What is Robotic TOTAL Knee Replacement?
What is Robotic TOTAL Knee Replacement?
The CORI Surgical System is a cutting-edge technology used in knee surgeries. One of the most important aspects of a successful knee replacement is the precise placement of the implant. Traditionally, surgeons have used manual techniques to position the implant. In contrast, the CORI Surgical System offers a more advanced solution.
By using sophisticated software, the CORI system delivers in-depth information about your specific knee anatomy. This enables surgeons to achieve more accurate implant alignment and positioning, which may lower the risk of complications often associated with knee replacement. As a result, it enhances the overall precision of the procedure compared to traditional methods.
Patients may experience quicker recovery times and improved long-term outcomes with this technology. The CORI system represents a significant step forward in personalized and precise orthopedic care.
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Understanding the Process of Robot-Guided Knee Replacement Surgery!
With the CORI robotics-assisted procedure and advanced implant technology, your surgeon is able to preserve more of your natural bone and ligaments. This helps your body retain its natural movement and walking pattern.
Using 3D digital modeling, the CORI Surgical System creates a surgical plan tailored specifically to your individual knee anatomy. This allows the surgeon to carry out the procedure with greater precision and efficiency compared to traditional knee replacement techniques.
As a result, patients often experience improved joint function and faster recovery. The technology enhances both short-term outcomes and long-term satisfaction with the implant.
Complete Knee Replacement Using Robotics!
Complete Knee Replacement Using Robotics!
The first-time real AI-based Robotic Joint Replacement is revolutionizing knee surgery by offering unmatched precision and customization. Using a real-time 3D model, it ensures perfect alignment and soft tissue balance, leading to better outcomes and faster recovery. Minimally invasive with less tissue damage, this technology, pioneered by Dr. Meghal Goyal, sets a new standard in joint replacement with accuracy under half a millimeter, reducing risks and improving implant longevity. Patients experience less pain, quicker rehabilitation, and a faster return to daily activities. This cutting-edge approach marks a significant leap forward in orthopedic care. It’s the future of knee replacement surgery today.
The robotic system personalizes every step, ensuring consistency in each procedure. It reduces human error and enhances surgical confidence. For patients, this means safer surgery and longer-lasting results.
Robotic technology is not just an upgrade—it’s a transformation. Experience precision you can trust and results you can feel.
What are the advantages of a Total Robotic Knee Replacement?
At an AI-Based Robotic Joint Replacement Center, improved accuracy means the robot makes bone cuts with submillimeter precision, tailored exactly to your joint’s unique shape. This ensures the implant fits perfectly, reduces surgical errors, and enhances overall outcomes. For first-time patients, it offers a safer, more reliable, and confidence-boosting experience.
At an AI-Based Robotic Joint Replacement Center, greater customization means that each surgery is tailored precisely to the patient’s individual knee anatomy. Using advanced 3D mapping and morphing technology, the robotic system captures detailed knee data in real time. This allows the surgeon to create and execute a personalized surgical plan with robotic-level precision, ensuring that the implant aligns perfectly with the patient’s unique needs and lifestyle.
Robotic knee replacement offers the advantage of faster recovery and reduced blood loss. With enhanced efficiency in the operating room, the robotic system helps shorten the overall surgery time. Additionally, it requires less tissue dissection compared to traditional methods, which means minimal trauma to surrounding tissues. This leads to less bleeding during surgery and a quicker, smoother recovery for the patient.
Robotic knee replacement significantly reduces postoperative pain and the need for analgesics. This is primarily due to the minimal tissue dissection involved, which results in less trauma and discomfort after surgery. The robotic system’s ability to make highly accurate bone cuts—often with precision less than half a millimeter—ensures better alignment of the implant. This level of accuracy not only enhances surgical outcomes but also contributes to a smoother recovery with less dependence on pain medication.
What are the general procedures for knee replacement with ROBOT assistance?
During surgery, the CORI robot employs advanced sensors to scan your knee continuously. This updates the 3D model in real-time, providing precise guidance to the surgeon. The live data helps in making accurate adjustments during the procedure. This ensures optimal implant placement and improved surgical outcomes.
Once the knee is exposed during surgery, sensors and arrays help the robot capture real-time 3D data, aligning it with pre-op images. The robot also learns soft tissue tension on each side of the knee, enabling the surgeon to customize the implant fit with unmatched accuracy on the operating table.
Unlike traditional tools, the robotic system prepares the bone bed with sub-millimeter accuracy. This ensures that the implant placement is extremely precise, improving joint function, alignment, and longevity while minimizing surgical trauma.
Before final implantation, the surgeon tests trial implants and adjusts based on actual soft tissue feel—making small tweaks as needed. The final implant is then placed only after perfect alignment and balance are achieved. Since manual cutting tools are not used, the margin for error is nearly eliminated, offering patients a more natural-feeling joint.
How the CORI Surgical System (Robotic-assisted) works?
Before surgery, a detailed virtual model of the patient’s knee is created. This helps in planning the exact size and placement of the implant. The personalized plan ensures a better fit and alignment during surgery. This model is based on the patient’s unique anatomy, giving the surgeon a clear view before starting. It improves the overall accuracy and outcomes of the knee replacement.
During surgery, the system measures soft tissue tension around the knee in real time. This allows the surgeon to understand how tissues behave under different movements. Such data helps optimize implant positioning for natural knee function.
The robotic system performs bone cuts with sub-millimeter accuracy based on the customized surgical plan. This reduces errors compared to manual methods and preserves healthy bone tissue. It leads to better implant fit and longevity.
Surgeons can make fine adjustments during the procedure with the help of live feedback from the robot. This ensures optimal implant alignment and soft tissue balance. It enhances the overall success and durability of the knee replacement.
