3D printing technologies have been evolving as disruptive innovations for the treatment of patients with cardiac failure. The ability of this technology to design custom devices, at the point of care, has impacted both the diagnosis and treatment of cardiac diseases.
Cardiac applications of 3D-printed patient-specific models (PSMs) include surgical training, complex procedural planning, and the creation or refinement of cardiac devices. As structural heart interventions become increasingly complex, the ability to effectively model patient-specific geometry, as well as the interaction of devices within and around that geometry, becomes even more valuable to advance surgical interventions.
Until now, the focus of PolyJetâ„¢ 3D printing technology and other traditional anatomical modeling methods has been on achieving precise external anatomical geometry and appearance. The next frontier in 3D-printed PSMs is the simulation of the biomechanical properties of human tissue.
This white paper explains how biomedical tests confirm the potential for 3D printing synthetic myocardium with the Stratasys J750 Digital Anatomy printer.