Virtual reality for shoulder surgery: what you should know

Written in association with: Professor Mohamed Imam
Published:
Edited by: Conor Lynch

Top Doctors recently spoke to revered consultant orthopaedic surgeon, Professor Mohamed Imam, who, in this article here below, outlines the main benefits relating to the use of robotics when performing shoulder surgery.

What are the benefits of using robotics and virtual reality in shoulder surgery?

Shoulder replacement surgery is commonly performed to alleviate pain and restore function in patients with severe shoulder arthritis or other degenerative shoulder conditions. Shoulder replacement involves replacing a damaged or diseased shoulder joint with an artificial implant.

 

While the surgery has a high success rate, surgeons face several challenges during the procedure, including the implant's accurate placement and proper alignment. These challenges can impact the patient's recovery and overall outcome, leading to prolonged pain and disability

 

How does virtual reality technology enhance the accuracy of shoulder surgery?

Augmented reality technology has emerged as a promising solution to these challenges, offering several advantages for surgeons and patients. Using computer-generated images that are projected onto the patient's body, AR technology can help surgeons visualise the shoulder joint in real-time, allowing for greater accuracy and precision during the procedure. 

 

In addition, by reducing the risk of complications, patients may be able to resume their normal activities sooner and with greater ease. This can significantly impact their quality of life, allowing them to return to work, hobbies and other activities previously limited by their condition.  

 

How does the use of robotics in shoulder surgery affect recovery time?

Augmented reality in shoulder surgery can reduce recovery time by minimising tissue damage, reducing the need for prolonged physiotherapy, and improving the accuracy of the surgery. In addition, using virtual reality in shoulder surgery can also reduce the need for prolonged physiotherapy, speeding up recovery. Improving the precision and accuracy can improve the alignment of the implant and reduce the need for physiotherapy, leading to a faster return to normal activities.

 

Virtual reality technology can also improve preoperative planning accuracy, allowing the surgeon to better understand the patient's anatomy and identify potential issues before the procedure. The added advantage of augmented reality is a real-time understanding of patients' anatomy. This can result in a more efficient and effective surgical plan, reducing the need for intraoperative adjustments.

 

To book an appointment with Professor Mohamed Imam today, simply head on over to his Top Doctors profile today.

By Professor Mohamed Imam
Orthopaedic surgery

Professor Mohamed Imam is an exceptionally skilled consultant orthopaedic surgeon who specialises in upper limb surgery, sports injuries, and complex trauma.

Professor Imam uses the latest technology in diagnosing a wide range of upper limb conditions. He has gained leading expertise in the diagnosis and management of wrist, shoulder, hand and elbow conditions, and is highly skilled in the treatment of sports injuries. Among his repertoire of procedures are major shoulder tendon repair, upper body tendon tears, joint preservation, joint replacement, cartilage regeneration, and reconstruction surgery.

Furthermore, Professor Imam specialises in arthroscopic (keyhole) surgery to treat numerous conditions, including arthritistennis elbow (lateral epicondylitis)rotator cuff tears, frozen shoulder and tendonitis, as well as wrist and hand conditions such as Dupuytren's contracture and cubital tunnel syndrome

His extensive specialist training took place in the UK and internationally. In fact, he has been awarded multiple awards and international travelling fellowships, including a fellowship with Professor Christian Gerber, the world-leading pioneer of modern shoulder surgery, at Der Balgrist University Orthopaedic Centre of excellence in Zurich, Switzerland. What's more, he undertook travelling fellowships to gain up-to-date international experiences in Mayo Clinic, The Steadman clinic (the US Olympic team centre of excellence) and Stanford University.

Research is another area of Professor Imam's career. He is the chief investigator of leading national and international studies. His work is widely recognised, and he has published more than 70 peer-reviewed publications in top international medical journals and written more than 12 textbook chapters on upper limb injuries.

Professor Imam has accomplished many achievements throughout his career. He has designed orthopaedic instruments, designed and published different techniques, and authored two books. One of these books surrounding the theme of the use of stem cells in orthopaedics and another concerning shoulder arthroscopy. He regularly presents his research at various national and international meetings. Currently, Professor Imam, with an elite team of researchers, is investigating the use of artificial and machine intelligence in surgery.

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