Your organs are constantly talking to each other in ways we’re only beginning to understand. Tapping into these communication ...

A newly developed imaging method blends ultrasound and photoacoustics to capture both tissue structure and blood-vessel function in 3D.

Researching are throwing lots of ideas at the wall to see what sticks, but the U.S. just put some serious cash behind the idea of 3D bioprinting.

The university's scientists have received a $28.5 million award from the Advanced Research Projects Agency for Health to develop a transplantable 3D-printed liver patch. The initiative ...

Proteins circulating in the blood could accelerate the aging of blood vessels and increase silent cardiac risk.

This review innovatively proposes the use of electrospinning to fabricate electroactive fibrous scaffolds, which mimic the structure of the extracellular matrix while providing electrical activity, ...

Neural tissue normally dies quickly without oxygen. Yet bird retinas—among the most energy-demanding tissues in the animal ...

Carnegie Mellon received $28.5 million to develop liver tissue bioprinting, with hopes it can reduce the need for transplants ...

Explore the vital role of bone marrow stem cells. Learn how they drive bone remodeling, immunity, and skeletal health in this complete guide.

Understanding how living tissues function over time is essential for studying disease mechanisms, evaluating drug responses, and developing advanced ...

Scientists have uncovered a direct molecular mechanism by which gut bacteria inject proteins into human cells, reshaping immune responses and potentially driving inflammatory disease. Scientists have ...

Discover what happens when Nipah virus infects the body, its early symptoms, effects on lungs and brain, and the latest cases ...