In his talk, "Health Economics: 3D is Here, But Can We Afford It Moving Forward?” Philip Tack discussed the cost-effectiveness of medical innovations, more specifically, through a case involving a custom 3D-printed implant for a severe acetabular defect.
Global awareness of the benefits of 3D Printing has been growing steadily over the past years. In Asia, the technology is not as widespread compared to the United States or Europe - but that looks likely to change soon, with India heading the vanguard on the adoption of the technology in particular. The Amrita Institute of Medical Sciences is among the first hospitals in India to set up their own 3D printing lab, and will hopefully inspire surrounding countries to adopt the technology.
Just over two years ago, Nathalie Dufaut Danjon was shot by a man with a hunting rifle. The bullet entered her shoulder joint through the front and exited through her shoulder blade. Her shoulder's bony anatomy was destroyed, though the nerves were not affected.
CADskills is a medical device startup based in Ghent, Belgium. Their expertise lies in patient-specific implants, with a focus on CMF and neurosurgery patients. What is putting them in Materialise's spotlight however, is their AMSJI: a revolutionary 3D-printed titanium jaw implant that will make life better for extreme maxillary atrophy sufferers. Now there's something to chew on. Or with.
Thanks to Medical 3D Printing, surgeons at Boston Children’s Hospital in the United States have treated a young baby with an encephalocele: a rare disorder where part of the fetus’s brain starts growing outside its head in the womb.
Dr. Philipp Brantner is a radiologist at the University Hospital of Basel, Switzerland. In April, he presented his case study, "Hospitals and 3D labs. Why, how and what now?" at the 2017 Materialise World Summit in Brussels. His inspiring talk centered on his experience in deploying and running an in-hospital 3D printing lab at the Basel University Hospital together with his team. He shared fresh and useful perspectives on implementing a new workflow, its successful outcome, and how to keep the lab sustainable.
New, 3D-printed hip implants have made five bone cancer patients, two clinical teams and Materialise, very happy. Together with the orthopaedic departments of the University Children’s Hospital Basel (UKBB), Switzerland and the Righospitalet in Copenhagen, Denmark, Materialise participated in a study to reconstruct periacetabular defects caused by tumors. Dr. Krieg and his colleagues shared their findings in the medical magazine, Leading Opinions.
As guest speaker in our latest webinar series on hip and lower extremities applications, Dr. med. Simon Weidert discusses his experience with a patient-specific implant in acetabular defect reconstruction; his first with Materialise's aMace solution.
The following is a retrospective study of 39 consecutive Primary Exeter total hip replacements (THR) carried out by Dr Grant Shaw, orthopaedic surgeon in Portsmouth, UK. The THR procedures were performed by Dr Shaw at Queen Alexandra Hospital in Portsmouth, between August 2016 and May 2017. Of the 39 procedures, 35 were elective hip arthroplasties and 4 were acute total hip replacements undertaken for neck of femur (NOF) fractures. All patients had standard AP Pelvis for Hip x-rays taken with a disc scaling marker placed in the hip plane.
As part of an effort to spread the knowledge and experience of surgeons' use of Medical 3D Printing, and to illustrate how 3D planning can benefit your practice, we initiated an orthopedic webinar series. Today, Dr. Carl Ekholm shares his presentation: “Complex Glenoids in my Practice."