The liver has a unique structure, especially at the level of individual cells. Hepatocytes, the main liver cells, release bile into tiny channels called bile canaliculi, which drain into the bile duct ...

The effectiveness of non-clinical drug safety predictions is enhanced by the adoption of three-dimensional (3D) cellular models. 3D bioprinting enables the generation of complex models with spatial ...

The liver has a unique structure, especially at the level of individual cells. Hepatocytes, the main liver cells, release bile into tiny channels called bile canaliculi, which drain into the bile duct ...

In a bid to gain further understanding of the etiology and pathogenesis of metabolic dysfunction–associated steatohepatitis (MASH), a team of researchers has created 3D bioprinted liver models. MASH, ...

Human periportal assembloid, showcasing the three key cell types of the liver: portal fibroblasts (magenta), cholangiocytes (green), and hepatocyte nuclei (blue). All cell borders are delineated in ...

The liver is the body's control tower for metabolism, powering vital functions like converting nutrients to glucose, storing fat and breaking down toxins. Over a third of the world, however, is ...

The liver is the only internal organ that can regenerate itself. Remarkably, even if 70 percent of the liver is removed, its tissue can regrow into a full-sized organ within a matter of months. By ...

Periportal assembloid, with the three component cell types visualized: cholangiocytes in pink, portal fibroblasts in green, and hepatocyte nuclei in blue; all cell borders are visualized in white. New ...