Together, we'll unveil the potential of radiopaque materials for cutting-edge applications. Explore the way Radiomatrix materials grant you the power to seize control over scan values on your 3D models. Don't miss out—register now to unlock the boundless possibilities of RadioMatrix materials.
This webinar will discuss the development of a 3D-printed radiopaque medical model of cerebral angiography for training and research. The model was printed on the Digital Anatomy 3D Printer by CPI, a leading provider of additive manufacturing solutions, using Stratasys RadioMatrix, a radiopaque 3D print material specifically designed for creating medical models to exhibit radio-realistic features under imaging modalities X-Ray and CT.
The webinar will cover the following topics:
The challenges of creating realistic and accurate models for cerebral angiography training and research
How Stratasys RadioMatrix addresses these challenges
The benefits of using a 3D-printed radiopaque medical model for cerebral angiography
The collaboration between CPI and Beaumont Hospital to develop this groundbreaking use case.
The outcomes of the project, including:
Excellent accuracy and fidelity of the phantom head when subjected to various imaging modalities
The phantom provided a reliable and cost-effective alternative to using real patients or phantoms of rigid geometric configurations for training and research purposes
Join us to learn more about how innovation in 3D printing is revolutionizing medical training and research.
With a wealth of experience in design, product development, and intricate manufacturing techniques, Wayne Morton plays a pivotal role at CPI. His expertise lies in assisting companies to conceptualize and create medical, wearable, and in vitro diagnostic (IVD) devices.
Bringing nearly a decade of expertise from the NHS and Irish hospitals, Ruth specializes in providing invaluable medical physics support across a spectrum of diagnostic imaging applications. Her proficiency spans general X-ray imaging, Computed Tomography, MRI, and Interventional Radiology.