Improving Mensicus Surgery
In the United States, a torn meniscus is the most common reason for knee surgery. These two C-shaped pieces of cartilage distribute body weight across the knee joint and are responsible for stability and cushioning.
While damage to the tissue can sometimes be repaired; in other cases all or large parts of the meniscus must be removed and replaced by cadaver tissue. These implants do not appear to function as well or last as long, possibly because the patient’s own cells do not grow into the central portion of the tissue. As a result, there are no cells there to maintain the tissue’s structure and strength.
Cristin M. Ferguson, MD, an assistant professor of orthopaedic surgery and regenerative medicine, and a team of researchers are working toward developing an improved meniscus scaffold that could be used as an alternative to current methods when the meniscus must be replaced.
The project’s goal is to incorporate a patient’s own cells into the donated tissue to improve its function. To accomplish this, the team first processed donor menisci from an animal model to remove the cells, leaving behind the support structure. The processing also had an additional function – to increase the porosity of the tissue. An important part of the work was to determine the ideal level of porosity; enough to encourage the growth of cells in the tissue, but not too much to weaken the tissue. The next step was to attempt to “grow” cells on the scaffold, which was performed in culture using bone marrow derived stem cells.
Further research is needed, including refining seeding techniques to achieve uniform cell density and adding culture conditions that support meniscus tissue differentiation.