色中色

For every presentation she gives, PhD candidate Janne Spierings cites a recent example from the list of top athletes with cruciate ligament injuries.

鈥淟ast time, it was Bayern Munich鈥檚 key player Alphonso Davies. The Canadian professional soccer player came back injured from an international match with the national team this spring: a torn ACL in his right knee, and out of play for at least six months. He celebrated Bayern鈥檚 league title on crutches.鈥�

We鈥檙e given a brief anatomy lesson. The anterior cruciate ligament (ACL) is in the center of the knee joint and provides stability to the knee.

The ACL prevents the lower leg from rotating too far in relation to the upper leg. As such, the ACL plays an important stabilizing role, especially during twisting movements or sudden changes in direction.

Crack or pop

And that is exactly why so many (professional) soccer players, hockey players and handball players suffer injuries to this tendon, Spierings explains.

鈥淩apid twisting and cutting movements put a lot of force on the knee joint, and if those forces become too great, a cruciate ligament can tear.鈥� That happens in the blink of an eye, she emphasizes. 鈥淚n about 45 milliseconds, there鈥檚 a crack or a pop, followed by pain.鈥�

As tendons and ligaments have limited blood flow 鈥� with less supply of nutrients and slower removal of waste substances 鈥� recovery often takes a long time. In the case of an ACL injury, the cruciate ligament is often surgically replaced with a new tendon, which usually comes from the patient鈥檚 own hamstring or patellar tendon. Afterwards, this tendon must adapt to its role as a new cruciate ligament by remodeling. A lengthy process, and there is no guarantee that the knee will be able to bear full weight again.

Unfortunately, ACL reconstructions often come with numerous complications, says Spierings.

鈥淭he strength of the graft decreases significantly after reconstruction, increasing the chance of re-tearing the ACL. And almost half of the patients develop early-onset osteoarthritis. That鈥檚 something you tend to associate with elderly people, but here it usually affects very young people instead.鈥�

Movement simulations

Using a 鈥渟imple鈥� computer model, Spierings tried to determine the cause of this early-onset osteoarthritis.

鈥淲e wanted to study the mechanical properties of the graft in isolation: what happens when its strength deteriorates? This causes two movements associated with the ACL to increase, resulting in a greater range of motion for the entire knee.鈥� 

In simulations, Spierings saw that this has consequences for the contact pressure on the underlying cartilage. The damage caused by this could potentially trigger the onset of osteoarthritis.

And so, Spierings turned her attention to limiting the loss of strength in the graft. She developed a protocol for a decellularized 鈥� 鈥渂are鈥� 鈥� graft.

鈥淭he new ACL contains all kinds of cells that provide strength. But when the piece of tendon is briefly removed from the body to be 鈥渇olded to size鈥�, these cells die. When this happens, they release signaling proteins that can trigger an immune response. Immune cells then start breaking down the tissue like little Pac-Men, which can cause extra damage and loss of strength.鈥�

Stretching and extending

In collaboration with the Maxima Medical Center, Spierings was able to use leftover pieces of cruciate ligament grafts to optimize the washing protocol and study its effects. She also used a bioreactor for this purpose, so that she could cultivate the tendons in a dynamic way.

This proved successful. 鈥淲e had previously designed this machine with incredible help from the Equipment and Prototype Center. Twelve tendons can now be cultivated at the same time, while they are continuously stretched and extended. Thanks this model, fewer animal tests are needed for improving ACL grafts. A very positive development that鈥檚 gaining traction within 色中色.鈥�

The washed grafts proved to be a good substrate for new cells to attach and grow. In her cultivation model, Spierings even observed the first signs of so-called cell infiltration. These are promising initial results, but clinical application is still a long way off, she cautions. 鈥淲e spend two days washing the grafts to get them decellularized. That needs to be done much faster, of course.鈥�

Fewer crutches, more strength

Spierings can now also simulate the first few weeks after an ACL surgery in the bioreactor. She has already conducted several pilot experiments to measure which signaling substances are released by dying cells.

This can be used to investigate how those substances could trigger postoperative complications, and her colleagues will focus on finding a biomarker for personalized rehabilitation. Memphis Depay, Estavana Polmann, and Alphonso Davies can no longer benefit from this. However, for all future ACL patients, Spierings hopes that the bare grafts will ultimately lead to 鈥渇ewer crutches and more strength.鈥�