A new 3D human brain tissue platform developed by MIT researchers is the first to integrate all major brain cell types, including neurons, glial cells and the vasculature into a single culture. Grown ...

We’ve come a long way from the Vacanti mouse. Back in the mid-90s, Charles Vacanti and other researchers experimented with cartilage regeneration and, with the help of a biodegradable mold and bovine ...

Advancing neurological disorder research requires model systems that more accurately reflect the human brain. 3D cell cultures, such as organoids and spheroids, have emerged as game-changers by better ...

The Berlin/Boston-based startup is building vascularised tissue today, with a long-term ambition to manufacture fully ...

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An illustration of multicolored tangle of threads within a small black sphere. A 3D illustration shows DNA packaged into the nucleus, scientists with the 4D Nucleome project are now building accurate ...

Researchers at ETH Zurich have created elastic and stable ear cartilage from human cells grown in a laboratory.

D models coupled with live-cell imaging can enhance the overall reliability of preclinical renal safety evaluations.

Osaka, Japan - Scientists at The University of Osaka have developed a novel hydrogel that enables the efficient, three-dimensional (3D) culture of human induced pluripotent stem cells (iPSCs). By ...

File this under unexpectedly cool: organs you don’t harvest, but instead print using an honest-to-goodness printer, just as you might words on paper, except in this case, the “words” are actual stem ...