Joint distraction, a surgical technique that involves the placement of an external fixation frame around a degenerated joint, may offer a means of postponing the need for total knee replacement in young patients with severe osteoarthritis.
The cartilage in end-stage osteoarthritis (OA) is severely damaged, with fissuring; altered chondrocyte distribution and death; and a significant loss of extracellular matrix constituents. These changes in cartilage are accompanied by characteristic changes in periarticular bone and soft tissue. All these structural changes mean severe pain and functional limitations for patients, who typically rate their pain with a score of 80% out of a maximum of 100%, according to Dr. Floris P.J.G. Lafeber, of the University Medical Center Utrecht (the Netherlands).
The standard treatment for these patients is total knee replacement, which poses a dilemma for relatively young patients. “Total knee prostheses don't last forever,” Dr. Lafeber said. “They last on average 15 years, so if you have one placed at age 60 you are likely to need a replacement at 75, which is complicated and expensive, and the results are often disappointing. And then if you need another at age 90, the difficulties are really serious,” he said.
The rationale for joint distraction lies in the hypothesis that osteoarthritic cartilage is capable of self-repair if the joint is unloaded and chondrocyte nutrition is maintained. Pins are drilled through the soft tissue and bone just above and below the joint, and when the frame is in place the distance between the cartilaginous surfaces of the joint is increased by 5 mm. This transfers the load and stresses on cartilage away from the joint, eliminating further wear and tear.
Easing the mechanical stress is only one therapeutic aspect of the process of joint distraction. Springs within the distraction frame cause changes to occur in fluid pressure in the joint, with increases during loading and normalization with unloading. This continuous change in fluid pressure is important for the cartilage, because chondrocytes depend on synovial flow for nutrition, Dr. Lafeber explained.
The loading onto the frame also results in periarticular osteopenia, which in turn permits the sclerotic, osteoarthritic bone to become more flexible and the mineral content to normalize once the frame is removed. Furthermore, the periarticular bone turnover results in the release of multiple growth factors that can help repair the cartilage.
In collaboration with his center's orthopedic department, Dr. Lafeber and his colleagues in the department of rheumatology and clinical immunology began exploring this technique in a proof-of-concept study with ankle distraction. Although ankle OA is much less common than knee OA, in the case of failure an arthrodesis could be performed without much risk, he said.
A total of 73 patients underwent ankle distraction for 3 months, with the result that pain scores—rated at an average of 75% of a maximum of 100%—fell to 20%, while scores for function and clinical condition rose from approximately 25% at baseline to 80%. Some of these patients now have been followed for as long as 10 years, with continuing benefits.
The researchers next did a feasibility study that included three patients with knee OA, and found similar results on pain and function scores as well as on stiffness scores. They then undertook a larger prospective study in which 19 patients with severe knee OA (mean age, 48 years) have been treated with 2-month periods of distraction. Thus far, six have been followed for up to 2 years. Functional ability and clinical condition, poor at the onset with scores of 39% and 32%, respectively, increased to 82% and 81%.
Serum and urinary biomarkers of cartilage turnover were measured throughout a 12-month follow-up period. During the distraction phase there was an enormous turnover, with elevations of markers of both synthesis and breakdown, but after the distraction phase there was a gradual decrease of breakdown markers and a gradual increase in the markers of synthesis, indicating repair of the cartilage, Dr. Lafeber said.
Imaging studies also demonstrated improvements. In seven patients who have been followed for more than 12 months, joint space width shown on x-rays increased from slightly greater than 2.5 mm to more than 3.5 mm. “And on MRI studies done after 1 year and read in a blinded fashion in collaboration with Prof. Felix Eckstein, who is one of the leading researchers in this field, the amount of subchondral bone covered with cartilage was shown to have increased by 40%, cartilage volume increased by 50%, and cartilage thickness over the bone increased by 5%,” Dr. Lafeber said.