3D-printed casts for fractured bones could replace the usual bulky, itchy and smelly plaster or fibreglass ones in this conceptual project by Victoria University of Wellington graduate Jake Evill.
The prototype Cortex cast is lightweight, ventilated, washable and thin enough to fit under a shirt sleeve.
A patient would have the bones x-rayed and the outside of the limb 3D-scanned. Computer software would then determine the optimum bespoke shape, with denser support focussed around the fracture itself.
The polyamide pieces would be printed on-site and clip into place with fastenings that can't be undone until the healing process is complete, when they would be taken off with tools at the hospital as normal. Unlike current casts, the materials could then be recycled.
At the moment, 3D printing of the cast takes around three hours whereas a plaster cast is three to nine minutes, but requires 24-72 hours to be fully set," says the designer. "With the improvement of 3D printing, we could see a big reduction in the time it takes to print in the future.
After many centuries of splints and cumbersome plaster casts that have been the itchy and smelly bane of millions of children, adults and the aged alike, the world over, at last fracture support has been brought into the twenty-first century.
The Cortex exoskeletal cast provides a highly technical and trauma-zone-localised support system that is fully ventilated, super light, shower friendly, hygienic, recyclable and stylish.
The Cortex cast utilises the x-ray and 3D scan of a patient with a fracture and generates a 3D model in relation to the point of fracture.
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