Will replacement organs 20 years out be printed, grown, or built? 3D printing of organs has just been given a huge boost with the demonstration of the ability to print human stem cells. This is ...

It’s now possible to 3D print objects using living human cells A company called BioBots wants to change what we think 3D printing is capable of. Dylan Love Updated on May 27 2021 9:58 pm CDT ...

Scientists at Tel Aviv University have achieved a world-first by 3D printing a small-scale heart, complete with blood vessels, ventricles, and chambers. The heart was printed using human cells ...

In a first, scientists have 3D printed a heart using human tissue. Though the heart is much smaller than a human's (it's only the size of a rabbit's), and there's still a long way to go until it ...

February 5, 2013 Researchers say they have used a 3D printing technique to arrange human embryonic stem cells (hESCs) for the first time. The team from Heriot-Watt University in Scotland says that ...

Biolife4D’s iPS cells can then be converted to heart cells and used as “bioink” in a 3D printer. Recently, this technique was used to 3D print a semi-functioning miniature human heart.

Research led by Florida A&M University Pharmaceutics Professor Mandip Sachdeva has resulted in the creation of the first high throughput printing of human cells in a 3D print of the cornea in the U.S.

Researchers have published a new 3D bioprinting method that brings the field of tissue engineering one step closer to being able to 3D print a full-sized, adult human heart.

Normally laboratory grown cells grow in 2D but some cell types have been printed in 3D. However, up to now, human stem cell cultures have been too sensitive to manipulate in this way.

A 3D printing technique developed by researchers at Edinburgh’s Heriot-Watt University is producing clusters of human embryonic stem cells (hESCs) for the first time. The team believes that the ...

The TAU researchers' heart is made from human cells and patient-specific biological materials which serve as the bioinks for 3D printing of complex tissue models.

This real-time video shows tiny fluorescent particles – 5 microns in diameter (the same size as a red blood cell) – moving through an array of 105 capillaries printed in parallel, inside a 700 ...