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This cyborg cockroach could be the future of earthquake search and rescue

From drivable bionic animals to machines made from muscle, biohybrid robots are on their way to a variety of uses. From drivable bionic animals to machines made from muscle, biohybrid robots are on their way to a variety of uses.

Fiber-infused ink enables 3D-printed heart muscle to beat

This illustration shows a 3D printed heart ventricle engineered with fiber-infused ink. Credit: Harvard SEAS By Kat J. McAlpine / SEAS Communications Over the last decade, advances in 3D printing have unlocked new possibilities for bioengineers to build heart tissues and structures. Their goals include creating better in vitro platforms for discovering new therapeutics for heart disease, the leading cause of death in the United States, responsible for about one in every five deaths nationally, and using 3D-printed cardiac tissues to evaluate which treatments might work best in individual patients. A more distant aim is to fabricate implantable tissues that can heal or replace faulty or diseased structures inside a patient's heart. In a paper published in Nature Materials, researchers from Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) and the Wyss Institute for Biologically Inspired Engineering at Harvard University report the development of a new hydrog

Harvard researchers develop ink that enables 3D printing of beating heart tissues

Over the last decade, advances in 3D printing have unlocked new possibilities for bioengineers to build heart tissues and structures.

Fiber-infused ink enables 3D-printed heart muscle to beat

Fiber-infused ink enables 3D-printed heart muscle to beat
harvard.edu - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from harvard.edu Daily Mail and Mail on Sunday newspapers.

Fiber-infused ink enables 3D-printed heart mu

Researchers from the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) report the development of a new hydrogel ink infused with gelatin fibers that enables 3D printing of a functional heart ventricle that mimics beating like a human heart. They discovered the fiber-infused gel (FIG) ink allows heart muscle cells printed in the shape of a ventricle to align and beat in coordination like a human heart chamber.

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