A research team from Beaumont Health has received a $1.5 million grant from the Department of Defense (DOD) to investigate a new solution that they suggest could slow the arthritis that occurs after an ACL injury—known as post-traumatic osteoarthritis, or PTOA—and help people avoid getting a knee replacement.
Led by Kevin Baker, PhD, Beaumont director of Orthopedic Research, the team will use the grant to study methods to modify the immune system’s response to an ACL rupture and encourage a patient’s own stem cells to slow or eliminate the joint degeneration associated with PTOA.
“We developed a strategy to reduce the body’s immune system response to a joint injury. The immune system can do more harm than good when this kind of trauma occurs. We are encouraging stem cells to migrate to the ACL-injured joint and then treating the cells with a drug. We believe changing the immune response inside the joint will significantly diminish or prevent PTOA,” Baker says, in a media release from Beaumont Health.
The body’s immune system works by distinguishing normal cells from foreign cells. When the body detects a foreign cell, the immune system attacks the foreign cells without harming the normal cells. To do this, the body uses “checkpoint” molecules on cells that need to be activated, or inactivated, to start an immune response. These checkpoint molecules have been the focus of recent advances in cancer immunotherapy, where new medications inhibit checkpoint molecules that cancer cells over-produce.
Baker and his team are utilizing one of these checkpoint molecules to minimize the immune system’s overexuberant response to an ACL injury. The body’s own stem cells also release these checkpoint molecules and other proteins that can modulate the immune system. The research team will focus on using this new immune altering approach to slow down or eliminate damage that occurs to both cartilage and bone as a result of joint injury, the release explains.
The research team hopes this will one day translate into a treatment strategy that can be used for athletes, military personnel, and others that experience traumatic joint injuries.
[Source(s): Beaumont Health, Newswise]