Using their novel Freeform Reversible Embedding of Suspended Hydrogels (FRESH) 3D bioprinting technique, which allows for the printing of soft living cells and tissues, researchers built a ...

2020); tissue engineering co-culture methods, which combine different cell types to simulate the cardiac microenvironment; and 3D printing methods ... Firstly, the large-scale differentiation of ...

As Olijve tells us, the company is working closely with the University of Utrecht in the Netherlands on other volumetric 3D bioprinting applications, like developing organoid systems ... is currently ...

While 3D printing for organs is still developing, the technology is driving other life-saving innovations. For instance, it is being used to make exact replicas of organs like the heart so that ...

In a breakthrough that blends ancient design with modern materials science, researchers have developed a new class of ceramic structures that can bend under pressure -- without breaking.

Organoids are made to model human organs and are promising for research and therapy, but there are limitations in their growth and function. A recent study found that placenta-derived IL1 under ...

Organoids are made to model human organs and are promising for research and therapy, but there are limitations to their growth and function. A recent study by researchers at The University of Tokyo ...

Thanks to the power of cutting-edge 3D printing, Rey can now walk, run, and even play again. According to Lydia Mindek, Director of Operations at 3DPets: "Printing the jacket for our full-limb ...

By promoting liver progenitor cell expansion through a specific signaling pathway, this method offers a promising route to improve organoid models and regenerative medicine. Organoids are small ...