Neurofibrillary tangles mark Alzheimer’s disease and a plethora of primary tauopathies. How best to study them in the lab? Most mouse tauopathy models overexpress the human tau protein and are highly ...

Hidden inside every organ, microscopic fibers form a scaffolding that quietly shapes how we move, think, and heal. For the first time, scientists have produced detailed maps of these fiber webs across ...

In the world of computing, many breakthroughs and innovations mention ways to make the silicon brains in our machines more like the biological brains in our bodies. In fact, there’s a whole field ...

In this Innovation Spotlight, Treutlein shares her excitement of using organoids to model the human brain, harnessing AI to accelerate laboratory discoveries, and discusses how massive-scale ...

Researchers have developed a way of bioprinting tissues that change shape as a result of cell-generated forces, in the same way that it happens in biological tissues during organ development. The ...

A recent study published in Engineering has unveiled a novel approach to generating functional organoids from human adult adipose tissue. This method, which bypasses traditional stem cell isolation ...