Introducing RadioMatrix™, first of its kind Radiopaque 3D printing material available on the Digital Anatomy Printer. The new material enables 3D printed anatomical models with radiopacity characteristics in varying contrast that can appear in a CT or X-ray scan.
Experience the power of Stratasys 3D printing for medical devices like never before. Our advanced printing materials and software make it possible to create realistic 3D models of human anatomy that look and feel like real bone and tissue. Download the brochure to discover more!
View moreThis material gives you the power to create medical models that exhibit radio-realistic features under X-Ray and CT. RadioMatrix provides unprecedented visibility of anatomical structures, medical devices and implants under medical imaging—for unmatched surgical navigation, training, and testing. Move away from traditional constraints to 3D Geometrical freedom.
View moreThe Digital Anatomy Printer brings medical models to life with incredible realism that accurately represents both the appearance and response of human tissue. These 3d printed anatomical models provide unmatched clinical versatility, repeatability, and accuracy for healthcare professionals and medical device companies.
Watch videoExperience the power of Stratasys 3D printing for medical devices like never before. Our advanced printing materials and software make it possible to create realistic 3D models of human anatomy that look and feel like real bone and tissue. Download the brochure to discover more!
This material gives you the power to create medical models that exhibit radio-realistic features under X-Ray and CT. RadioMatrix provides unprecedented visibility of anatomical structures, medical devices and implants under medical imaging—for unmatched surgical navigation, training, and testing. Move away from traditional constraints to 3D Geometrical freedom.
The Digital Anatomy Printer brings medical models to life with incredible realism that accurately represents both the appearance and response of human tissue. These 3d printed anatomical models provide unmatched clinical versatility, repeatability, and accuracy for healthcare professionals and medical device companies.
