Lab-grown cartilage as strong as natural

Lab-grown cartilage as strong as natural | Science Codex | June 17, 2017

This could finally be a solution to replace defective deteriorating cartilage in joints of patients with connective tissue disorders. Perhaps the same methods could eventually be used to grow sturdy tendons and ligaments for us too.

Lab-grown cartilage grown shows similar mechanical and chemical properties to natural cartilage, which allows our joints to move smoothly, according to a new study.

The biomedical engineers from University of California, Davis, created a lab-grown tissue similar to natural cartilage by giving it a bit of a stretch, they wrote in their Nature Materials study.  

…growing it under tension but without a supporting scaffold, and it shows similar mechanical and biochemical properties to natural cartilage.

Articular cartilage provides a smooth surface for our joints to move, but it can be damaged by trauma, disease or overuse.

Or, it can be defective due to a connective tissue disorder, like Ehlers-Danlos Syndrome

Once damaged, it does not regrow and is difficult to replace.

Artificial cartilage that could be implanted into damaged joints would have great potential to help people regain mobility.

Natural cartilage is formed by cells called chondrocytes that stick together and produce a matrix of proteins and other molecules that solidifies into cartilage.

Bioengineers have tried to create cartilage, and other materials, in the lab by growing cells on artificial scaffolds. More recently, they have turned to “scaffold-free” systems that better represent natural conditions.

The team grew human chondrocytes in a scaffold-free system, allowing the cells to self-assemble and stick together inside a specially designed device.

Once the cells had assembled, they were put under tension — mildly stretched — over several days.

They showed similar results using bovine cells as well. The new material had a similar composition and mechanical properties to natural cartilage, they found. It contains a mix of glycoproteins and collagen, with crosslinks between collagen strands giving strength to the material.

Experiments with mice show that the lab-grown material can survive in a physiological environment

The next step is to put the lab-grown cartilage into a load-bearing joint, to see if it remains durable under stress


One thought on “Lab-grown cartilage as strong as natural

  1. Emily Raven

    Well surgery on me (besides maybe my crappy shoulder) would be too risky due to the nature of ribs/spine but I have a loved one who’s knees are completely shot with barely anything left from having the growth plates in their legs cut when they were young for ousgood-schlatter disease. I look at what’s going on with the manmade ones from time to time which seem very limited and need replacing just like knee replacements….which they won’t do on us young folk for this reason or it’d be done already. This looks even more promising. I hope whoever is doing this keeps funding and it works.



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