Cleveland Clinic London is the first hospital in London to successfully perform a total knee replacement procedure with the assistance of an augmented reality-based surgical platform that was designed with artificial intelligence and machine learning.
Mr Panagiotis Gikas, consultant orthopaedic hip and knee surgeon, led the surgical team during the procedure on July 18. Following the procedure to treat knee pain caused by osteoarthritis, the patient is doing well.
Total knee replacement is the most common type of knee replacement. Arthritis is the most common condition that causes debilitating musculoskeletal pain. Total knee replacement is a successful treatment for advanced knee arthritis that treats the pain and restores function. In recent years, augmented reality (AR) has become increasingly beneficial in orthopaedic surgery, with significant advantages that equip the operating team with the tools to provide a more personalized approach to patient care.
Augmented reality gives a visualization of the joint that is more dynamic as it is three-dimensional (3D). The advanced technology helps with planning the procedure and allows for the best positioning of the implant for each patient during the procedure. The end-result is tailored to the unique anatomy and specific needs of each patient."
Dr. Panagiotis Gikas, consultant orthopaedic hip and knee surgeon
Prior to the procedure, Dr Gikas used advanced imaging software to visualise the patient's knee joint in 3D and determine the ideal implant positioning for this patient, based on their specific anatomy. The virtual 3D model of the patient's knee helps the surgical team evaluate damaged bone and cartilage so they can plan for the surgery and the optimal placement for the implant.
During the procedure, the physician wears a pair of augmented reality glasses to view the patient's specific knee anatomy in 3D. Two small sensors are attached to the patient's leg to provide real-time soft tissue feedback, such as the tension of the ligaments. The AR-based platform enables the surgical team to easily adjust, better visualize and determine the proper placement of the implant given the patient's specific anatomy, which is key to a successful knee replacement procedure.
As a leader in medical innovation, Cleveland Clinic has used augmented reality technology in joint replacement procedures at its main campus in Cleveland, Ohio, especially with shoulder arthroplasty surgery.
Augmented reality is being adapted by Cleveland Clinic research scientists and physicians for use in a wide array of clinical applications, including aortic aneurysm treatment. Cleveland Clinic used augmented reality technology during an extremely complex total face transplant surgery in 2017. AR was also incorporated into liver cancer treatment at Cleveland Clinic.
Cleveland Clinic London is committed to providing patients with an unparalleled care experience that is empathetic, innovative, and based on research and education. As part of this mission, the organisation continuously assesses how advanced medical technologies, such as augmented reality, can enhance Cleveland Clinic London's ability to provide patients with better treatment outcomes.
Cleveland Clinic London welcomes bookings from eligible members covered through all major domestic and international insurers, self-pay, and embassy-sponsored patients. A full list of Cleveland Clinic London services and specialities is available on our website.
To book an appointment, patients can fill out the Request an Appointment form online or contact the Call Centre at +44 (0)20 3423 7500. Hours: Monday-Friday, 7:30 a.m. to 8:00 p.m. BST and Saturday, 7:30 a.m. to 3:00 p.m. BST. Patients located outside of the U.K. call +44 (0)20 3423 8000.
Posted in: Medical Procedure News | Medical Condition News
Tags: Anatomy, Aneurysm, Aortic Aneurysm, Arthritis, Arthroplasty, Artificial Intelligence, Bone, Cancer, Cancer Treatment, Cartilage, Catheterization, Coronary Artery Bypass Surgery, Ear, Education, Endoscopy, Foot, Hospital, Imaging, Knee, Knee Pain, Knee Replacement, Liver, Liver Cancer, Machine Learning, Musculoskeletal, Orthopaedic, Orthopedics, Osteoarthritis, Pain, Research, Software, Surgery, Technology, Throat, Transplant, Urology