Most computers run on microchips, but what if we've been overlooking a simpler, more elegant computational tool all this time ...

Light doesn’t just travel in straight lines—it can also twist. And when it does, it opens new frontiers in science and medicine. A recent breakthrough led by Professor Igor Meglinski at Aston ...

Thanks to the NIH, researchers like Andrew Ewald have advanced our understanding of what allows a cancer cell from one part ...

AI systems already work their magic in many areas of biomedical science, helping to solve protein structure, discover hidden ...

Spatial transcriptomics technologies opened the door for new kinds of biological measurements, allowing scientists to ...

Induction of Multicellularity: When mechanically compressed, the salt-loving archaeon Haloferax volcanii can shift from being ...

A new study finds microplastics in nearly every organ of stranded sea turtles, including their reproductive systems.

The stamp can be used to grow complex patterns of muscle -- and potentially other types of biological tissues, such as neurons and heart cells -- that look and act like their natural counterparts.

have developed a method of bioprinting tissues that change shape because of cell-generated forces, more closely mimicking the function of biological tissues during development. Focusing specifically ...

Researchers at Ben-Gurion University of the Negev have developed a machine-learning algorithm that could enhance our understanding of human biology and disease. The new method, Weighted Graph ...

Scaling up biohybrid robots has been difficult due to the weak contractile force of lab-grown muscles, the risk of necrosis ...