Patient-specific splints for children of all ages
From design to print within two days
Cost-effective, even in small quantities
The University team uses patient data from MRI or CT scans to examine the defect to be repaired, then creates computer models of the anatomy. Engineers are then able to design splints with a highly compliant, porous structure of interconnected spaces, which will slowly expand along with the maturing airway over time.
After fabrication, the researchers measure the splint dimensions and then mechanically test them. The splint-supported trachea expands and is operational right away, so that when patients are weaned off oxygen, they are able to breathe normally.
The first child is now nearly four years old and an active preschooler. And, as planned, the boy’s own tissues have successfully taken over the job of the implant, which has been almost completely reabsorbed into his body.
I chose EOS because we were looking for a system that was flexible and allowed us to change parameter settings like laser power, speed, powder-bed temperature, and so on, which we needed to do to customize our builds.