How major organs work together to manage extreme physiological stresses such as lack of oxygen and sleep has been mapped for the first time by researchers from UCL and the University of Portsmouth.

A new study by scientists at the University of North Carolina at Chapel Hill reveals that the cells shaping our organs may be far more mobile and coordinated than once believed. The study is published ...

A University of Bath-led project has secured £500,000 to develop a first-of-its-kind ‘organ-on-chip' device that replicates connections between the brain, gut and pancreas. The GlucoBrain project will ...

A new Yale study reveals that major organ systems in the body aren't just passive structures operating on directions from command central—the brain—but instead are active participants in controlling ...

A University of Bath-led research effort received £500,000 to develop an organ-on-chip device that replicates connections between the brain, gut, and pancreas. The GlucoBrain project is designed to ...

A new study from scientists at the University of North Carolina at Chapel Hill reveals that the cells shaping our organs may be far more mobile and coordinated than once believed. Using fruit flies as ...

Visceral organs are not passive recipients of extrinsic neural input; they contain intrinsic circuits that actively shape their own physiology. These organ intrinsic neural circuits are well-defined, ...

Nearly 115,000 people are currently waiting for a new organ. But the shortage crisis is nothing new, as 5,600 people die each year waiting for an organ. Ali Rogin spoke with Barry Friedman, the former ...

A new study from scientists at the University of North Carolina at Chapel Hill reveals that the cells shaping our organs may be far more mobile and coordinated than once believed. Using fruit flies as ...