Digital Anatomy 3D Printer brings realistic simulation to functional anatomical models

Stratasys Ltd. introduces the  J750 Digital Anatomy 3D Printer. Designed to replicate the feel, responsiveness, and biomechanics of human anatomy in medical models – the system improves surgical preparedness and training while helping bring new medical devices to market faster.  The Digital Anatomy 3D Printer recreates actual tissue response – and can be used anywhere without specialized facilities. It also lets users focus on specific pathologies.

“We believe in the potential of 3D printing to provide better health care, and the Digital Anatomy 3D Printer is a major step forward,” said Stratasys Healthcare Business Unit Head Eyal Miller. “We’re giving surgeons a more realistic training environment in no-risk settings. We also anticipate this will enable medical device makers to improve how they bring products to market by performing design verification, validation, usability studies and failure analysis with these new models.”

3D printed heart model produced on the new Stratasys J750 Digital Anatomy 3D Printer – replicating the feel, responsiveness, and biomechanics of human anatomy.

The 3D printer has already been tested at several organizations. The Jacobs Institute, a Buffalo, N.Y.-based medical innovation center focused on accelerating device development in vascular medicine, has been testing the Digital Anatomy 3D Printer to re-create key vascular components for advanced testing and training. “3D printing has been wonderful for recreating patient-specific anatomy compared to cadavers or animal models; however, the final frontier for organ model realism has been live-tissue feel and biomechanical realism,” said Dr. Adnan Siddiqui, Chief Medical Officer, Jacobs Institute. “That’s exactly what the Digital Anatomy 3D Printer gives us. We believe these models give us the best opportunity to recreate human physiological conditions to simulate actual clinical situations and to study new devices to establish their effectiveness before introducing them to patients.”

In conjunction with the 3D printer itself, Stratasys is also introducing three new materials – TissueMatrix, GelMatrix, and BoneMatrix – used to create cardiac, vascular, and orthopedic 3D printing applications. A Blood Vessel Cleaning Station that removes support material from inside 3D-printed blood vessels is also being released.

The new Stratasys 3D printer is expected to see adoption primarily by medical device companies, which require new ways to drive faster adoption of technologies and procedures – and academic medical centers, which are under increasing pressure to conduct training outside of the operating room to minimize risk to patients. The solution also supports efforts to move from time-based surgical training to proficiency-based evaluation.

Stratasys Ltd.
www.stratasys.com/3d-printers/j735-j750