Scientists have taken a major step closer to being able to 3D bioprint functional organs, after researchers devised a method of rebuilding components of the human heart, according to a study published in the journal Science.
The team developed an advanced version of Freeform Reversible Embedding of Suspended Hydrogels (FRESH) technology, to 3D print collagen with unprecedented complexity and construct components of the human heart spanning from small blood vessels to valves to beating ventricles. Recently awarded US patent 10,150,258, FRESH technology is now licensed to FluidForm, a startup committed to dramatically expanding the capability of 3D printing.
"We now have the ability to build constructs that recapitulate key structural, mechanical, and biological properties of native tissues," said the CTO and co-founder, FluidForm. "There are still many challenges to overcome to get us to bioengineered 3D organs, but this research represents a major step forward."
Though 3D bioprinting has achieved important milestones, direct printing of living cells and soft biomaterials has proved difficult. A key obstacle is supporting soft and dynamic biological materials during the printing process in order to achieve the resolution and fidelity required to recreate complex 3D structure and function.
FRESH uses an embedded printing approach that solves this challenge by using a temporary support gel, making it possible to 3D print complex scaffolds using collagen in its native unmodified form. In the past, researchers were limited because soft materials were difficult to print with high fidelity beyond a few layers in height due to sag.
Researchers team overcame these obstacles by developing an approach that uses rapid pH change to drive collagen self-assembly.
The FRESH 3D bioprinted hearts were based on human MRI and accurately reproduced patient-specific anatomical structure. Smaller cardiac ventricles printed with human cardiomyocytes showed synchronized contractions, directional action potential propagation, and wall-thickening up to 14% during peak systole. Challenges remain however, including generating the billions of cells required to 3D print larger tissues, achieving manufacturing scale, and the as yet undefined regulatory process for clinical translation.
While the human heart was used for proof-of-concept, FRESH printing of collagen and other soft biomaterials is a platform that has the potential to build advanced scaffolds for a wide range of tissues and organ systems.
FluidForm is commercializing FRESH technology via its first product, LifeSupport(TM) bioprinting support gel, enabling researchers around the world access to high-performance 3D bioprinting of collagen, cells and a wide range of biomaterials.
https://www.fluidform3d.com/media
https://science.sciencemag.org/content/365/6452/482
http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2F3d-bioprinting-of&filter=22
3D printing of human heart components using collagen
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