Applying a minimal amount of support is a matter of taking into account your design and part orientation. When support structures are still required, advanced 3D printing software offers you a wide range of support types that are ideal for the geometry of your part.
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.
What can 3D printing technology bring to India? Materialise and Renishaw answered this question during their ‘Industrialization of Additive Manufacturing’ seminar in Pune, India, at Renishaw’s AM Solutions Centre. For this seminar, more than 40 people from different industries - aerospace, automotive, engineering, medical, oil and gas etc. - gathered from all over India.
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.
Recently, many hospitals have started making a shift, from using medical images primarily for diagnostic purposes, to integrating them in patient-specific surgical planning. This has created enormous advantages for hospitals and their patients, and is largely supported by the expanding role of the radiologist as imaging expert.
Traditionally there has been a tendency to segregate research and industry when it comes to 3D Printing, based largely on the premise that finding out ‘what’s possible’ will always be at odds with identifying ‘what’s cost-effective’. The premise is flawed. Why? Because you can answer both questions by focusing on what enables practical progress right here, right now.
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.
KLIO Design participated in a mobility conference where innovative concepts were presented to increase smart mobility in South Korea. They 3D printed parts of their car to avoid the laborious step of mold creation and make it possible to customize the design. With Materialise software, they were able to design complex, organic lightweight structures and successfully 3D print them.
The Center for Structural Heart Disease at the Henry Ford Hospital under the leadership of Dr. William O’Neill is one of the leading Structural Heart programs. Dr. Dee Dee Wang, Director of Structural Heart Imaging at the Henry Ford Hospital and Medical Director of 3D Printing at the Henry Ford Innovations Institute recently spoke at the Materialise World Summit that took place in Brussels earlier this year. During her talk, she shared why 3D technology plays a critical role in their work on Structural Heart procedures and mostly Transcatheter Mitral Valve Replacement (TMVR) therapy.