A Band-Aid for the heart? New 3D printing method makes this, and much more, possible
Originally published by Lisa Marshall, Nicholas Goda, University of Colorado at Boulder, on August 1, 2024
Laboratory tests show this 3D-printed material molds and sticks to organs. Pictured is a porcine heart. Credit: University of Colorado at Boulder
In the quest to develop life-like materials to replace and repair human body parts, scientists face a formidable challenge: Real tissues are often both strong and stretchable and vary in shape and size.
A CU Boulder-led team, in collaboration with researchers at the University of Pennsylvania, has taken a critical step toward cracking that code. They've developed a new way to 3D print material that is at once elastic enough to withstand a heart's persistent beating, tough enough to endure the crushing load placed on joints, and easily shapable to fit a patient's unique defects.
Better yet, it sticks easily to wet tissue.
Their breakthrough, described in the Aug. 2 edition of the journal Science, helps pave the way toward a new generation of biomaterials, from internal bandages that deliver drugs directly to the heart to cartilage patches and needle-free sutures.
"Cardiac and cartilage tissues are similar in that they have very limited capacity to repair themselves. When they're damaged, there is no turning back," said senior author Jason Burdick, a professor of chemical and biological engineering at CU Boulder's BioFrontiers Institute. "By developing new, more resilient materials to enhance that repair process, we can have a big impact on patients."
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