This 3D animation shows an advanced liver organoid capable of forming its own internal blood vessels. Using a multilayered gel process, researchers coaxed vessel-forming sinusoidal cells (bright green ...

This 3D animation shows an advanced liver organoid capable of forming its own internal blood vessels. Using a multilayered gel process, researchers coaxed vessel-forming sinusoidal cells (bright green ...

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 ...

In an international study, researchers at Lund University in Sweden have identified a gene variant that controls the body's capability to form new blood vessels in muscles – a mechanism that affects ...

A computational model that could rapidly design a blood vessel network for any 3D-printed organ may take us a step closer to transplanting artificial livers, kidneys or hearts without the need for a ...

Blood flows around the body through a complex network of vessels, which must constantly adapt to changing needs. The balance ...

Uncontrolled blood pressure and diabetes silently damage blood vessels and brain function, dramatically multiplying the risk ...

Following a sharp spike in high blood pressure, Salman Khan's father was put in a ventilator support at Mumbai’s Lilavati ...

High blood pressure often shows no symptoms yet raises risk for heart attack, stroke and kidney damage. Learn why it's silent ...