3D medical image segmentation software
If your goal is to improve patient care, the patient’s anatomy is the right place to start. Materialise Mimics is a medical 3D image-based engineering software that efficiently takes you from image to 3D model and enables scaling from R&D to high-volume clinical operation. Rely on the industry standard and leverage the insights of industry leaders who have published work in over 14,000 peer-reviewed papers.
Segment your anatomy effectively
Combine automated tools with smart editing tools to obtain accurate 3D models.
Analyze anatomy accurately
Identify landmarks and analyze the anatomy by using an extensive set of 3D measurement tools.
Plan your procedure virtually
Visualize different procedure scenarios for improved understanding. Virtually position devices to fully grasp the anatomical fit.
Automate your workflow
Use Python scripting to automate repetitive steps, making you more efficient and reducing the learning curve for colleagues.
Discover where Mimics makes an impact
“To generate accurate surface and volume meshes, we turned to Mimics.”
— Harry Van Lenthe, Professor at University Leuven
Interested in Mimics?
Materialise Mimics is part of Mimics Innovation Suite, the most advanced toolkit for engineering on anatomy. Do you have questions, or are you interested in getting a demo of Mimics and the Mimics Innovation Suite? Contact us, and let’s discuss how we can support your work.
Grow your skills with Materialise support
Learn how to get started with Materialise Mimics via our Academy and get customer support with the following links.
Materialise medical device software may not be available in all markets because product availability is subject to the regulatory and/or medical practices in individual markets. In countries where no regulatory registration is obtained of Mimics and/or 3-matic Medical, a research version is available. Please contact your Materialise representative if you have questions about the availability of Materialise medical device software in your area.