Over one billion people worldwide are over 60, and the population is projected to more than double by 2050. But as more ...

To better understand our cells and extracellular matrix—the 3D scaffolding that surrounds our cells—scientists apply different mechanical forces to simulate these microenvironments. A new study uses ...

Dr. Vadim Jucaud's lab at the Terasaki Institute has introduced a new organ-on-a-chip platform that recapitulates age-dependent immune responses, offering a more accurate testing bed for evaluating ...

Blood vessels twist, branch, narrow, and balloon in ways that dramatically affect how blood flows — but most lab models have long treated them like straight pipes. Researchers at Texas A&M have now ...

Space exploration activity has been increasing. In turn, researchers are more interested than ever in uncovering more about how space travel affects human health and the progression of disease.

Neuron-powered computer chips can now be easily programmed to play a first-person shooter game, bringing biological computers ...

Chip-scale laser controls trapped ions for quantum clocks and qubits, enabling portable, scalable systems with high fidelity ...

What if instead of taking a water or soil sample to the lab, you could take the lab to the sample? That’s what a team of researchers reporting in ACS Sensors did with a new nitrate-monitoring ...

A tiny crystal chip which uses terahertz radiation to see clearly through a wide range of materials could find applications ...