The advantages offered by surgical planning tools and personalized guides and implants are applicable to a vast variety of surgical treatments. Some of these benefits have already been raised by the Getting It Right First Time (GIRFT) program in the UK.
In today’s blogpost we want to give you five quick tips to improve your segmentation process with Materialise Mimics Innovation Suite 21. After all, it’s the first and often the most important part of your workflow!
Through yearly updates, Materialise Mimics Innovation Suite (MIS) strives to position itself as a tool better equipped to meet today’s challenges surrounding the processing of sensitive information. With MIS 21.0, we present an entirely rewritten Anonymize tool, which offers users the option to de-identify sensitive information of data subjects according to the needs and requirements of their company or organization.
We’re pleased to introduce Nikhilesh Bappoo, our first prize winner of the Mimics Innovation Award 2017 APAC region. Nikhilesh developed a bioengineering framework to better understand how evolving blood flow affects the biomechanics of placental vasculature during pregnancy. In his groundbreaking research paper, he explores placental physiology by creating a 3D computational fluid dynamics (CFD) model of a rat’s placenta.
We always love working on projects with students – the energy and fresh ideas they bring to the table make these sorts of projects extremely rewarding! One such project was the MARCH II, a student initiative from the Technical University of Delft which aims to create an exoskeleton for paraplegics that would allow the wearer to walk unaided.
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.
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.
An Innovative Combination of the Power of Additive Manufacturing and the Integrity of Mimics Innovation Suite
Researchers from RMIT University in Melbourne, Australia, are proposing a new concept called just-in-time, that applies to additive manufacturing (AM) prosthesis design. This particular approach adopted by the Australian research converts raw CT scan data directly into 3D printable porous calcaneal prostheses.
Researchers at the University of Kragujevac have proposed a new, non-invasive 3D methodology to assess scoliosis, in which spine measurements can be performed by limiting radiation exposure and human intervention.
Roughly 500 years ago, Andreas Vesalius was born in Brussels to a family of court physicians. During his lifetime, he revolutionized the field of anatomy, disproving theories that had gone uncontested for the past 1,300 years. We printed out a 3D model of a brain in homage to the enduring genius of Vesalius.