Carnegie Mellon University researchers develop low-cost open-source 3D bioprinter (Video)

3D bioprinter

Researchers at Carnegie Mellon University have developed a low-cost 3D bioprinter by modifying a standard desktop 3-D printer, and they have released the breakthrough designs as open source so that anyone can build their own system. The researchers—Materials Science and Engineering (MSE) and Biomedical Engineering (BME) Associate Professor Adam Feinberg, BME postdoctoral fellow TJ Hinton, and Kira Pusch, a recent graduate of the MSE undergraduate program—recently published a paper in the journal HardwareX that contains complete instructions for printing and installing the syringe-based, large volume extruder (LVE) to modify any typical, commercial plastic printer.

“What we’ve created,” says Pusch, “is a large volume syringe pump extruder that works with almost any open source fused deposition modeling (FDM) printer. This means that it’s an inexpensive and relatively easy adaptation for people who use 3-D printers.” Continue reading “Carnegie Mellon University researchers develop low-cost open-source 3D bioprinter (Video)”

3D printing to produce made-to-measure insoles

Using the system being developed by FDM Digital Solutions, hospitals will be able to scan a patient’s foot shape and email it to the company,which will then print and deliver insoles to the exact specification within as little as 48 hours. The process will replace the traditional hand-made techniques and could revolutionise the way the NHS buys orthotics and other products. Continue reading “3D printing to produce made-to-measure insoles”