Senior patient with pre-existing comorbidities successfully undergoes complex knee replacement surgery using hand-held orthopaedic technology for the first time in Abu Dhabi, reducing surgical time and enhancing recovery
Abu Dhabi, United Arab Emirates. August 15, 2021:
The orthopaedic surgery team at Abu Dhabi-based Sheikh Shakhbout Medical City (SSMC), one of the UAE’s largest hospitals for serious and complex care and a joint-venture partnership between Mayo Clinic and Abu Dhabi Health Services Company (SEHA), has successfully completed knee replacement surgery on an 85-year-old, female patient with a complex case using minimally invasive computer-guided technology. The technology was used for the first time in Abu Dhabi.
The surgery was conducted using a hand-held computer navigation system. This is an accelerometer navigation system that aids in hip and knee replacement surgeries, making them more streamlined and time efficient.
Dr Feras Ya’ish, orthorpedic surgeon at SSMC said:
“Our patient had difficulty walking due to the heavy pain in both her left and right knees, and she also had severe arthritis in her right knee. The patient has existing metalwork inserted into her thigh bone which was from a years-old fracture that would have made the knee replacement procedure difficult. She did require the surgery to restore her mobility, but her case was considerably complex, which is why she was referred to SSMC.”
A secondary challenge was that the patient is of an advanced age with preexisting comorbidities including ischemic heart disease, lung disease, and renal failure. To ensure maximum benefit from the knee replacement, the patient’s knee was initially injected for temporary pain relief for a few weeks, which also helped restore a certain degree of mobility. Once the pain improved, the patient’s walking improved, which was a key indication that performing the knee replacement surgery would be effective in improving her overall mobility.
Another element the surgeons needed to consider was the existing presence of metalwork in the patient. The usual process of a knee replacement surgery requires the placement of metalwork to be used as a guide inside the canal of the bone. In this patient’s case, this couldn’t be done due to the existing metalwork. Removing the first set of metalwork would have presented a significant risk of the bone breaking where the metal was situated, as the patient is osteoporotic and this would have also required that the patient undergo a second surgery, which, given her age and preexisting conditions, was not recommended.
“The best option for her was to do the knee replacement while keeping the existing metal. This was the catalyst for us exploring the hand-held accelerometer device, as it doesn’t require penetration of the bone, which is much safer for patients, especially those who are older. It also gives accurate bone cuts and bone alignment, which is research-proven. Applying the device typically takes about four minutes, and we applied it on the knee itself, moving it as the technology learnt the orientation of the bone to give us the alignment where the bone needed to be cut, without breaching or penetrating the bone itself. From cutting to dressing, the surgery took one hour and ten minutes, and was a success. The patient was able to stand the very next day and was walking by the following day,” continued Dr Ya’ish.
The patient was in the care of a multidisciplinary team at SSMC and is now walking independently with the support of a walking aid.
The hand-held accelerometer technology is available at SSMC and will continue to be utilized for complex cases in similar patients.