If everyone were to stand in a single-file line, patients on the U.S. organ transplant waiting list would form a line over 70 miles long.
Materials engineered for use with specific printers and qualified for verifiable repeatability and accuracy help ensure long-term mechanical properties ranging from heat resistance to biocompatibility.
Using 3D printing, or additive manufacturing (AM), in health care is on the rise, with the market expected to be worth nearly $26 billion by 2022. This growth goes well beyond just prototyping, as AM is already used throughout the industry to solve problems and improve care.
Design engineer Glen Dobbs has talent, curiosity, resourcefulness, and perhaps the most important attribute of all—a big heart. Dobbs is the President and CEO of LoganTech, a manufacturer of several lines of communications devices for nonverbal and visually impaired individuals.
Formlabs was founded by MIT researchers in 2011, when high-quality 3D printing was inaccessible for most. We’ve now shipped over 50,000 machines while cementing our mission to “expand access to digital fabrication, so anyone can make anything.”
DanaMedInc.’s Pathfinder ACL Guide is a biocompatible surgical device enabling surgeons to better reconstruct partially or fully torn anterior cruciate ligaments (ACL) and reduce the risk of re-tearing.
In an effort to help customers get their operations back up and running after a full or partial shut-down, Castrol, Lewiston, N.Y., is offering savings to those who trial and switch to Castrol industrial coolants.
3D Systems announced an expansion of its plastics materials portfolio.
Mayo Clinic’s 3D Anatomic Modeling Laboratory is inventing how to use 3D printing for surgical planning and instruction. People undergoing new, uncommon or complex surgeries at Mayo Clinic may benefit from access to the clinic’s expertise in 3D anatomic models. The models the lab builds also helps with patient and medical education.
Global engineering company Renishaw teamed up with two inventive technology concerns to show how metal additive manufacturing (AM) can make lightweight spinal implants that mimic the mechanical properties of bone.