Knee joint erosion is a common problem that can lead to symptoms like pain, limited range of motion, and swelling. Several factors can contribute to knee joint erosion, including genetics, trauma, inflammatory diseases, infection, and excess weight. Treatment options range from conservative measures like physical therapy to surgical interventions such as joint replacement surgery.
Joint replacement surgery is a successful procedure in orthopedics, but the rehabilitation process can be challenging due to intense pain. This can hinder patients from achieving optimal range of motion and a quick return to function after surgery. Traditional knee replacement surgery has been successful, but the recovery process can be challenging for patients due to post-operative pain. Integrating robotic systems into surgery improves precision, reduces tissue damage, and enhances recovery outcomes.
Dr. Yaron Brin, an orthopedic specialist, emphasizes the importance of expert surgical care in obtaining the best results for patients undergoing knee replacement surgery. The robotic system assists the surgeon in planning and executing the procedure with accuracy, leading to a more balanced and stable joint post-surgery. While robotic systems offer advantages in knee replacement surgery, it’s crucial for surgeons to have extensive experience in using them effectively.
Introducing a robotic system into knee replacement surgery helps address the challenges of rehabilitation by improving precision and reducing tissue damage during the procedure. By using this new technology, patients are able to achieve better outcomes and recover faster than before.
Several factors can contribute to knee joint erosion, including genetics
