A new type of treatment for osteoarthritis, currently in canine clinical trials, shows promise for eventual use in humans.
The treatment, developed by Cornell University biomedical engineers, is a synthetic version of a naturally occurring joint lubricant that binds to the surface of cartilage in joints and acts as a cushion during high-impact activities, such as running.
“When the production of that specific lubricant goes down, it creates higher contact between the surfaces of the joint and, over time, it leads to osteoarthritis,” said David Putnam, a professor in the College of Engineering with appointments in the Meinig School of Biomedical Engineering and the Smith School of Chemical and Biomolecular Engineering.
The study focuses on a naturally occurring joint lubricant called lubricin, the production of which declines following traumatic injuries to a joint, such as a ligament tear in a knee.
The knee is lubricated in two ways—hydrodynamic mode and boundary mode.
Hydrodynamic mode lubrication occurs when the joint is moving fast and there isn’t a strong force pushing down on it. In this mode, joints are lubricated by compounds like hyaluronic acid (HA) that are thick and gooey, like car oil. There are numerous HA products on the market, approved by the Food and Drug Administration, for treating hydrodynamic mode lubrication disorders.
But HA is ineffective when strong forces are pushing down on the joint, such as those that occur during running or jumping. In these instances, thick gooey HA squirts out from between the cartilage surfaces, and boundary mode lubrication is necessary. Under these forces, lubricin binds to the surface of the cartilage. It contains sugars that hold on to water, to cushion hard forces on the knee.
In the paper, the researchers describe a synthetic polymer they developed that mimics the function of lubricin and is much easier to produce. “We are in clinical trials, with dogs that have osteoarthritis, with our collaborators at Cornell’s College of Veterinary Medicine,” Putnam said.
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