Understanding the distensibility of blood vessels is vital for analyzing cardiovascular function and developing medical treatments. Distensibility refers to the ability of vessels to expand and contract with pressure changes.
Discover how the Stratasys J5 Digital Anatomy™ Printer advances medical practice by mimicking liver tissue, myocardium, and other soft organs. Explore the benefits of realistic anatomical models for research and training.
Experience unparalleled realism in anatomical modeling with the Stratasys J5 Digital Anatomy™ Printer. Our cutting-edge technology offers a cost-effective, ethical, and environmentally friendly alternative to traditional cadaver and porcine labs.
Celebrating its 25th anniversary in Orlando, IMSH will showcase the latest in healthcare simulation, including Stratasys 3D printing solutions that provide lifelike anatomical models. Join us to see how advanced 3D printing can elevate medical training and improve patient care.
Creighton University uses Stratasys’ DAP to create lifelike, ultrasound-guided breast biopsy models, improving hands-on medical training. Learn more
Discover how Hadassah Academic Hospital uses Stratasys 3D printing to create same-day anatomical models, enhancing surgical planning and improving trauma patient outcomes.
Hear the insights from Ido Bitan about Stratasys’s journey in 3D printing for medical use, from lifelike anatomical models to radio-realistic materials.
Building a 3D Printing Lab: Step-by-step guidance from Dr. Dadia, Head of Levin Center of Surgical Innovation and 3D Printing at Tel Aviv Sourasky Medical Center, Israel, on setting up and managing a successful 3D printing lab in a leading hospital.
The University of Iowa’s prototyping lab leverages Stratasys additive manufacturing technology to speed up device design, testing, and production.