Tiny bundles of stem cells built in the laboratory using microscopic magnets could pave the way to revolutionary treatments for repairing bone, cartilage, ligaments and tendons.
The technique, developed by British scientists, overcomes one of the main obstacles to unlocking the huge medical potential of mesenchymal stem cells.
Naturally found in the bone marrow, the stem cells have an awkward habit of spontaneously transforming into different cell types when stored outside the body.
The University of Glasgow team overcame this problem by creating ball-shaped clumps of around 10,000 stem cells, just big enough to see with the naked eye.
When they were placed in a soft gel with the consistency of bone marrow jelly, the cell balls remained unchanged for long periods of time and displayed no unwanted differentiated.
Placing the 3D cultures next to laboratory “wound models” simulating damaged cartilage, bone and ligament, the stem cells re-activated. They migrated towards the injured tissue and began to develop into the right kind of cells to promote healing.
Dr Catherine Berry, from the university’s Institute of Molecular Cell and Systems Biology, said: “This is a really exciting discovery, which uses a fairly simple and affordable method to grow and maintain stem cells ready to heal tissues.”
To make the stem cell bundles, the team used an ingenious technique that exploits magnetism.
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BSc (Hons) Microbiology
Biovault Family CEO, Kate Sneddon, joined Biovault in July 2009 and became Chief Executive Officer in 2016. As health industry professional her experience includes working as a microbiologist and leader at GSK for over 10 years. Her expertise in cord blood banking has been recognised in her awards, features in Parliamentary Review and Parents Guide to Cord Blood, as well as contributions to research with UCL and others.