Researchers studying bone regrowth earns USD 2M military grant

The five-year grant from the Department of Defence will fund the study of regenerating segments of missing bone.

Update: 2018-12-31 04:12 GMT
Adult stem cells can evolve into bone cells that create bone tissue. (Photo: AP)

The US military has given a USD 2 million grant to a University of Arizona research team developing bone re-growth technology, with the hope it could one day help wounded soldiers.

The five-year grant from the Department of Defence will fund the study of regenerating segments of missing bone through a combination of adult stem cells and 3D printing, the Arizona Daily Star reports.

John Szivek, a professor of orthopaedic surgery at the Tucson school and a biomedical engineer, is leading the group. Team members use a 3D printer to construct a piece of plastic scaffolding they designed. The scaffolding has grooves and small cavities and a sponge-like structure. It can be customised for each patient. The scaffolding will then be seeded with the patient’s stem cells and calcium to expedite the process.

“We’re trying to find a way to regrow that segment of bone using a person’s own living cells,” Szivek said.

Adult stem cells can evolve into bone cells that create bone tissue.

Currently, most bone-shattering injuries are helped with a support rod and a cadaver bone. But the cadaver bone inevitably cracks and breaks within a couple of years, according to Szivek. Also, the living bone can connect to a cadaver bone at both ends but doesn’t connect across it to make one piece of living bone.

David Margolis, a co-investigator on the grant and a doctor in orthopaedic surgery, said most of the options out there leave patients disappointed.

“Nothing is guaranteed to work, and each one has different risks and benefits,” Margolis said. “None give you back what you had before.”

So far, the team has tested its methods only on sheep. But its members were excited by the results. According to Szivek, there was a complete bridging between bone segments within two months. And within six months, they saw remodelling or the process of smoothing out the new bone.

“We really want to push the system to run as quickly as possible. We want it to form any kind of bone at all. It doesn’t matter — it could be the crappiest bone on earth, but once it’s there, it will remodel itself,” he said.

The team also examined how exercise affects the recovery rate. Szivek wants to use the grant money to try placing sensors into a new bone so they can get feedback on the impact of exercise. He thinks one day they can have sensors that send updates to patients’ phones. They will know if they are running or jumping too vigorously.

The technology would also one day be made available to civilians such as people injured in car crashes or surgical cancer patients who had bone removed.

(Source)

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