As one of the oldest and most prestigious research-lead universities in Europe, KU Leuven is an institution that is always seeking to innovate and stay on top of the latest trends and technologies.
Additive manufacturing (AM) in medicine continues to grow each year. It is a remarkable enabler, but the industry is fraught with barriers to adoption, slow for the sake of patient safety.
Patient care is sometimes just as much about engineered devices or implants as it is about specialized surgical care or drug therapy. The Mayo Clinic, the world-renowned specialty care facility, not only has doctors, nurses, and clinicians with the skills and willingness to handle tough cases.
3D Systems announced enhancements to its reverse engineering software products.
The field of health care is often considered to be one of the most dynamic. The speed at which innovation is occurring—from the way surgeries are performed, to the development of new therapies—is moving evermore rapidly.
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.
The North American medical startup Marvel Medtech purchased an XJet Carmel 1400C 3D printer in the summer of 2019 to build key components in tools for fighting breast cancer.
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.
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.