knee or have a loosening failure of the implant.
- Finally, most partial knee patients recover to active function quicker than a typical total knee replacement patient.
Once it has been determined by your history, exam and radiographs that you are a candidate for a partial knee replacement, it then becomes important to select the type of implant, the surgical technique and even the surgeon which is best suited to your situation. There are many types of partial knees from which to choose and just as many surgical techniques to implant them. How do you choose?
What should make it easier for you to select the correct implant, technique and surgeon is to familiarize yourself on the most sophisticated technology available today in which a sophisticated robotic arm and 3D spatial positioning software assists a well-trained, experienced knee surgeon to implant your knee in the most accurate way possible. This technology is called…. MAKOplasty®!
Partial knee replacement with the MAKOplasty® technique
Robotic Arm Interactive Orthopedic System (RIO®)
MAKOplasty®robotic arm assisted knee surgery is the most consistently reproducible, precision joint replacement installation system available in the world today that allows certified surgeons to optimize knee implant sizing, tracking, and ligament balance enhancing implant function and longevity. The accuracy is within 1mm and 1 degree, and has been shown to be at least 3 times more accurate than standard human held instrument systems.
MAKOplasty® Partial Knee Resurfacing is an innovative treatment option for adults living with early to midstage osteoarthritis (OA) in the medial (inner), patellofemoral (top), or lateral (outer) compartments of the knee. It is powered by the Robotic Arm Interactive Orthopedic System (RIO®), which allows for consistently reproducible precision in performing partial knee resurfacing.
This robotically assisted system provides precise initial computerized sizing and placement of the implants in virtual reality, but that’s where all the other systems stop and MAKOplasty®far exceeds all others. Real-time live motion data is collected during the intra-operative planning phase and this is used to make the fine corrections in the balance and tracking position of the implants, which other systems just don’t do.
During surgery, the RIO® system provides the surgeon with real-time visual, tactile and auditory feedback to facilitate optimal joint resurfacing and implant positioning. It is this optimal placement that can result in more natural knee motion following surgery.
- Accurately plan implant size, orientation and alignment utilizing CT-derived 3-D modeling
- Enable the pre-resection capture of patient-specific kinematic tracking through full flexion and extension
- Real-time intra-operative adjustments for correct knee kinematics and soft-tissue balance
- Minimally invasive, bone sparing, with minimal tissue trauma for faster recovery
How does MAKOplasty® work?
Before surgery, a CT scan is taken of the patient’s knee, and a 3D model created using the RIO® system’s software. From this model, a pre-surgical plan is developed for the positioning of implants based on that patient’s unique anatomy.
To ensure implants are optimally positioned and that the soft tissues of the knee are balanced for a good surgical outcome, surgeons can test and fine tune the plan before surgery by moving the leg through different ranges of motion. The RIO® provides measurements and visualization, and the surgeon adjusts the plan as needed.
Once the surgical plan is finalized, it is programmed into the RIO®, which creates a safety zone for bone removal. While the surgeon guides the robotic arm and is in control of it at all times, the RIO® ensures that bone removal stays with the safety zone of the surgical plan, providing auditory, visual and tactile feedback, stopping the robotic arm if necessary before bone can be removed outside the planned area. Once the bone preparation is complete, the implants are placed in the knee.
What are the benefits of MAKOplasty®?
Partial knee replacement can be a challenging procedure to perform accurately on a consistent basis using manual techniques. Robotic arm assisted MAKOplasty® enables consistent results and more accurate implant placement – which is an important factor in the life expectancy of implants. In an ongoing study, MAKOplasty® resulted in both greater accuracy in implant placement and less pain in the first eight weeks post-surgery compared to manual partial knee replacement using Oxford® implants.1
*Oxford is a registered trademark of Biomet, Inc.
1. Blyth MJ, Smith J, Jones B, MacLean III AB, Anthony, Rose P. Does robotic surgical assistance improve the accuracy of implant placement in unicompartmental knee arthroplasty? AAOS 2013 Annual Meeting, Chicago, IL.
2. Roche MW, Coon T, Pearle AD, Dounchis J. Two year survivorship of robotically guided medial MCK onlay, 25th Annual Congress of ISTA, October 3-6, 2012, Sydney, Australia.